Professional LED lighting glossary
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Professional LED lighting glossary

 

 

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Aberration (chromatic)Optical defect causing colour fringing at the edges of a light beam.
Aberration (spherical)Optical distortion where rays passing through different lens zones converge at different points.
Abrasion resistanceAbility of a profile or cover surface to withstand mechanical wear without loss of clarity.
AbsorbanceCapacity of a material to absorb incident light radiation rather than transmit or reflect it.
Absorber (thermal)Material or coating that absorbs infrared radiation to aid heat management in luminaires.
Absorption coefficientFraction of incident light absorbed per unit thickness of a material.
AC (Alternating Current)Mains electricity, typically 230 V / 50 Hz in Europe or 120 V / 60 Hz in North America.
AC/DC converterDevice converting alternating current into direct current for powering LED strips.
Accent lightingFocused illumination highlighting objects, textures or architectural features.
Accent washCombination of accent and wash lighting creating highlights with uniform background.
Acceptance angleMaximum angle at which light can enter an optical fibre or light guide.
Acceptance quality level (AQL)Maximum defect rate acceptable in LED production quality control.
Accessory (end cap flat solid aluminium)End cap flat solid aluminium for closing and finishing an LED profile.
Accessory (end cap flat solid black)End cap flat solid black for closing and finishing an LED profile.
Accessory (end cap flat solid plastic)End cap flat solid plastic for closing and finishing an LED profile.
Accessory (end cap flat solid white)End cap flat solid white for closing and finishing an LED profile.
Accessory (end cap flat with hole aluminium)End cap flat with hole aluminium for closing and finishing an LED profile.
Accessory (end cap flat with hole black)End cap flat with hole black for closing and finishing an LED profile.
Accessory (end cap flat with hole plastic)End cap flat with hole plastic for closing and finishing an LED profile.
Accessory (end cap flat with hole white)End cap flat with hole white for closing and finishing an LED profile.
Accessory (end cap left)End cap left for closing and finishing an LED profile.
Accessory (end cap magnetic)End cap magnetic for closing and finishing an LED profile.
Accessory (end cap right)End cap right for closing and finishing an LED profile.
Accessory (end cap rounded aluminium)End cap rounded aluminium for closing and finishing an LED profile.
Accessory (end cap rounded plastic)End cap rounded plastic for closing and finishing an LED profile.
Accessory (end cap silicone plug)End cap silicone plug for closing and finishing an LED profile.
Accessory (end cap with cable gland IP67)End cap with cable gland ip67 for closing and finishing an LED profile.
Acclimation timePeriod required for an LED system to reach thermal equilibrium after switch-on.
Accuracy (colour)Degree of fidelity in colour reproduction compared to a reference source.
Accuracy (photometric)Closeness of measured luminaire performance to declared datasheet values.
Acoustic ceiling integrationLED profile compatible with perforated sound-absorbing ceiling tiles.
Acrylic (PMMA)Polymethyl methacrylate, a transparent thermoplastic used for LED profile covers and diffusers.
Acrylic cementSolvent-based adhesive for bonding acrylic cover sections end to end.
Acrylic diffuserPMMA cover that scatters light uniformly while maintaining good transmittance.
Acrylic opalPMMA with an opacifying treatment for uniform diffusion without visible LED dots.
Acrylic prismaticPMMA cover with moulded prismatic pattern for controlled light distribution.
Acrylic satinPMMA cover with a satin finish reducing glare while preserving light output.
Acrylic transparentClear PMMA cover with transmittance exceeding 92 percent for maximum efficiency.
Active areaRegion of the LED die that actually emits photons.
Active coolingHeat dissipation using fans, Peltier devices or forced-air systems.
Active surge protectorElectronic device clamping mains surges before they reach the LED driver.
AdapterInterface component between different electrical, mechanical or control systems.
Adapter (angular)Connector enabling a direction change for an LED strip or profile.
Adapter (bayonet)Quick-twist adapter for lamp or module replacement in track systems.
Adapter (clip)Quick-snap accessory for securing LED strips inside aluminium profiles.
Adapter (DIN rail)Module for mounting power supplies and controllers on DIN rails in panels.
Adapter (power)Device converting mains voltage to the voltage required by an LED strip.
Adapter (track)Element allowing luminaire mounting on electrified track rails.
Adaptive lightingSystem that automatically adjusts output based on occupancy, daylight or time of day.
Additive colour mixingCombining RGB primary colours to produce composite hues in LED systems.
Addressable IC APA102Dual-wire SPI addressable LED with separate clock line.
Addressable IC GS820812 V addressable LED with breakpoint resume.
Addressable IC LPD8806Dual-wire addressable LED used in decorative strip installations.
Addressable IC SK6812RGBW addressable LED with integrated driver.
Addressable IC SK9822High-speed SPI addressable LED similar to APA102.
Addressable IC SM16703Low-cost single-wire addressable LED IC.
Addressable IC TM1809Three-channel addressable LED driver IC.
Addressable IC TM1814Addressable RGBW LED with 800 kHz protocol.
Addressable IC UCS1903Single-wire addressable LED for outdoor pixel installations.
Addressable IC WS2811External driver IC controlling three LEDs per pixel in addressable strips.
Addressable IC WS2812BIntegrated single-pixel RGB controller in a 5050-size LED package.
Addressable IC WS2813Improved WS2812 with dual-signal backup for fault tolerance.
Addressable IC WS281512 V addressable IC with signal backup.
Addressable LEDLED with an integrated control IC allowing individual pixel management.
Addressable strip (12V)Pixel-controllable LED strip operating at 12 volts DC.
Addressable strip (24V)Pixel-controllable LED strip operating at 24 volts DC.
Addressable strip (5V)Pixel-controllable LED strip operating at 5 volts DC.
Adhesive (3M VHB)High-performance double-sided foam tape for fixing LED strips to profiles.
Adhesive (acrylic-based)Acrylic glue for permanent mounting of profiles on smooth surfaces.
Adhesive (cyanoacrylate)Fast-setting superglue for small LED component bonding.
Adhesive (epoxy)Two-part high-strength resin for structural bonding of profiles and components.
Adhesive (hot-melt)Thermoplastic glue applied hot for rapid component fixing inside profiles.
Adhesive (silicone)Flexible adhesive sealant providing waterproof bonding and IP protection.
Adhesive (thermal)Thermally conductive adhesive for heat-efficient strip-to-profile bonding.
Adhesive (UV-curing)Adhesive that polymerises under ultraviolet light for rapid optical bonding.
Adjacency (chromatic)Proximity of two LED sources with similar CCTs, critical for perceived uniformity.
After-hours lightingMinimal illumination maintained outside business hours for security.
AfterglowResidual luminous persistence after a phosphor or LED is switched off.
AGC (Automatic Gain Control)Automatic adjustment in light sensors for adaptive regulation.
AgeingProgressive degradation of LED luminous flux and chromatic stability over time.
Ageing (accelerated)Laboratory test simulating years of use in a compressed timeframe.
Ageing chamberEnvironmental test chamber for accelerated LED lifetime studies.
Air gapSpace between the LED strip and the profile cover affecting optical mixing quality.
Air-handling luminaireLED luminaire integrated into an HVAC air-return plenum.
Aisle lightingLED illumination between shelving rows in retail or warehouse settings.
AlbedoRatio of reflected to incident light on a surface, used in lighting calculations.
Algorithm (colour-mixing)Mathematical routine blending multiple LED channels to hit a target colour.
Algorithm (dimming)Mathematical logic governing the attenuation curve in controllers.
Algorithm (thermal-management)Control logic that adjusts LED drive current based on temperature readings.
Alignment (optical)Precise positioning of LEDs, lenses and diffusers to achieve the desired beam.
Alignment jigFixture holding profile sections in position during assembly or gluing.
All-in-one luminaireSelf-contained LED unit with integrated driver, optics and controls.
Alloy (aluminium)Combination of aluminium with other metals optimising mechanical and thermal properties.
Alternating warm-cool stripStrip with alternating warm and cool white LEDs for blended CCT tuning.
AluminiumLightweight metal with high thermal conductivity, the primary material for LED profiles.
Aluminium 6060Alloy with good extrudability, commonly used for standard LED profiles.
Aluminium 6063High surface-finish alloy, preferred for architectural LED profiles.
Aluminium 6082High-strength structural alloy for load-bearing and large-dimension profiles.
Aluminium 7075Aerospace-grade alloy occasionally used for high-performance LED heat sinks.
Aluminium anodisedAluminium with an electrolytic oxide layer that is protective and decorative.
Aluminium anodised blackBlack matte anodised finish, widely used for recessed and discreet profiles.
Aluminium anodised bronzeBronze-toned anodised finish for heritage and architectural applications.
Aluminium anodised champagneWarm champagne-toned anodised finish for luxury interiors.
Aluminium anodised goldGold-toned anodised finish for decorative high-end applications.
Aluminium anodised silverNatural anodised finish with a metallic silver appearance.
Aluminium anodised titaniumDark grey anodised finish mimicking titanium for modern aesthetics.
Aluminium bead-blastedSurface finish achieved by glass-bead blasting for a fine matte texture.
Aluminium brushedSurface treatment with directional lines for a contemporary decorative effect.
Aluminium die-castComponents made by pressure die-casting for end caps, junctions and accessories.
Aluminium extrudedProfile obtained by hot-extruding alloy through a shaped die.
Aluminium lacqueredProfile with powder or liquid coating for custom colour finishes.
Aluminium mill finishAs-extruded aluminium without any surface treatment.
Aluminium painted (wet)Profile finished with liquid paint rather than powder coat.
Aluminium polishedMirror-bright aluminium achieved by mechanical or chemical polishing.
Aluminium powder-coatedProfile coated with electrostatically applied powder cured in an oven.
Aluminium rawUntreated profile intended for subsequent surface finishing.
Aluminium recycledAlloy obtained from recovered material with a lower environmental footprint.
Aluminium sandblastedFinish achieved by sandblasting, giving a uniform matte appearance.
Aluminium satinBrushed finish with a silk effect, between glossy and matte.
Aluminium sheetFlat aluminium stock used for custom brackets and mounting plates.
Ambient light rejectionCover or lens property minimising the appearance of ambient reflections.
Ambient lightingGeneral illumination of a space ensuring visibility and visual comfort.
Ambient temperature (Ta)Air temperature surrounding the luminaire, influencing LED performance.
AmmeterInstrument measuring electric current in amperes for system commissioning.
Amp meter (clamp)Non-contact current-measuring tool for verifying LED circuit loads on site.
AmperageElectric current intensity measured in amperes, critical for system sizing.
Amplifier (DALI)Repeater extending the DALI bus beyond 300 m or 64 devices.
Amplifier (DMX)Signal booster regenerating the DMX512 signal for long cable runs.
Amplifier (LED)Device replicating the dimming signal to drive additional strip runs.
Amplifier (RGB)Three-channel signal repeater extending RGB strip length.
Amplifier (RGBW)Four-channel repeater for strips with RGB plus dedicated white.
Amplifier (RGBWW)Five-channel repeater for strips with RGB, warm white and cool white.
Amplifier (signal)Generic device regenerating control signals over long cable distances.
Analogue 0-10 VDimming standard using a 0 to 10 volt DC control signal.
Analogue 1-10 VDimming variant where 1 V equals minimum brightness and 10 V equals full.
Analogue output moduleBuilding-automation module providing a 0-10 V signal for LED dimming.
Anchor (spring)Accessory for securing recessed profiles in suspended ceilings and panels.
Angle (beam)Width of the light cone at 50 percent of peak intensity.
Angle (critical)Angle beyond which total internal reflection occurs inside an optical medium.
Angle (cut-off)Angle beyond which the light source is no longer visible, for glare control.
Angle (emission)Total angle within which the LED emits light, typically 120° for SMD.
Angle (field)Total cone where intensity falls to 10 percent of peak.
Angle (half-peak)Synonym for beam angle measured at 50 percent intensity.
Angle (incidence)Angle at which a beam strikes a surface relative to the normal.
Angle (installation)Tilt of the profile relative to the illuminated surface.
Angle (nadir)Angle measured downward from the horizontal, used in outdoor luminaire aiming.
Angle (reflection)Angle of the reflected beam, equal to the angle of incidence.
Angle (shielding)Minimum obscuring angle of the source against direct glare.
Angle (solid)Three-dimensional portion of space measured in steradians (sr).
Angle (tilt)Rotational adjustment of a luminaire around its horizontal axis.
Angle-cut profileProfile end cut at an angle for mitre-jointed corner installations.
Annual operation 1000hLED installation operating 1000 hours per year. Annual energy cost equals installed watts x 1000h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 1250hLED installation operating 1250 hours per year. Annual energy cost equals installed watts x 1250h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 1500hLED installation operating 1500 hours per year. Annual energy cost equals installed watts x 1500h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 1750hLED installation operating 1750 hours per year. Annual energy cost equals installed watts x 1750h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 2000hLED installation operating 2000 hours per year. Annual energy cost equals installed watts x 2000h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 2250hLED installation operating 2250 hours per year. Annual energy cost equals installed watts x 2250h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 2500hLED installation operating 2500 hours per year. Annual energy cost equals installed watts x 2500h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 2750hLED installation operating 2750 hours per year. Annual energy cost equals installed watts x 2750h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 3000hLED installation operating 3000 hours per year. Annual energy cost equals installed watts x 3000h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 3250hLED installation operating 3250 hours per year. Annual energy cost equals installed watts x 3250h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 3500hLED installation operating 3500 hours per year. Annual energy cost equals installed watts x 3500h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 3750hLED installation operating 3750 hours per year. Annual energy cost equals installed watts x 3750h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 4000hLED installation operating 4000 hours per year. Annual energy cost equals installed watts x 4000h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 4250hLED installation operating 4250 hours per year. Annual energy cost equals installed watts x 4250h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 4500hLED installation operating 4500 hours per year. Annual energy cost equals installed watts x 4500h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 4750hLED installation operating 4750 hours per year. Annual energy cost equals installed watts x 4750h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 5000hLED installation operating 5000 hours per year. Annual energy cost equals installed watts x 5000h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 500hLED installation operating 500 hours per year. Annual energy cost equals installed watts x 500h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 5250hLED installation operating 5250 hours per year. Annual energy cost equals installed watts x 5250h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 5500hLED installation operating 5500 hours per year. Annual energy cost equals installed watts x 5500h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 5750hLED installation operating 5750 hours per year. Annual energy cost equals installed watts x 5750h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 6000hLED installation operating 6000 hours per year. Annual energy cost equals installed watts x 6000h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 6250hLED installation operating 6250 hours per year. Annual energy cost equals installed watts x 6250h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 6500hLED installation operating 6500 hours per year. Annual energy cost equals installed watts x 6500h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 6750hLED installation operating 6750 hours per year. Annual energy cost equals installed watts x 6750h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 7000hLED installation operating 7000 hours per year. Annual energy cost equals installed watts x 7000h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 7250hLED installation operating 7250 hours per year. Annual energy cost equals installed watts x 7250h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 7500hLED installation operating 7500 hours per year. Annual energy cost equals installed watts x 7500h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 750hLED installation operating 750 hours per year. Annual energy cost equals installed watts x 750h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 7750hLED installation operating 7750 hours per year. Annual energy cost equals installed watts x 7750h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 8000hLED installation operating 8000 hours per year. Annual energy cost equals installed watts x 8000h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 8250hLED installation operating 8250 hours per year. Annual energy cost equals installed watts x 8250h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 8500hLED installation operating 8500 hours per year. Annual energy cost equals installed watts x 8500h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
Annual operation 8750hLED installation operating 8750 hours per year. Annual energy cost equals installed watts x 8750h x electricity tariff; longer operating hours amplify the financial benefit of high-efficacy LED technology.
AnodePositive terminal of an LED, identified by the longer pin or a plus sign.
AnodisingElectrochemical process creating a protective oxide layer on aluminium.
Anodising (bright)Process producing a reflective, mirror-like anodised surface.
Anodising (colour)Anodising incorporating dye to produce coloured finishes.
Anodising (hard / Type III)Thick-layer anodising (over 25 µm) for high mechanical resistance.
Anodising (Type II)Standard anodising with 5–25 µm thickness, most common for profiles.
ANSIAmerican National Standards Institute, defining LED colour, binning and safety standards.
ANSI binColour-coordinate region defined by ANSI for standardised LED binning.
ANSI C78.377Chromaticity specifications for SSL products.
ANSI/ASHRAE 90.1Energy standard with lighting power density limits.
ANSI/IES RP-1Office lighting practice.
ANSI/IES RP-7Industrial lighting practice.
ANSI/IES RP-8Roadway lighting practice.
Anti-bacterial coatingSilver-ion or titanium-dioxide surface treatment for luminaires in healthcare.
Anti-corrosion treatmentChemical or physical coating preventing oxidation of metal components.
Anti-fingerprint coatingOleophobic treatment on profile surfaces resisting fingerprint marks.
Anti-flickerTechnology eliminating perceptible and imperceptible LED flickering.
Anti-glareTreatment or design reducing reflections and glare on illuminated surfaces.
Anti-reflection coating (AR)Thin-film coating on a lens reducing surface reflections and increasing transmittance.
Anti-static packagingESD-safe wrapping protecting LED components during transport and storage.
Anti-yellowing additiveUV stabiliser in polycarbonate covers preventing discolouration over time.
Aperture (luminous)Area of the profile from which light exits, defined by the cover width.
Aperture ratioProportion of the luminaire face area that is luminous versus opaque.
App controlSmartphone or tablet application for wireless LED-system management.
Apparent power (VA)Product of RMS voltage and RMS current, related to power factor.
Application (airport terminal)LED lighting solution designed for airport terminal environments.
Application (ambulance bay)LED lighting solution designed for ambulance bay environments.
Application (amphitheatre)LED lighting solution designed for amphitheatre environments.
Application (amusement park)LED lighting solution designed for amusement park environments.
Application (aquarium)LED lighting solution designed for aquarium environments.
Application (arcade)LED lighting solution designed for arcade environments.
Application (architectural)Use of LED systems to enhance structural and building elements.
Application (archive room)LED lighting solution designed for archive room environments.
Application (art gallery)LED lighting solution designed for art gallery environments.
Application (assembly hall)LED lighting solution designed for assembly hall environments.
Application (attic)LED lighting solution designed for attic environments.
Application (auditorium)LED lighting solution designed for auditorium environments.
Application (auto repair shop)LED lighting solution designed for auto repair shop environments.
Application (baggage claim)LED lighting solution designed for baggage claim environments.
Application (bakery)LED lighting solution designed for bakery environments.
Application (balcony)LED lighting solution designed for balcony environments.
Application (bank branch)LED lighting solution designed for bank branch environments.
Application (banquet hall)LED lighting solution designed for banquet hall environments.
Application (bar)LED lighting solution designed for bar environments.
Application (barbershop)LED lighting solution designed for barbershop environments.
Application (barn)LED lighting solution designed for barn environments.
Application (basement)LED lighting solution designed for basement environments.
Application (bathroom (commercial))LED lighting solution designed for bathroom (commercial) environments.
Application (bathroom (residential))LED lighting solution designed for bathroom (residential) environments.
Application (beach bar)LED lighting solution designed for beach bar environments.
Application (beauty salon)LED lighting solution designed for beauty salon environments.
Application (bedroom)LED lighting solution designed for bedroom environments.
Application (bicycle path)LED lighting solution designed for bicycle path environments.
Application (billiard room)LED lighting solution designed for billiard room environments.
Application (boardroom)LED lighting solution designed for boardroom environments.
Application (boat cabin)LED lighting solution designed for boat cabin environments.
Application (boat deck)LED lighting solution designed for boat deck environments.
Application (boiler room)LED lighting solution designed for boiler room environments.
Application (bookshop)LED lighting solution designed for bookshop environments.
Application (botanical garden)LED lighting solution designed for botanical garden environments.
Application (boutique)LED lighting solution designed for boutique environments.
Application (bowling alley)LED lighting solution designed for bowling alley environments.
Application (brewery)LED lighting solution designed for brewery environments.
Application (bridge (pedestrian))LED lighting solution designed for bridge (pedestrian) environments.
Application (bus shelter)LED lighting solution designed for bus shelter environments.
Application (bus station)LED lighting solution designed for bus station environments.
Application (butcher shop)LED lighting solution designed for butcher shop environments.
Application (cafe)LED lighting solution designed for cafe environments.
Application (cafeteria)LED lighting solution designed for cafeteria environments.
Application (campsite)LED lighting solution designed for campsite environments.
Application (canteen)LED lighting solution designed for canteen environments.
Application (car dealership)LED lighting solution designed for car dealership environments.
Application (car park (indoor))LED lighting solution designed for car park (indoor) environments.
Application (car park (outdoor))LED lighting solution designed for car park (outdoor) environments.
Application (car wash)LED lighting solution designed for car wash environments.
Application (casino)LED lighting solution designed for casino environments.
Application (cathedral)LED lighting solution designed for cathedral environments.
Application (cellar)LED lighting solution designed for cellar environments.
Application (cemetery)LED lighting solution designed for cemetery environments.
Application (changing room)LED lighting solution designed for changing room environments.
Application (chapel)LED lighting solution designed for chapel environments.
Application (cheese ageing room)LED lighting solution designed for cheese ageing room environments.
Application (chemical plant)LED lighting solution designed for chemical plant environments.
Application (children playground)LED lighting solution designed for children playground environments.
Application (church)LED lighting solution designed for church environments.
Application (cinema foyer)LED lighting solution designed for cinema foyer environments.
Application (cinema screen)LED lighting solution designed for cinema screen environments.
Application (clean room ISO 5)LED lighting solution designed for clean room ISO 5 environments.
Application (clean room ISO 7)LED lighting solution designed for clean room ISO 7 environments.
Application (cloakroom)LED lighting solution designed for cloakroom environments.
Application (clock tower)LED lighting solution designed for clock tower environments.
Application (closet)LED lighting solution designed for closet environments.
Application (club)LED lighting solution designed for club environments.
Application (coaching inn)LED lighting solution designed for coaching inn environments.
Application (cold storage)LED lighting solution designed for cold storage environments.
Application (colonnade)LED lighting solution designed for colonnade environments.
Application (commercial kitchen)LED lighting solution designed for commercial kitchen environments.
Application (commercial)LED installation in retail, showroom, office and hospitality spaces.
Application (community centre)LED lighting solution designed for community centre environments.
Application (computer room)LED lighting solution designed for computer room environments.
Application (concert hall)LED lighting solution designed for concert hall environments.
Application (conference room)LED lighting solution designed for conference room environments.
Application (conservatory)LED lighting solution designed for conservatory environments.
Application (construction site)LED lighting solution designed for construction site environments.
Application (control room)LED lighting solution designed for control room environments.
Application (convenience store)LED lighting solution designed for convenience store environments.
Application (corridor (commercial))LED lighting solution designed for corridor (commercial) environments.
Application (corridor (hospital))LED lighting solution designed for corridor (hospital) environments.
Application (corridor (hotel))LED lighting solution designed for corridor (hotel) environments.
Application (corridor (residential))LED lighting solution designed for corridor (residential) environments.
Application (corridor (school))LED lighting solution designed for corridor (school) environments.
Application (courtyard)LED lighting solution designed for courtyard environments.
Application (covered market)LED lighting solution designed for covered market environments.
Application (covered walkway)LED lighting solution designed for covered walkway environments.
Application (craft workshop)LED lighting solution designed for craft workshop environments.
Application (crematorium)LED lighting solution designed for crematorium environments.
Application (cruise ship cabin)LED lighting solution designed for cruise ship cabin environments.
Application (cruise ship deck)LED lighting solution designed for cruise ship deck environments.
Application (cycle lane)LED lighting solution designed for cycle lane environments.
Application (dairy farm)LED lighting solution designed for dairy farm environments.
Application (dance floor)LED lighting solution designed for dance floor environments.
Application (dance studio)LED lighting solution designed for dance studio environments.
Application (data centre)LED lighting solution designed for data centre environments.
Application (delicatessen)LED lighting solution designed for delicatessen environments.
Application (dental surgery)LED lighting solution designed for dental surgery environments.
Application (department store)LED lighting solution designed for department store environments.
Application (departure lounge)LED lighting solution designed for departure lounge environments.
Application (depot)LED lighting solution designed for depot environments.
Application (design studio)LED lighting solution designed for design studio environments.
Application (dining room)LED lighting solution designed for dining room environments.
Application (disco)LED lighting solution designed for disco environments.
Application (dispensary)LED lighting solution designed for dispensary environments.
Application (display cabinet)LED lighting solution designed for display cabinet environments.
Application (dock)LED lighting solution designed for dock environments.
Application (dormitory)LED lighting solution designed for dormitory environments.
Application (dressing room)LED lighting solution designed for dressing room environments.
Application (drive-through)LED lighting solution designed for drive-through environments.
Application (dry cleaner)LED lighting solution designed for dry cleaner environments.
Application (editing suite)LED lighting solution designed for editing suite environments.
Application (electric vehicle charger)LED lighting solution designed for electric vehicle charger environments.
Application (elevator cab)LED lighting solution designed for elevator cab environments.
Application (elevator lobby)LED lighting solution designed for elevator lobby environments.
Application (emergency exit)LED lighting solution designed for emergency exit environments.
Application (engine room)LED lighting solution designed for engine room environments.
Application (entrance canopy)LED lighting solution designed for entrance canopy environments.
Application (entrance hall)LED lighting solution designed for entrance hall environments.
Application (escalator)LED lighting solution designed for escalator environments.
Application (event tent)LED lighting solution designed for event tent environments.
Application (examination room)LED lighting solution designed for examination room environments.
Application (exchange trading floor)LED lighting solution designed for exchange trading floor environments.
Application (exhibition hall)LED lighting solution designed for exhibition hall environments.
Application (exterior)LED lighting for gardens, façades, terraces and outdoor public spaces.
Application (eye clinic)LED lighting solution designed for eye clinic environments.
Application (factory assembly line)LED lighting solution designed for factory assembly line environments.
Application (factory clean area)LED lighting solution designed for factory clean area environments.
Application (factory loading bay)LED lighting solution designed for factory loading bay environments.
Application (farm building)LED lighting solution designed for farm building environments.
Application (fashion boutique)LED lighting solution designed for fashion boutique environments.
Application (fast food outlet)LED lighting solution designed for fast food outlet environments.
Application (ferry terminal)LED lighting solution designed for ferry terminal environments.
Application (filing room)LED lighting solution designed for filing room environments.
Application (fire escape)LED lighting solution designed for fire escape environments.
Application (fire station)LED lighting solution designed for fire station environments.
Application (fish market)LED lighting solution designed for fish market environments.
Application (fitness centre)LED lighting solution designed for fitness centre environments.
Application (fitting room)LED lighting solution designed for fitting room environments.
Application (flight of stairs)LED lighting solution designed for flight of stairs environments.
Application (florist)LED lighting solution designed for florist environments.
Application (food court)LED lighting solution designed for food court environments.
Application (food processing hall)LED lighting solution designed for food processing hall environments.
Application (football pitch)LED lighting solution designed for football pitch environments.
Application (forecourt)LED lighting solution designed for forecourt environments.
Application (foyer)LED lighting solution designed for foyer environments.
Application (freezer room)LED lighting solution designed for freezer room environments.
Application (fruit market)LED lighting solution designed for fruit market environments.
Application (fuel station)LED lighting solution designed for fuel station environments.
Application (funeral parlour)LED lighting solution designed for funeral parlour environments.
Application (furniture showroom)LED lighting solution designed for furniture showroom environments.
Application (gallery (art))LED lighting solution designed for gallery (art) environments.
Application (gallery (corridor))LED lighting solution designed for gallery (corridor) environments.
Application (gaming room)LED lighting solution designed for gaming room environments.
Application (garage (commercial))LED lighting solution designed for garage (commercial) environments.
Application (garage (residential))LED lighting solution designed for garage (residential) environments.
Application (garden path)LED lighting solution designed for garden path environments.
Application (garden)LED lighting solution designed for garden environments.
Application (gate house)LED lighting solution designed for gate house environments.
Application (gazebo)LED lighting solution designed for gazebo environments.
Application (gemological lab)LED lighting solution designed for gemological lab environments.
Application (gift shop)LED lighting solution designed for gift shop environments.
Application (glasshouse)LED lighting solution designed for glasshouse environments.
Application (go-kart track)LED lighting solution designed for go-kart track environments.
Application (golf clubhouse)LED lighting solution designed for golf clubhouse environments.
Application (grain silo)LED lighting solution designed for grain silo environments.
Application (greenhouse)LED lighting solution designed for greenhouse environments.
Application (grocery store)LED lighting solution designed for grocery store environments.
Application (guest house)LED lighting solution designed for guest house environments.
Application (guest room)LED lighting solution designed for guest room environments.
Application (gymnasium)LED lighting solution designed for gymnasium environments.
Application (hairdresser)LED lighting solution designed for hairdresser environments.
Application (hallway)LED lighting solution designed for hallway environments.
Application (handball court)LED lighting solution designed for handball court environments.
Application (hangar)LED lighting solution designed for hangar environments.
Application (harbour)LED lighting solution designed for harbour environments.
Application (hardware store)LED lighting solution designed for hardware store environments.
Application (health spa)LED lighting solution designed for health spa environments.
Application (healthcare)LED solutions for hospitals, clinics and care facilities with strict hygiene norms.
Application (helipad)LED lighting solution designed for helipad environments.
Application (heritage building)LED lighting solution designed for heritage building environments.
Application (high-bay warehouse)LED lighting solution designed for high-bay warehouse environments.
Application (home cinema)LED lighting solution designed for home cinema environments.
Application (home office)LED lighting solution designed for home office environments.
Application (home studio)LED lighting solution designed for home studio environments.
Application (horticultural)LED grow lights with tuned spectra for plant growth.
Application (hospice)LED lighting solution designed for hospice environments.
Application (hospital corridor)LED lighting solution designed for hospital corridor environments.
Application (hospital ICU)LED lighting solution designed for hospital ICU environments.
Application (hospital operating theatre)LED lighting solution designed for hospital operating theatre environments.
Application (hospital patient room)LED lighting solution designed for hospital patient room environments.
Application (hospital waiting area)LED lighting solution designed for hospital waiting area environments.
Application (hospitality)LED lighting for hotels, restaurants, bars and leisure venues.
Application (hostage negotiation room)LED lighting solution designed for hostage negotiation room environments.
Application (hotel bathroom)LED lighting solution designed for hotel bathroom environments.
Application (hotel bedroom)LED lighting solution designed for hotel bedroom environments.
Application (hotel corridor)LED lighting solution designed for hotel corridor environments.
Application (hotel gym)LED lighting solution designed for hotel gym environments.
Application (hotel lobby)LED lighting solution designed for hotel lobby environments.
Application (hotel lounge)LED lighting solution designed for hotel lounge environments.
Application (hotel restaurant)LED lighting solution designed for hotel restaurant environments.
Application (hotel spa)LED lighting solution designed for hotel spa environments.
Application (ice rink)LED lighting solution designed for ice rink environments.
Application (incubator room)LED lighting solution designed for incubator room environments.
Application (indoor climbing wall)LED lighting solution designed for indoor climbing wall environments.
Application (indoor garden)LED lighting solution designed for indoor garden environments.
Application (indoor pool)LED lighting solution designed for indoor pool environments.
Application (industrial kitchen)LED lighting solution designed for industrial kitchen environments.
Application (industrial workshop)LED lighting solution designed for industrial workshop environments.
Application (industrial)LED lighting for factories, warehouses and heavy-duty environments.
Application (infinity pool)LED lighting solution designed for infinity pool environments.
Application (information desk)LED lighting solution designed for information desk environments.
Application (inspection bay)LED lighting solution designed for inspection bay environments.
Application (interview room)LED lighting solution designed for interview room environments.
Application (irrigation channel)LED lighting solution designed for irrigation channel environments.
Application (IT server room)LED lighting solution designed for IT server room environments.
Application (jail cell)LED lighting solution designed for jail cell environments.
Application (jewellery shop)LED lighting solution designed for jewellery shop environments.
Application (juice bar)LED lighting solution designed for juice bar environments.
Application (karaoke room)LED lighting solution designed for karaoke room environments.
Application (kennel)LED lighting solution designed for kennel environments.
Application (kindergarten)LED lighting solution designed for kindergarten environments.
Application (kiosk)LED lighting solution designed for kiosk environments.
Application (kitchen (domestic))LED lighting solution designed for kitchen (domestic) environments.
Application (kitchen island)LED lighting solution designed for kitchen island environments.
Application (laboratory (chemical))LED lighting solution designed for laboratory (chemical) environments.
Application (laboratory (electronics))LED lighting solution designed for laboratory (electronics) environments.
Application (laboratory (medical))LED lighting solution designed for laboratory (medical) environments.
Application (laboratory (research))LED lighting solution designed for laboratory (research) environments.
Application (landing)LED lighting solution designed for landing environments.
Application (landscape garden)LED lighting solution designed for landscape garden environments.
Application (landscape)LED lighting for gardens, parks and green spaces.
Application (laser tag arena)LED lighting solution designed for laser tag arena environments.
Application (laundromat)LED lighting solution designed for laundromat environments.
Application (laundry room)LED lighting solution designed for laundry room environments.
Application (lecture hall)LED lighting solution designed for lecture hall environments.
Application (library (academic))LED lighting solution designed for library (academic) environments.
Application (library (public))LED lighting solution designed for library (public) environments.
Application (lift lobby)LED lighting solution designed for lift lobby environments.
Application (linen room)LED lighting solution designed for linen room environments.
Application (loading dock)LED lighting solution designed for loading dock environments.
Application (lobby (commercial))LED lighting solution designed for lobby (commercial) environments.
Application (lobby (residential))LED lighting solution designed for lobby (residential) environments.
Application (locker room)LED lighting solution designed for locker room environments.
Application (loft apartment)LED lighting solution designed for loft apartment environments.
Application (loft conversion)LED lighting solution designed for loft conversion environments.
Application (loggia)LED lighting solution designed for loggia environments.
Application (lounge)LED lighting solution designed for lounge environments.
Application (machine room)LED lighting solution designed for machine room environments.
Application (mail room)LED lighting solution designed for mail room environments.
Application (marina berth)LED lighting solution designed for marina berth environments.
Application (marine)Corrosion-resistant LED lighting for boats, docks and marine structures.
Application (market hall)LED lighting solution designed for market hall environments.
Application (market stall)LED lighting solution designed for market stall environments.
Application (massage room)LED lighting solution designed for massage room environments.
Application (mausoleum)LED lighting solution designed for mausoleum environments.
Application (meat processing plant)LED lighting solution designed for meat processing plant environments.
Application (media room)LED lighting solution designed for media room environments.
Application (medical examination room)LED lighting solution designed for medical examination room environments.
Application (meeting room)LED lighting solution designed for meeting room environments.
Application (memorial garden)LED lighting solution designed for memorial garden environments.
Application (metro platform)LED lighting solution designed for metro platform environments.
Application (metro station concourse)LED lighting solution designed for metro station concourse environments.
Application (mill)LED lighting solution designed for mill environments.
Application (minibar niche)LED lighting solution designed for minibar niche environments.
Application (monastery)LED lighting solution designed for monastery environments.
Application (monument)LED lighting solution designed for monument environments.
Application (mortuary)LED lighting solution designed for mortuary environments.
Application (mosque)LED lighting solution designed for mosque environments.
Application (motel room)LED lighting solution designed for motel room environments.
Application (motor workshop)LED lighting solution designed for motor workshop environments.
Application (multi-purpose hall)LED lighting solution designed for multi-purpose hall environments.
Application (museum archive)LED lighting solution designed for museum archive environments.
Application (museum gallery)LED lighting solution designed for museum gallery environments.
Application (museum)High-CRI, low-UV/IR LED lighting for artwork conservation.
Application (music practice room)LED lighting solution designed for music practice room environments.
Application (music studio)LED lighting solution designed for music studio environments.
Application (nail salon)LED lighting solution designed for nail salon environments.
Application (neonatal unit)LED lighting solution designed for neonatal unit environments.
Application (newsroom)LED lighting solution designed for newsroom environments.
Application (night club)LED lighting solution designed for night club environments.
Application (nursery (children))LED lighting solution designed for nursery (children) environments.
Application (nursery (plant))LED lighting solution designed for nursery (plant) environments.
Application (nursing home bedroom)LED lighting solution designed for nursing home bedroom environments.
Application (nursing home corridor)LED lighting solution designed for nursing home corridor environments.
Application (observatory)LED lighting solution designed for observatory environments.
Application (office (cellular))LED lighting solution designed for office (cellular) environments.
Application (office (executive))LED lighting solution designed for office (executive) environments.
Application (office (open plan))LED lighting solution designed for office (open plan) environments.
Application (operating theatre)LED lighting solution designed for operating theatre environments.
Application (optical shop)LED lighting solution designed for optical shop environments.
Application (orangery)LED lighting solution designed for orangery environments.
Application (orchard)LED lighting solution designed for orchard environments.
Application (outdoor café)LED lighting solution designed for outdoor café environments.
Application (outdoor dining terrace)LED lighting solution designed for outdoor dining terrace environments.
Application (outdoor pool)LED lighting solution designed for outdoor pool environments.
Application (outdoor sports court)LED lighting solution designed for outdoor sports court environments.
Application (paint booth)LED lighting solution designed for paint booth environments.
Application (pantry)LED lighting solution designed for pantry environments.
Application (parking ramp)LED lighting solution designed for parking ramp environments.
Application (parlour)LED lighting solution designed for parlour environments.
Application (passageway)LED lighting solution designed for passageway environments.
Application (patio)LED lighting solution designed for patio environments.
Application (pavilion)LED lighting solution designed for pavilion environments.
Application (pedestrian bridge)LED lighting solution designed for pedestrian bridge environments.
Application (pedestrian tunnel)LED lighting solution designed for pedestrian tunnel environments.
Application (penthouse)LED lighting solution designed for penthouse environments.
Application (pergola)LED lighting solution designed for pergola environments.
Application (pet shop)LED lighting solution designed for pet shop environments.
Application (petrol station forecourt)LED lighting solution designed for petrol station forecourt environments.
Application (pharmacy)LED lighting solution designed for pharmacy environments.
Application (photo studio)LED lighting solution designed for photo studio environments.
Application (piano bar)LED lighting solution designed for piano bar environments.
Application (pier)LED lighting solution designed for pier environments.
Application (pilates studio)LED lighting solution designed for pilates studio environments.
Application (pizza oven area)LED lighting solution designed for pizza oven area environments.
Application (planetarium)LED lighting solution designed for planetarium environments.
Application (plant nursery (retail))LED lighting solution designed for plant nursery (retail) environments.
Application (platform (train))LED lighting solution designed for platform (train) environments.
Application (playground (indoor))LED lighting solution designed for playground (indoor) environments.
Application (playground (outdoor))LED lighting solution designed for playground (outdoor) environments.
Application (plaza)LED lighting solution designed for plaza environments.
Application (police interview room)LED lighting solution designed for police interview room environments.
Application (police station)LED lighting solution designed for police station environments.
Application (pool bar)LED lighting solution designed for pool bar environments.
Application (pool house)LED lighting solution designed for pool house environments.
Application (porch)LED lighting solution designed for porch environments.
Application (portrait studio)LED lighting solution designed for portrait studio environments.
Application (post office)LED lighting solution designed for post office environments.
Application (potting shed)LED lighting solution designed for potting shed environments.
Application (poultry house)LED lighting solution designed for poultry house environments.
Application (powder room)LED lighting solution designed for powder room environments.
Application (power plant control room)LED lighting solution designed for power plant control room environments.
Application (prayer room)LED lighting solution designed for prayer room environments.
Application (pre-school)LED lighting solution designed for pre-school environments.
Application (print room)LED lighting solution designed for print room environments.
Application (prison cell)LED lighting solution designed for prison cell environments.
Application (prison corridor)LED lighting solution designed for prison corridor environments.
Application (produce market)LED lighting solution designed for produce market environments.
Application (projection room)LED lighting solution designed for projection room environments.
Application (pub)LED lighting solution designed for pub environments.
Application (public toilet)LED lighting solution designed for public toilet environments.
Application (pump room)LED lighting solution designed for pump room environments.
Application (quarantine room)LED lighting solution designed for quarantine room environments.
Application (racecourse grandstand)LED lighting solution designed for racecourse grandstand environments.
Application (racquet court)LED lighting solution designed for racquet court environments.
Application (radio studio)LED lighting solution designed for radio studio environments.
Application (reading nook)LED lighting solution designed for reading nook environments.
Application (reception desk)LED lighting solution designed for reception desk environments.
Application (recording booth)LED lighting solution designed for recording booth environments.
Application (recycling centre)LED lighting solution designed for recycling centre environments.
Application (refectory)LED lighting solution designed for refectory environments.
Application (rehabilitation gym)LED lighting solution designed for rehabilitation gym environments.
Application (religious building)LED lighting solution designed for religious building environments.
Application (research cleanroom)LED lighting solution designed for research cleanroom environments.
Application (residential corridor)LED lighting solution designed for residential corridor environments.
Application (residential garage)LED lighting solution designed for residential garage environments.
Application (residential)Domestic LED systems for functional and decorative illumination.
Application (restaurant dining)LED lighting solution designed for restaurant dining environments.
Application (restaurant kitchen)LED lighting solution designed for restaurant kitchen environments.
Application (restroom)LED lighting solution designed for restroom environments.
Application (retail checkout)LED lighting solution designed for retail checkout environments.
Application (retail fitting room)LED lighting solution designed for retail fitting room environments.
Application (retail stockroom)LED lighting solution designed for retail stockroom environments.
Application (retail)LED lighting for shops, focused on merchandise presentation.
Application (retirement home)LED lighting solution designed for retirement home environments.
Application (rooftop bar)LED lighting solution designed for rooftop bar environments.
Application (rooftop garden)LED lighting solution designed for rooftop garden environments.
Application (rooftop terrace)LED lighting solution designed for rooftop terrace environments.
Application (rope-access area)LED lighting solution designed for rope-access area environments.
Application (rotunda)LED lighting solution designed for rotunda environments.
Application (rugby pitch)LED lighting solution designed for rugby pitch environments.
Application (running track)LED lighting solution designed for running track environments.
Application (sacristy)LED lighting solution designed for sacristy environments.
Application (safe room)LED lighting solution designed for safe room environments.
Application (salon)LED lighting solution designed for salon environments.
Application (sample room)LED lighting solution designed for sample room environments.
Application (sanctuary)LED lighting solution designed for sanctuary environments.
Application (sauna (dry))LED lighting solution designed for sauna (dry) environments.
Application (sauna (steam))LED lighting solution designed for sauna (steam) environments.
Application (school art room)LED lighting solution designed for school art room environments.
Application (school canteen)LED lighting solution designed for school canteen environments.
Application (school classroom)LED lighting solution designed for school classroom environments.
Application (school corridor)LED lighting solution designed for school corridor environments.
Application (school gymnasium)LED lighting solution designed for school gymnasium environments.
Application (school hall)LED lighting solution designed for school hall environments.
Application (school laboratory)LED lighting solution designed for school laboratory environments.
Application (school library)LED lighting solution designed for school library environments.
Application (school reception)LED lighting solution designed for school reception environments.
Application (school toilet)LED lighting solution designed for school toilet environments.
Application (sculpture garden)LED lighting solution designed for sculpture garden environments.
Application (security checkpoint)LED lighting solution designed for security checkpoint environments.
Application (security control room)LED lighting solution designed for security control room environments.
Application (self-storage unit)LED lighting solution designed for self-storage unit environments.
Application (seminar room)LED lighting solution designed for seminar room environments.
Application (server farm)LED lighting solution designed for server farm environments.
Application (service corridor)LED lighting solution designed for service corridor environments.
Application (shed)LED lighting solution designed for shed environments.
Application (shelter (bus))LED lighting solution designed for shelter (bus) environments.
Application (ship bridge)LED lighting solution designed for ship bridge environments.
Application (ship cabin)LED lighting solution designed for ship cabin environments.
Application (ship engine room)LED lighting solution designed for ship engine room environments.
Application (shoe shop)LED lighting solution designed for shoe shop environments.
Application (shooting range)LED lighting solution designed for shooting range environments.
Application (shop window)LED lighting solution designed for shop window environments.
Application (shopping arcade)LED lighting solution designed for shopping arcade environments.
Application (shopping centre atrium)LED lighting solution designed for shopping centre atrium environments.
Application (shower room)LED lighting solution designed for shower room environments.
Application (showroom (bathroom))LED lighting solution designed for showroom (bathroom) environments.
Application (showroom (car))LED lighting solution designed for showroom (car) environments.
Application (showroom (furniture))LED lighting solution designed for showroom (furniture) environments.
Application (showroom (kitchen))LED lighting solution designed for showroom (kitchen) environments.
Application (showroom (lighting))LED lighting solution designed for showroom (lighting) environments.
Application (showroom (tile))LED lighting solution designed for showroom (tile) environments.
Application (sidewalk)LED lighting solution designed for sidewalk environments.
Application (signage)LED backlighting and edge-lighting for commercial signage and wayfinding.
Application (silo)LED lighting solution designed for silo environments.
Application (skating rink)LED lighting solution designed for skating rink environments.
Application (ski lodge)LED lighting solution designed for ski lodge environments.
Application (skylight well)LED lighting solution designed for skylight well environments.
Application (smoking shelter)LED lighting solution designed for smoking shelter environments.
Application (snack bar)LED lighting solution designed for snack bar environments.
Application (solarium)LED lighting solution designed for solarium environments.
Application (sound stage)LED lighting solution designed for sound stage environments.
Application (spa treatment room)LED lighting solution designed for spa treatment room environments.
Application (spine corridor)LED lighting solution designed for spine corridor environments.
Application (sports arena)LED lighting solution designed for sports arena environments.
Application (sports hall)LED lighting solution designed for sports hall environments.
Application (sports)High-output LED floodlights for stadiums and sports facilities.
Application (squash court)LED lighting solution designed for squash court environments.
Application (stable)LED lighting solution designed for stable environments.
Application (stadium bowl)LED lighting solution designed for stadium bowl environments.
Application (stadium concourse)LED lighting solution designed for stadium concourse environments.
Application (staff break room)LED lighting solution designed for staff break room environments.
Application (stage (theatre))LED lighting solution designed for stage (theatre) environments.
Application (staircase (feature))LED lighting solution designed for staircase (feature) environments.
Application (staircase (service))LED lighting solution designed for staircase (service) environments.
Application (stairwell)LED lighting solution designed for stairwell environments.
Application (steam room)LED lighting solution designed for steam room environments.
Application (stock exchange floor)LED lighting solution designed for stock exchange floor environments.
Application (stockroom)LED lighting solution designed for stockroom environments.
Application (storage cage)LED lighting solution designed for storage cage environments.
Application (storage room)LED lighting solution designed for storage room environments.
Application (street (residential))LED lighting solution designed for street (residential) environments.
Application (street (urban))LED lighting solution designed for street (urban) environments.
Application (studio apartment)LED lighting solution designed for studio apartment environments.
Application (study)LED lighting solution designed for study environments.
Application (subway passage)LED lighting solution designed for subway passage environments.
Application (suite (hotel))LED lighting solution designed for suite (hotel) environments.
Application (sunroom)LED lighting solution designed for sunroom environments.
Application (supermarket aisle)LED lighting solution designed for supermarket aisle environments.
Application (supermarket checkout)LED lighting solution designed for supermarket checkout environments.
Application (supermarket produce section)LED lighting solution designed for supermarket produce section environments.
Application (surgery (dental))LED lighting solution designed for surgery (dental) environments.
Application (surgery (medical))LED lighting solution designed for surgery (medical) environments.
Application (swimming pool (indoor))LED lighting solution designed for swimming pool (indoor) environments.
Application (swimming pool (outdoor))LED lighting solution designed for swimming pool (outdoor) environments.
Application (synagogue)LED lighting solution designed for synagogue environments.
Application (tanning booth)LED lighting solution designed for tanning booth environments.
Application (tapas bar)LED lighting solution designed for tapas bar environments.
Application (tea room)LED lighting solution designed for tea room environments.
Application (telephone room)LED lighting solution designed for telephone room environments.
Application (temple)LED lighting solution designed for temple environments.
Application (tennis court)LED lighting solution designed for tennis court environments.
Application (terrace (covered))LED lighting solution designed for terrace (covered) environments.
Application (terrace (open))LED lighting solution designed for terrace (open) environments.
Application (testing laboratory)LED lighting solution designed for testing laboratory environments.
Application (textile mill)LED lighting solution designed for textile mill environments.
Application (theatre auditorium)LED lighting solution designed for theatre auditorium environments.
Application (theatre backstage)LED lighting solution designed for theatre backstage environments.
Application (theatre foyer)LED lighting solution designed for theatre foyer environments.
Application (ticket office)LED lighting solution designed for ticket office environments.
Application (timber yard)LED lighting solution designed for timber yard environments.
Application (toilet (commercial))LED lighting solution designed for toilet (commercial) environments.
Application (toilet (residential))LED lighting solution designed for toilet (residential) environments.
Application (toll booth)LED lighting solution designed for toll booth environments.
Application (tool crib)LED lighting solution designed for tool crib environments.
Application (tower viewing platform)LED lighting solution designed for tower viewing platform environments.
Application (townhouse entrance)LED lighting solution designed for townhouse entrance environments.
Application (toy shop)LED lighting solution designed for toy shop environments.
Application (track (athletics))LED lighting solution designed for track (athletics) environments.
Application (trade counter)LED lighting solution designed for trade counter environments.
Application (trading floor)LED lighting solution designed for trading floor environments.
Application (train carriage)LED lighting solution designed for train carriage environments.
Application (train platform)LED lighting solution designed for train platform environments.
Application (train station concourse)LED lighting solution designed for train station concourse environments.
Application (tram stop)LED lighting solution designed for tram stop environments.
Application (transport)LED lighting for tunnels, stations, airports and transit areas.
Application (treatment room (medical))LED lighting solution designed for treatment room (medical) environments.
Application (treatment room (spa))LED lighting solution designed for treatment room (spa) environments.
Application (tree-lined avenue)LED lighting solution designed for tree-lined avenue environments.
Application (trophy room)LED lighting solution designed for trophy room environments.
Application (truck loading bay)LED lighting solution designed for truck loading bay environments.
Application (tunnel (pedestrian))LED lighting solution designed for tunnel (pedestrian) environments.
Application (tunnel (road))LED lighting solution designed for tunnel (road) environments.
Application (TV broadcasting studio)LED lighting solution designed for TV broadcasting studio environments.
Application (underground car park)LED lighting solution designed for underground car park environments.
Application (underground passage)LED lighting solution designed for underground passage environments.
Application (university atrium)LED lighting solution designed for university atrium environments.
Application (university lecture hall)LED lighting solution designed for university lecture hall environments.
Application (university library)LED lighting solution designed for university library environments.
Application (utility room)LED lighting solution designed for utility room environments.
Application (UV curing room)LED lighting solution designed for UV curing room environments.
Application (van interior)LED lighting solution designed for van interior environments.
Application (vault (bank))LED lighting solution designed for vault (bank) environments.
Application (vault (wine))LED lighting solution designed for vault (wine) environments.
Application (vegetable shop)LED lighting solution designed for vegetable shop environments.
Application (vending area)LED lighting solution designed for vending area environments.
Application (veranda)LED lighting solution designed for veranda environments.
Application (vestibule)LED lighting solution designed for vestibule environments.
Application (veterinary clinic)LED lighting solution designed for veterinary clinic environments.
Application (video conferencing room)LED lighting solution designed for video conferencing room environments.
Application (villa terrace)LED lighting solution designed for villa terrace environments.
Application (vineyard)LED lighting solution designed for vineyard environments.
Application (VIP lounge)LED lighting solution designed for VIP lounge environments.
Application (visitor centre)LED lighting solution designed for visitor centre environments.
Application (volleyball court)LED lighting solution designed for volleyball court environments.
Application (waiting room (dentist))LED lighting solution designed for waiting room (dentist) environments.
Application (waiting room (doctor))LED lighting solution designed for waiting room (doctor) environments.
Application (waiting room (station))LED lighting solution designed for waiting room (station) environments.
Application (walk-in fridge)LED lighting solution designed for walk-in fridge environments.
Application (walk-in wardrobe)LED lighting solution designed for walk-in wardrobe environments.
Application (walkway (covered))LED lighting solution designed for walkway (covered) environments.
Application (walkway (open))LED lighting solution designed for walkway (open) environments.
Application (warehouse (ambient))LED lighting solution designed for warehouse (ambient) environments.
Application (warehouse (cold))LED lighting solution designed for warehouse (cold) environments.
Application (warehouse (high-bay))LED lighting solution designed for warehouse (high-bay) environments.
Application (washroom)LED lighting solution designed for washroom environments.
Application (watch shop)LED lighting solution designed for watch shop environments.
Application (water feature)LED lighting solution designed for water feature environments.
Application (waterfront promenade)LED lighting solution designed for waterfront promenade environments.
Application (wedding marquee)LED lighting solution designed for wedding marquee environments.
Application (wedding venue)LED lighting solution designed for wedding venue environments.
Application (wellness / spa)LED solutions for spas and wellness centres with dynamic colour scenes.
Application (wellness centre)LED lighting solution designed for wellness centre environments.
Application (wet room)LED lighting solution designed for wet room environments.
Application (wine bar)LED lighting solution designed for wine bar environments.
Application (winery cellar)LED lighting solution designed for winery cellar environments.
Application (winery tasting room)LED lighting solution designed for winery tasting room environments.
Application (winter garden)LED lighting solution designed for winter garden environments.
Application (woodwork shop)LED lighting solution designed for woodwork shop environments.
Application (workshop (craft))LED lighting solution designed for workshop (craft) environments.
Application (workshop (industrial))LED lighting solution designed for workshop (industrial) environments.
Application (worship hall)LED lighting solution designed for worship hall environments.
Application (yacht cabin)LED lighting solution designed for yacht cabin environments.
Application (yacht deck)LED lighting solution designed for yacht deck environments.
Application (yoga studio)LED lighting solution designed for yoga studio environments.
Application (youth centre)LED lighting solution designed for youth centre environments.
Application (zen garden)LED lighting solution designed for zen garden environments.
Application (zoo aquarium)LED lighting solution designed for zoo aquarium environments.
Application (zoo enclosure (indoor))LED lighting solution designed for zoo enclosure (indoor) environments.
Application (zoo enclosure (outdoor))LED lighting solution designed for zoo enclosure (outdoor) environments.
Application temperature rangeMinimum and maximum ambient temperatures within which the LED system operates.
Appliqué (wall sconce)Wall-mounted decorative luminaire providing ambient or accent light.
Arc suppressorComponent preventing electrical arcing at relay contacts switching LED loads.
Arc-shaped profilePre-bent aluminium profile following a constant radius for curved installations.
Architectural lightingThe art and science of using light to valorise architectural elements.
Area lightLuminaire designed to uniformly illuminate a large outdoor area.
Array (LED)Group of LEDs mounted on a single PCB module.
Art-NetEthernet-based protocol for transporting DMX512 data over IP networks.
Art-Net 4Latest Art-Net revision supporting up to 32 768 DMX universes.
As-built drawingFinal installation drawing reflecting actual luminaire positions and wiring.
Assembly (SMT)Surface-mount technology for placing LED components onto PCBs.
Assembly (through-hole)Older component-mounting method with leads inserted into PCB holes.
Asymmetric distributionIntentionally unequal light output on opposite sides of the optical axis.
Asymmetric lens filmAdhesive optical film redirecting strip output for wall-wash applications.
Atex luminaireExplosion-proof LED luminaire certified for hazardous atmospheres.
Atmospheric corrosionDegradation of outdoor aluminium profiles by pollutants and salt air.
AttenuationControlled reduction of luminous intensity through dimming.
Attenuation (fibre-optic)Signal loss per unit length in an optical fibre, measured in dB/km.
Attenuation (signal)Progressive loss of control-signal strength over long cables.
Attenuation (voltage drop)Brightness decrease along a strip run caused by conductor resistance.
Audio-visual integrationCoordinating LED lighting with AV systems for unified scene control.
Auto-addressingAutomatic assignment of unique addresses to DALI luminaires during commissioning.
Auto-dimming driverDriver that automatically reduces output in response to rising temperature.
Auto-off timerTimer that switches lights off after a set period of inactivity.
Auto-tuningDriver or controller feature that self-calibrates to the connected LED load.
Automatic test system (ATS)Self-testing module verifying emergency-luminaire battery and lamp function.
AutomationAutomatic lighting control based on sensors, timers and programmed logic.
Autonomous emergency luminaireSelf-contained unit with battery and LEDs for emergency illumination.
Average rated lifeStatistical median of useful life for a population of LEDs in hours.
AWG (American Wire Gauge)Wire-diameter classification system used for cable sizing.
Awning lightingLED strip or profile installed under a retractable fabric awning.
AzimuthHorizontal angle indicating beam direction relative to north.

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B

Back-channel wiringCables routed behind the mounting surface through the profile back channel.
Back-lit channelProfile designed so light is emitted from behind a translucent surface.
Back-lit panelPanel where LEDs behind a diffuser create uniform surface illumination.
BacklightIllumination from behind a panel or translucent surface.
backlit stone techniqueLED panels behind thin translucent stone slabs (onyx, alabaster) make the material glow from within, revealing its unique veining and warm natural colour.
BackplateMounting plate fixed to the wall before the luminaire body is attached.
BaffleInternal deflecting element controlling light direction and reducing glare.
Baffle (black)Dark-coloured baffle minimising internal reflections for precise cut-off.
Baffle (cone)Conical element inside a downlight reducing spill light and glare.
Baffle (linear)Longitudinal louvre inside a linear profile for anti-glare performance.
Balanced whiteTunable-white mode producing equal warm and cool channel output for neutral CCT.
BallastHistorical term for a lamp control gear, now replaced by electronic LED drivers.
Ballast bypassRewiring a fluorescent fixture to remove the ballast when retrofitting with LED tubes.
Ballast compatibilityAbility of an LED retrofit lamp to operate on an existing fluorescent ballast.
Band-pass filterOptical filter transmitting only a narrow range of wavelengths.
Bar (LED)Rigid strip on an aluminium PCB, often used inside linear profiles.
Bar (rigid LED)Non-flexible LED module on a metal base for linear and showcase applications.
Barn doorHinged metal flap on a projector used to shape or block part of the beam.
Barrel connectorCylindrical DC power connector (e.g. 5.5 × 2.1 mm) for LED drivers.
Barrier (optical)Element separating light and dark zones inside a multi-source profile.
Barrier (vapour)Seal preventing moisture migration into an IP-rated luminaire.
Base (GU10)Bi-pin twist-lock lamp base used in many LED spotlight retrofits.
Base (lamp)Mechanical and electrical interface of a lamp (E27, E14, GU10, G4, G9, etc.).
Base (mounting)Bottom part of a profile that attaches to the installation surface.
Base temperature (Tb)Temperature measured at the base of an LED module, used for thermal derating.
Battery (lithium iron phosphate)LiFePO4 battery used in high-cycle emergency LED modules.
Battery (nickel cadmium)NiCd battery, an older technology still found in some emergency luminaires.
Battery (nickel metal hydride)NiMH battery used in maintained emergency LED luminaires.
Battery backupIntegral or external battery keeping LEDs lit during a power failure.
Battery duration (1 hour)Emergency luminaire rated for 1 hour of battery-powered illumination.
Battery duration (3 hours)Emergency luminaire rated for 3 hours of battery-powered illumination.
Bead-blast finishSurface texture produced by blasting with fine glass beads.
Beam 100°Optic producing a 100-degree beam angle at half-peak intensity.
Beam 101°Optic producing a 101-degree beam angle at half-peak intensity.
Beam 102°Optic producing a 102-degree beam angle at half-peak intensity.
Beam 103°Optic producing a 103-degree beam angle at half-peak intensity.
Beam 104°Optic producing a 104-degree beam angle at half-peak intensity.
Beam 105°Optic producing a 105-degree beam angle at half-peak intensity.
Beam 106°Optic producing a 106-degree beam angle at half-peak intensity.
Beam 107°Optic producing a 107-degree beam angle at half-peak intensity.
Beam 108°Optic producing a 108-degree beam angle at half-peak intensity.
Beam 109°Optic producing a 109-degree beam angle at half-peak intensity.
Beam 10°Optic producing a 10-degree beam angle at half-peak intensity.
Beam 110°Optic producing a 110-degree beam angle at half-peak intensity.
Beam 111°Optic producing a 111-degree beam angle at half-peak intensity.
Beam 112°Optic producing a 112-degree beam angle at half-peak intensity.
Beam 113°Optic producing a 113-degree beam angle at half-peak intensity.
Beam 114°Optic producing a 114-degree beam angle at half-peak intensity.
Beam 115°Optic producing a 115-degree beam angle at half-peak intensity.
Beam 116°Optic producing a 116-degree beam angle at half-peak intensity.
Beam 117°Optic producing a 117-degree beam angle at half-peak intensity.
Beam 118°Optic producing a 118-degree beam angle at half-peak intensity.
Beam 119°Optic producing a 119-degree beam angle at half-peak intensity.
Beam 11°Optic producing a 11-degree beam angle at half-peak intensity.
Beam 120°Optic producing a 120-degree beam angle at half-peak intensity.
Beam 121°Optic producing a 121-degree beam angle at half-peak intensity.
Beam 122°Optic producing a 122-degree beam angle at half-peak intensity.
Beam 123°Optic producing a 123-degree beam angle at half-peak intensity.
Beam 124°Optic producing a 124-degree beam angle at half-peak intensity.
Beam 125°Optic producing a 125-degree beam angle at half-peak intensity.
Beam 126°Optic producing a 126-degree beam angle at half-peak intensity.
Beam 127°Optic producing a 127-degree beam angle at half-peak intensity.
Beam 128°Optic producing a 128-degree beam angle at half-peak intensity.
Beam 129°Optic producing a 129-degree beam angle at half-peak intensity.
Beam 12°Optic producing a 12-degree beam angle at half-peak intensity.
Beam 130°Optic producing a 130-degree beam angle at half-peak intensity.
Beam 131°Optic producing a 131-degree beam angle at half-peak intensity.
Beam 132°Optic producing a 132-degree beam angle at half-peak intensity.
Beam 133°Optic producing a 133-degree beam angle at half-peak intensity.
Beam 134°Optic producing a 134-degree beam angle at half-peak intensity.
Beam 135°Optic producing a 135-degree beam angle at half-peak intensity.
Beam 136°Optic producing a 136-degree beam angle at half-peak intensity.
Beam 137°Optic producing a 137-degree beam angle at half-peak intensity.
Beam 138°Optic producing a 138-degree beam angle at half-peak intensity.
Beam 139°Optic producing a 139-degree beam angle at half-peak intensity.
Beam 13°Optic producing a 13-degree beam angle at half-peak intensity.
Beam 140°Optic producing a 140-degree beam angle at half-peak intensity.
Beam 141°Optic producing a 141-degree beam angle at half-peak intensity.
Beam 142°Optic producing a 142-degree beam angle at half-peak intensity.
Beam 143°Optic producing a 143-degree beam angle at half-peak intensity.
Beam 144°Optic producing a 144-degree beam angle at half-peak intensity.
Beam 145°Optic producing a 145-degree beam angle at half-peak intensity.
Beam 146°Optic producing a 146-degree beam angle at half-peak intensity.
Beam 147°Optic producing a 147-degree beam angle at half-peak intensity.
Beam 148°Optic producing a 148-degree beam angle at half-peak intensity.
Beam 149°Optic producing a 149-degree beam angle at half-peak intensity.
Beam 14°Optic producing a 14-degree beam angle at half-peak intensity.
Beam 150°Optic producing a 150-degree beam angle at half-peak intensity.
Beam 151°Optic producing a 151-degree beam angle at half-peak intensity.
Beam 152°Optic producing a 152-degree beam angle at half-peak intensity.
Beam 153°Optic producing a 153-degree beam angle at half-peak intensity.
Beam 154°Optic producing a 154-degree beam angle at half-peak intensity.
Beam 155°Optic producing a 155-degree beam angle at half-peak intensity.
Beam 156°Optic producing a 156-degree beam angle at half-peak intensity.
Beam 157°Optic producing a 157-degree beam angle at half-peak intensity.
Beam 158°Optic producing a 158-degree beam angle at half-peak intensity.
Beam 159°Optic producing a 159-degree beam angle at half-peak intensity.
Beam 15°Optic producing a 15-degree beam angle at half-peak intensity.
Beam 160°Optic producing a 160-degree beam angle at half-peak intensity.
Beam 161°Optic producing a 161-degree beam angle at half-peak intensity.
Beam 162°Optic producing a 162-degree beam angle at half-peak intensity.
Beam 163°Optic producing a 163-degree beam angle at half-peak intensity.
Beam 164°Optic producing a 164-degree beam angle at half-peak intensity.
Beam 165°Optic producing a 165-degree beam angle at half-peak intensity.
Beam 166°Optic producing a 166-degree beam angle at half-peak intensity.
Beam 167°Optic producing a 167-degree beam angle at half-peak intensity.
Beam 168°Optic producing a 168-degree beam angle at half-peak intensity.
Beam 169°Optic producing a 169-degree beam angle at half-peak intensity.
Beam 16°Optic producing a 16-degree beam angle at half-peak intensity.
Beam 170°Optic producing a 170-degree beam angle at half-peak intensity.
Beam 171°Optic producing a 171-degree beam angle at half-peak intensity.
Beam 172°Optic producing a 172-degree beam angle at half-peak intensity.
Beam 173°Optic producing a 173-degree beam angle at half-peak intensity.
Beam 174°Optic producing a 174-degree beam angle at half-peak intensity.
Beam 175°Optic producing a 175-degree beam angle at half-peak intensity.
Beam 176°Optic producing a 176-degree beam angle at half-peak intensity.
Beam 177°Optic producing a 177-degree beam angle at half-peak intensity.
Beam 178°Optic producing a 178-degree beam angle at half-peak intensity.
Beam 179°Optic producing a 179-degree beam angle at half-peak intensity.
Beam 17°Optic producing a 17-degree beam angle at half-peak intensity.
Beam 180°Optic producing a 180-degree beam angle at half-peak intensity.
Beam 18°Optic producing a 18-degree beam angle at half-peak intensity.
Beam 19°Optic producing a 19-degree beam angle at half-peak intensity.
Beam 1°Optic producing a 1-degree beam angle at half-peak intensity.
Beam 20°Optic producing a 20-degree beam angle at half-peak intensity.
Beam 21°Optic producing a 21-degree beam angle at half-peak intensity.
Beam 22°Optic producing a 22-degree beam angle at half-peak intensity.
Beam 23°Optic producing a 23-degree beam angle at half-peak intensity.
Beam 24°Optic producing a 24-degree beam angle at half-peak intensity.
Beam 25°Optic producing a 25-degree beam angle at half-peak intensity.
Beam 26°Optic producing a 26-degree beam angle at half-peak intensity.
Beam 27°Optic producing a 27-degree beam angle at half-peak intensity.
Beam 28°Optic producing a 28-degree beam angle at half-peak intensity.
Beam 29°Optic producing a 29-degree beam angle at half-peak intensity.
Beam 2°Optic producing a 2-degree beam angle at half-peak intensity.
Beam 30°Optic producing a 30-degree beam angle at half-peak intensity.
Beam 31°Optic producing a 31-degree beam angle at half-peak intensity.
Beam 32°Optic producing a 32-degree beam angle at half-peak intensity.
Beam 33°Optic producing a 33-degree beam angle at half-peak intensity.
Beam 34°Optic producing a 34-degree beam angle at half-peak intensity.
Beam 35°Optic producing a 35-degree beam angle at half-peak intensity.
Beam 36°Optic producing a 36-degree beam angle at half-peak intensity.
Beam 37°Optic producing a 37-degree beam angle at half-peak intensity.
Beam 38°Optic producing a 38-degree beam angle at half-peak intensity.
Beam 39°Optic producing a 39-degree beam angle at half-peak intensity.
Beam 3°Optic producing a 3-degree beam angle at half-peak intensity.
Beam 40°Optic producing a 40-degree beam angle at half-peak intensity.
Beam 41°Optic producing a 41-degree beam angle at half-peak intensity.
Beam 42°Optic producing a 42-degree beam angle at half-peak intensity.
Beam 43°Optic producing a 43-degree beam angle at half-peak intensity.
Beam 44°Optic producing a 44-degree beam angle at half-peak intensity.
Beam 45°Optic producing a 45-degree beam angle at half-peak intensity.
Beam 46°Optic producing a 46-degree beam angle at half-peak intensity.
Beam 47°Optic producing a 47-degree beam angle at half-peak intensity.
Beam 48°Optic producing a 48-degree beam angle at half-peak intensity.
Beam 49°Optic producing a 49-degree beam angle at half-peak intensity.
Beam 4°Optic producing a 4-degree beam angle at half-peak intensity.
Beam 50°Optic producing a 50-degree beam angle at half-peak intensity.
Beam 51°Optic producing a 51-degree beam angle at half-peak intensity.
Beam 52°Optic producing a 52-degree beam angle at half-peak intensity.
Beam 53°Optic producing a 53-degree beam angle at half-peak intensity.
Beam 54°Optic producing a 54-degree beam angle at half-peak intensity.
Beam 55°Optic producing a 55-degree beam angle at half-peak intensity.
Beam 56°Optic producing a 56-degree beam angle at half-peak intensity.
Beam 57°Optic producing a 57-degree beam angle at half-peak intensity.
Beam 58°Optic producing a 58-degree beam angle at half-peak intensity.
Beam 59°Optic producing a 59-degree beam angle at half-peak intensity.
Beam 5°Optic producing a 5-degree beam angle at half-peak intensity.
Beam 60°Optic producing a 60-degree beam angle at half-peak intensity.
Beam 61°Optic producing a 61-degree beam angle at half-peak intensity.
Beam 62°Optic producing a 62-degree beam angle at half-peak intensity.
Beam 63°Optic producing a 63-degree beam angle at half-peak intensity.
Beam 64°Optic producing a 64-degree beam angle at half-peak intensity.
Beam 65°Optic producing a 65-degree beam angle at half-peak intensity.
Beam 66°Optic producing a 66-degree beam angle at half-peak intensity.
Beam 67°Optic producing a 67-degree beam angle at half-peak intensity.
Beam 68°Optic producing a 68-degree beam angle at half-peak intensity.
Beam 69°Optic producing a 69-degree beam angle at half-peak intensity.
Beam 6°Optic producing a 6-degree beam angle at half-peak intensity.
Beam 70°Optic producing a 70-degree beam angle at half-peak intensity.
Beam 71°Optic producing a 71-degree beam angle at half-peak intensity.
Beam 72°Optic producing a 72-degree beam angle at half-peak intensity.
Beam 73°Optic producing a 73-degree beam angle at half-peak intensity.
Beam 74°Optic producing a 74-degree beam angle at half-peak intensity.
Beam 75°Optic producing a 75-degree beam angle at half-peak intensity.
Beam 76°Optic producing a 76-degree beam angle at half-peak intensity.
Beam 77°Optic producing a 77-degree beam angle at half-peak intensity.
Beam 78°Optic producing a 78-degree beam angle at half-peak intensity.
Beam 79°Optic producing a 79-degree beam angle at half-peak intensity.
Beam 7°Optic producing a 7-degree beam angle at half-peak intensity.
Beam 80°Optic producing a 80-degree beam angle at half-peak intensity.
Beam 81°Optic producing a 81-degree beam angle at half-peak intensity.
Beam 82°Optic producing a 82-degree beam angle at half-peak intensity.
Beam 83°Optic producing a 83-degree beam angle at half-peak intensity.
Beam 84°Optic producing a 84-degree beam angle at half-peak intensity.
Beam 85°Optic producing a 85-degree beam angle at half-peak intensity.
Beam 86°Optic producing a 86-degree beam angle at half-peak intensity.
Beam 87°Optic producing a 87-degree beam angle at half-peak intensity.
Beam 88°Optic producing a 88-degree beam angle at half-peak intensity.
Beam 89°Optic producing a 89-degree beam angle at half-peak intensity.
Beam 8°Optic producing a 8-degree beam angle at half-peak intensity.
Beam 90°Optic producing a 90-degree beam angle at half-peak intensity.
Beam 91°Optic producing a 91-degree beam angle at half-peak intensity.
Beam 92°Optic producing a 92-degree beam angle at half-peak intensity.
Beam 93°Optic producing a 93-degree beam angle at half-peak intensity.
Beam 94°Optic producing a 94-degree beam angle at half-peak intensity.
Beam 95°Optic producing a 95-degree beam angle at half-peak intensity.
Beam 96°Optic producing a 96-degree beam angle at half-peak intensity.
Beam 97°Optic producing a 97-degree beam angle at half-peak intensity.
Beam 98°Optic producing a 98-degree beam angle at half-peak intensity.
Beam 99°Optic producing a 99-degree beam angle at half-peak intensity.
Beam 9°Optic producing a 9-degree beam angle at half-peak intensity.
Beam angleCone of light measured at 50 percent of peak intensity.
Beam angle 100°Luminaire or optic with a 100-degree beam angle at half-peak intensity.
Beam angle 105°Luminaire or optic with a 105-degree beam angle at half-peak intensity.
Beam angle 10°Luminaire or optic with a 10-degree beam angle at half-peak intensity.
Beam angle 110°Luminaire or optic with a 110-degree beam angle at half-peak intensity.
Beam angle 115°Luminaire or optic with a 115-degree beam angle at half-peak intensity.
Beam angle 120°Luminaire or optic with a 120-degree beam angle at half-peak intensity.
Beam angle 125°Luminaire or optic with a 125-degree beam angle at half-peak intensity.
Beam angle 130°Luminaire or optic with a 130-degree beam angle at half-peak intensity.
Beam angle 135°Luminaire or optic with a 135-degree beam angle at half-peak intensity.
Beam angle 140°Luminaire or optic with a 140-degree beam angle at half-peak intensity.
Beam angle 145°Luminaire or optic with a 145-degree beam angle at half-peak intensity.
Beam angle 150°Luminaire or optic with a 150-degree beam angle at half-peak intensity.
Beam angle 155°Luminaire or optic with a 155-degree beam angle at half-peak intensity.
Beam angle 15°Luminaire or optic with a 15-degree beam angle at half-peak intensity.
Beam angle 160°Luminaire or optic with a 160-degree beam angle at half-peak intensity.
Beam angle 165°Luminaire or optic with a 165-degree beam angle at half-peak intensity.
Beam angle 170°Luminaire or optic with a 170-degree beam angle at half-peak intensity.
Beam angle 175°Luminaire or optic with a 175-degree beam angle at half-peak intensity.
Beam angle 180°Luminaire or optic with a 180-degree beam angle at half-peak intensity.
Beam angle 20°Luminaire or optic with a 20-degree beam angle at half-peak intensity.
Beam angle 25°Luminaire or optic with a 25-degree beam angle at half-peak intensity.
Beam angle 30°Luminaire or optic with a 30-degree beam angle at half-peak intensity.
Beam angle 35°Luminaire or optic with a 35-degree beam angle at half-peak intensity.
Beam angle 40°Luminaire or optic with a 40-degree beam angle at half-peak intensity.
Beam angle 45°Luminaire or optic with a 45-degree beam angle at half-peak intensity.
Beam angle 50°Luminaire or optic with a 50-degree beam angle at half-peak intensity.
Beam angle 55°Luminaire or optic with a 55-degree beam angle at half-peak intensity.
Beam angle 5°Luminaire or optic with a 5-degree beam angle at half-peak intensity.
Beam angle 60°Luminaire or optic with a 60-degree beam angle at half-peak intensity.
Beam angle 65°Luminaire or optic with a 65-degree beam angle at half-peak intensity.
Beam angle 70°Luminaire or optic with a 70-degree beam angle at half-peak intensity.
Beam angle 75°Luminaire or optic with a 75-degree beam angle at half-peak intensity.
Beam angle 80°Luminaire or optic with a 80-degree beam angle at half-peak intensity.
Beam angle 85°Luminaire or optic with a 85-degree beam angle at half-peak intensity.
Beam angle 90°Luminaire or optic with a 90-degree beam angle at half-peak intensity.
Beam angle 95°Luminaire or optic with a 95-degree beam angle at half-peak intensity.
Beam patternShape of the illuminated area on a target surface (round, oval, rectangular).
Beam shapingOptical technique modifying the form of the light distribution.
Beam spreadDivergence of the light cone as it travels away from the source.
Bearing capacityMaximum mechanical load a floor-recessed profile cover can withstand.
Bench testLaboratory verification of LED-driver or strip performance before installation.
Bench-top power supplyAdjustable laboratory PSU for testing and prototyping LED circuits.
Bend radius (minimum)Smallest curvature radius a flexible strip can achieve without damage.
Bevel-cut endProfile end cut at a 45° angle for mitre joints in corner installations.
Bi-colour stripStrip with two LED types (e.g. warm and cool white) for tunable-white output.
Bi-directional emissionProfile or luminaire emitting light both upward and downward.
Bi-level sensorOccupancy sensor reducing light to a low level rather than switching off.
Bi-level switchingControl providing two discrete brightness levels (e.g. full and 50 percent).
Bi-pin baseLamp base with two protruding pins (G4, G9, GU5.3, etc.).
Bidirectional communicationTwo-way data exchange between controller and luminaire (DALI, RDM).
Bill of materials (BOM)Complete list of components needed to assemble an LED luminaire.
BinningSorting and grouping LEDs by colour, flux and forward voltage for uniformity.
Binning (chromatic)LED classification based on position in the CIE chromaticity diagram.
Binning (flux)Sorting LEDs into groups of similar luminous output.
Binning (tight / narrow)Rigorous selection within narrow ranges for high-uniformity professional use.
Binning (voltage / Vf)Grouping LEDs by similar forward voltage for strip consistency.
Biological clockInternal timing mechanism in living organisms influenced by light exposure.
Black-body curvePlanckian locus on the CIE diagram representing ideal thermal-emitter colours.
Blanking plateOpaque panel covering an unused module slot in a trunking system.
BLE (Bluetooth Low Energy)Low-power wireless protocol for local LED system control.
Bleed resistorResistor discharging residual capacitor charge preventing LED ghosting when off.
Bleeding (light)Unwanted light leakage from gaps or edges of a profile or luminaire.
Blind-rivet fixingPop-rivet method for attaching profiles to thin sheet-metal surfaces.
Block diagramSimplified schematic showing functional blocks of an LED control system.
Blue (deep)LED at 450–460 nm, used in RGB systems and special applications.
Blue (royal)LED at 440–450 nm, used for horticultural or entertainment lighting.
Blue-light hazardPotential retinal risk from prolonged exposure to intense blue LED radiation.
Bluetooth MeshBLE-based mesh network for distributed LED luminaire control.
Bluetooth SIGStandards organisation governing Bluetooth specifications including mesh lighting.
Board-level thermal simulationFEA modelling of heat flow within an LED PCB assembly.
Board-to-board connectorConnector linking two PCBs together inside a luminaire.
Body (profile)Main structure of the extruded aluminium profile.
Bollard heightStandard mounting height (700-1200 mm) of a pathway bollard luminaire.
Bollard lightOutdoor post-mounted LED luminaire for pathway and landscape illumination.
Bolted jointMechanical connection using bolts, for heavy-duty profile mounting.
Bonding (die attach)Process of fixing the LED die to its substrate inside the package.
Bonding (wire)Fine-wire connections between the LED die and the lead frame inside the package.
Bonding padMetallised area on the LED die for wire-bond attachment.
Boost converterDC-DC converter stepping voltage up, used when LED string Vf exceeds supply.
Borderline flickerFlicker at the threshold of human perception, typically around 60-80 Hz.
Borosilicate glassHeat-resistant glass used in high-temperature luminaire lenses.
Bottom-emitting LED stripStrip mounted face-down to create upward-reflected indirect illumination.
Bounce lightingTechnique reflecting light off a ceiling or wall to create soft indirect illumination.
BracketMetal support for wall or ceiling mounting of LED profiles.
Bracket (adjustable)Mounting support with angular or positional adjustment.
Bracket (L-shape)Right-angle bracket for perpendicular profile-to-surface fixing.
Bracket (U-shape)Cradle bracket supporting a profile from below.
Bracket (yoke)Swivelling bracket enabling angular orientation of projectors.
Bracket offsetHorizontal distance a wall bracket positions the profile away from the wall surface.
Branch circuitElectrical sub-circuit feeding a group of LED luminaires from a distribution board.
Break-before-make switchSwitch that disconnects one circuit before connecting another, preventing shorts.
Breaker 0.5A type BMiniature circuit breaker rated 0.5A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 0.5A type CMiniature circuit breaker rated 0.5A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 0.5A type DMiniature circuit breaker rated 0.5A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 10A type BMiniature circuit breaker rated 10A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 10A type CMiniature circuit breaker rated 10A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 10A type DMiniature circuit breaker rated 10A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 13A type BMiniature circuit breaker rated 13A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 13A type CMiniature circuit breaker rated 13A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 13A type DMiniature circuit breaker rated 13A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 15A type BMiniature circuit breaker rated 15A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 15A type CMiniature circuit breaker rated 15A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 15A type DMiniature circuit breaker rated 15A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 16A type BMiniature circuit breaker rated 16A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 16A type CMiniature circuit breaker rated 16A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 16A type DMiniature circuit breaker rated 16A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 1A type BMiniature circuit breaker rated 1A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 1A type CMiniature circuit breaker rated 1A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 1A type DMiniature circuit breaker rated 1A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 20A type BMiniature circuit breaker rated 20A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 20A type CMiniature circuit breaker rated 20A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 20A type DMiniature circuit breaker rated 20A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 25A type BMiniature circuit breaker rated 25A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 25A type CMiniature circuit breaker rated 25A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 25A type DMiniature circuit breaker rated 25A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 2A type BMiniature circuit breaker rated 2A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 2A type CMiniature circuit breaker rated 2A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 2A type DMiniature circuit breaker rated 2A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 32A type BMiniature circuit breaker rated 32A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 32A type CMiniature circuit breaker rated 32A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 32A type DMiniature circuit breaker rated 32A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 3A type BMiniature circuit breaker rated 3A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 3A type CMiniature circuit breaker rated 3A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 3A type DMiniature circuit breaker rated 3A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 40A type BMiniature circuit breaker rated 40A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 40A type CMiniature circuit breaker rated 40A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 40A type DMiniature circuit breaker rated 40A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 4A type BMiniature circuit breaker rated 4A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 4A type CMiniature circuit breaker rated 4A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 4A type DMiniature circuit breaker rated 4A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 50A type BMiniature circuit breaker rated 50A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 50A type CMiniature circuit breaker rated 50A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 50A type DMiniature circuit breaker rated 50A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 5A type BMiniature circuit breaker rated 5A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 5A type CMiniature circuit breaker rated 5A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 5A type DMiniature circuit breaker rated 5A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 63A type BMiniature circuit breaker rated 63A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 63A type CMiniature circuit breaker rated 63A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 63A type DMiniature circuit breaker rated 63A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 6A type BMiniature circuit breaker rated 6A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 6A type CMiniature circuit breaker rated 6A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 6A type DMiniature circuit breaker rated 6A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 8A type BMiniature circuit breaker rated 8A with type-B trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 8A type CMiniature circuit breaker rated 8A with type-C trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Breaker 8A type DMiniature circuit breaker rated 8A with type-D trip curve. Type B (3-5x) suits resistive LED loads; C (5-10x) handles moderate inrush; D (10-20x) protects high-inrush multi-driver installations.
Bridge rectifierFour-diode circuit converting AC to pulsating DC inside LED drivers.
BrightnessPerceptual term for luminance; the perceived intensity of a surface or source.
Brightness 0%LED output regulated to 0 percent of maximum luminous flux.
Brightness 1%LED output regulated to 1 percent of maximum luminous flux.
Brightness 10%LED output regulated to 10 percent of maximum luminous flux.
Brightness 100%LED output regulated to 100 percent of maximum luminous flux.
Brightness 11%LED output regulated to 11 percent of maximum luminous flux.
Brightness 12%LED output regulated to 12 percent of maximum luminous flux.
Brightness 13%LED output regulated to 13 percent of maximum luminous flux.
Brightness 14%LED output regulated to 14 percent of maximum luminous flux.
Brightness 15%LED output regulated to 15 percent of maximum luminous flux.
Brightness 16%LED output regulated to 16 percent of maximum luminous flux.
Brightness 17%LED output regulated to 17 percent of maximum luminous flux.
Brightness 18%LED output regulated to 18 percent of maximum luminous flux.
Brightness 19%LED output regulated to 19 percent of maximum luminous flux.
Brightness 2%LED output regulated to 2 percent of maximum luminous flux.
Brightness 20%LED output regulated to 20 percent of maximum luminous flux.
Brightness 21%LED output regulated to 21 percent of maximum luminous flux.
Brightness 22%LED output regulated to 22 percent of maximum luminous flux.
Brightness 23%LED output regulated to 23 percent of maximum luminous flux.
Brightness 24%LED output regulated to 24 percent of maximum luminous flux.
Brightness 25%LED output regulated to 25 percent of maximum luminous flux.
Brightness 26%LED output regulated to 26 percent of maximum luminous flux.
Brightness 27%LED output regulated to 27 percent of maximum luminous flux.
Brightness 28%LED output regulated to 28 percent of maximum luminous flux.
Brightness 29%LED output regulated to 29 percent of maximum luminous flux.
Brightness 3%LED output regulated to 3 percent of maximum luminous flux.
Brightness 30%LED output regulated to 30 percent of maximum luminous flux.
Brightness 31%LED output regulated to 31 percent of maximum luminous flux.
Brightness 32%LED output regulated to 32 percent of maximum luminous flux.
Brightness 33%LED output regulated to 33 percent of maximum luminous flux.
Brightness 34%LED output regulated to 34 percent of maximum luminous flux.
Brightness 35%LED output regulated to 35 percent of maximum luminous flux.
Brightness 36%LED output regulated to 36 percent of maximum luminous flux.
Brightness 37%LED output regulated to 37 percent of maximum luminous flux.
Brightness 38%LED output regulated to 38 percent of maximum luminous flux.
Brightness 39%LED output regulated to 39 percent of maximum luminous flux.
Brightness 4%LED output regulated to 4 percent of maximum luminous flux.
Brightness 40%LED output regulated to 40 percent of maximum luminous flux.
Brightness 41%LED output regulated to 41 percent of maximum luminous flux.
Brightness 42%LED output regulated to 42 percent of maximum luminous flux.
Brightness 43%LED output regulated to 43 percent of maximum luminous flux.
Brightness 44%LED output regulated to 44 percent of maximum luminous flux.
Brightness 45%LED output regulated to 45 percent of maximum luminous flux.
Brightness 46%LED output regulated to 46 percent of maximum luminous flux.
Brightness 47%LED output regulated to 47 percent of maximum luminous flux.
Brightness 48%LED output regulated to 48 percent of maximum luminous flux.
Brightness 49%LED output regulated to 49 percent of maximum luminous flux.
Brightness 5%LED output regulated to 5 percent of maximum luminous flux.
Brightness 50%LED output regulated to 50 percent of maximum luminous flux.
Brightness 51%LED output regulated to 51 percent of maximum luminous flux.
Brightness 52%LED output regulated to 52 percent of maximum luminous flux.
Brightness 53%LED output regulated to 53 percent of maximum luminous flux.
Brightness 54%LED output regulated to 54 percent of maximum luminous flux.
Brightness 55%LED output regulated to 55 percent of maximum luminous flux.
Brightness 56%LED output regulated to 56 percent of maximum luminous flux.
Brightness 57%LED output regulated to 57 percent of maximum luminous flux.
Brightness 58%LED output regulated to 58 percent of maximum luminous flux.
Brightness 59%LED output regulated to 59 percent of maximum luminous flux.
Brightness 6%LED output regulated to 6 percent of maximum luminous flux.
Brightness 60%LED output regulated to 60 percent of maximum luminous flux.
Brightness 61%LED output regulated to 61 percent of maximum luminous flux.
Brightness 62%LED output regulated to 62 percent of maximum luminous flux.
Brightness 63%LED output regulated to 63 percent of maximum luminous flux.
Brightness 64%LED output regulated to 64 percent of maximum luminous flux.
Brightness 65%LED output regulated to 65 percent of maximum luminous flux.
Brightness 66%LED output regulated to 66 percent of maximum luminous flux.
Brightness 67%LED output regulated to 67 percent of maximum luminous flux.
Brightness 68%LED output regulated to 68 percent of maximum luminous flux.
Brightness 69%LED output regulated to 69 percent of maximum luminous flux.
Brightness 7%LED output regulated to 7 percent of maximum luminous flux.
Brightness 70%LED output regulated to 70 percent of maximum luminous flux.
Brightness 71%LED output regulated to 71 percent of maximum luminous flux.
Brightness 72%LED output regulated to 72 percent of maximum luminous flux.
Brightness 73%LED output regulated to 73 percent of maximum luminous flux.
Brightness 74%LED output regulated to 74 percent of maximum luminous flux.
Brightness 75%LED output regulated to 75 percent of maximum luminous flux.
Brightness 76%LED output regulated to 76 percent of maximum luminous flux.
Brightness 77%LED output regulated to 77 percent of maximum luminous flux.
Brightness 78%LED output regulated to 78 percent of maximum luminous flux.
Brightness 79%LED output regulated to 79 percent of maximum luminous flux.
Brightness 8%LED output regulated to 8 percent of maximum luminous flux.
Brightness 80%LED output regulated to 80 percent of maximum luminous flux.
Brightness 81%LED output regulated to 81 percent of maximum luminous flux.
Brightness 82%LED output regulated to 82 percent of maximum luminous flux.
Brightness 83%LED output regulated to 83 percent of maximum luminous flux.
Brightness 84%LED output regulated to 84 percent of maximum luminous flux.
Brightness 85%LED output regulated to 85 percent of maximum luminous flux.
Brightness 86%LED output regulated to 86 percent of maximum luminous flux.
Brightness 87%LED output regulated to 87 percent of maximum luminous flux.
Brightness 88%LED output regulated to 88 percent of maximum luminous flux.
Brightness 89%LED output regulated to 89 percent of maximum luminous flux.
Brightness 9%LED output regulated to 9 percent of maximum luminous flux.
Brightness 90%LED output regulated to 90 percent of maximum luminous flux.
Brightness 91%LED output regulated to 91 percent of maximum luminous flux.
Brightness 92%LED output regulated to 92 percent of maximum luminous flux.
Brightness 93%LED output regulated to 93 percent of maximum luminous flux.
Brightness 94%LED output regulated to 94 percent of maximum luminous flux.
Brightness 95%LED output regulated to 95 percent of maximum luminous flux.
Brightness 96%LED output regulated to 96 percent of maximum luminous flux.
Brightness 97%LED output regulated to 97 percent of maximum luminous flux.
Brightness 98%LED output regulated to 98 percent of maximum luminous flux.
Brightness 99%LED output regulated to 99 percent of maximum luminous flux.
Brightness perceptionSubjective human response to luminance, non-linear (Weber-Fechner law).
Broad-spectrum whiteLED with a wide spectral power distribution covering 400-700 nm evenly.
Broadcast (DALI)DALI command sent simultaneously to all devices on the line.
Bronze patina profileAluminium profile finished to resemble naturally aged bronze.
BS 5266British emergency lighting standard.
BS EN 12464-1British adoption of workplace lighting standard.
BTA (Building Technical Automation)Building automation system integrating lighting, HVAC and security.
Buck converterDC-DC converter stepping voltage down, the most common LED driver topology.
Buck-boost converterDC-DC converter that can step voltage up or down for flexible LED strings.
Buffer zoneTransition area between two differently lit zones requiring gradual illuminance change.
Building Information Modelling (BIM)Digital 3D representation of a building including luminaire data.
Building Management System (BMS)Central system monitoring and controlling HVAC, lighting and security.
Bulk capacitorLarge capacitor at the driver input smoothing rectified mains voltage.
Burn-inInitial operating period that stabilises LED performance characteristics.
BUSShared communication line between lighting-control devices (DALI, KNX, DMX).
BUS (DALI)Two-wire communication line dedicated to the DALI protocol.
BUS (KNX)Twisted-pair or IP communication line for the KNX building-automation protocol.
Bus topologyNetwork layout where all devices share a single communication line.
Butt jointTwo profile sections placed end to end with a joining plate or connector.
Bypass (thermal)Alternative heat path when the primary heat sink is insufficient.
Bypass capacitorSmall capacitor placed close to an IC to filter high-frequency noise.

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C

Cable (bipolar)Two-conductor cable for monowhite LED strip power.
Cable (bus)Cable dedicated to data transmission (DALI, KNX, DMX).
Cable (Cat5e / Cat6)Ethernet cable used for Art-Net or sACN DMX-over-IP transport.
Cable (DMX)Shielded 120 Ω cable for DMX512 signal transmission.
Cable (flat / ribbon)Multi-conductor flat cable for compact LED wiring inside furniture.
Cable (fly lead)Factory-soldered cable on a strip for direct connection to the driver.
Cable (LSZH)Low-smoke zero-halogen cable required in public buildings for fire safety.
Cable (multi-core)Cable with multiple conductors for RGB, RGBW or tunable-white strips.
Cable (shielded)Cable with a metal braid protecting the signal from EMI.
Cable (silicone-jacketed)High-temperature-rated cable for use inside enclosed luminaires.
Cable 0.5mm2 at 10A dropApproximate voltage drop of 700.0 mV/m for 0.5 mm2 copper cable at 10A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.5mm2 at 15A dropApproximate voltage drop of 1050.0 mV/m for 0.5 mm2 copper cable at 15A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.5mm2 at 1A dropApproximate voltage drop of 70.0 mV/m for 0.5 mm2 copper cable at 1A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.5mm2 at 20A dropApproximate voltage drop of 1400.0 mV/m for 0.5 mm2 copper cable at 20A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.5mm2 at 2A dropApproximate voltage drop of 140.0 mV/m for 0.5 mm2 copper cable at 2A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.5mm2 at 3A dropApproximate voltage drop of 210.0 mV/m for 0.5 mm2 copper cable at 3A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.5mm2 at 5A dropApproximate voltage drop of 350.0 mV/m for 0.5 mm2 copper cable at 5A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.5mm2 at 8A dropApproximate voltage drop of 560.0 mV/m for 0.5 mm2 copper cable at 8A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.7mm2 at 10A dropApproximate voltage drop of 500.0 mV/m for 0.7 mm2 copper cable at 10A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.7mm2 at 15A dropApproximate voltage drop of 750.0 mV/m for 0.7 mm2 copper cable at 15A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.7mm2 at 1A dropApproximate voltage drop of 50.0 mV/m for 0.7 mm2 copper cable at 1A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.7mm2 at 20A dropApproximate voltage drop of 1000.0 mV/m for 0.7 mm2 copper cable at 20A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.7mm2 at 2A dropApproximate voltage drop of 100.0 mV/m for 0.7 mm2 copper cable at 2A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.7mm2 at 3A dropApproximate voltage drop of 150.0 mV/m for 0.7 mm2 copper cable at 3A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.7mm2 at 5A dropApproximate voltage drop of 250.0 mV/m for 0.7 mm2 copper cable at 5A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 0.7mm2 at 8A dropApproximate voltage drop of 400.0 mV/m for 0.7 mm2 copper cable at 8A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.0mm2 at 10A dropApproximate voltage drop of 350.0 mV/m for 1.0 mm2 copper cable at 10A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.0mm2 at 15A dropApproximate voltage drop of 525.0 mV/m for 1.0 mm2 copper cable at 15A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.0mm2 at 1A dropApproximate voltage drop of 35.0 mV/m for 1.0 mm2 copper cable at 1A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.0mm2 at 20A dropApproximate voltage drop of 700.0 mV/m for 1.0 mm2 copper cable at 20A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.0mm2 at 2A dropApproximate voltage drop of 70.0 mV/m for 1.0 mm2 copper cable at 2A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.0mm2 at 3A dropApproximate voltage drop of 105.0 mV/m for 1.0 mm2 copper cable at 3A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.0mm2 at 5A dropApproximate voltage drop of 175.0 mV/m for 1.0 mm2 copper cable at 5A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.0mm2 at 8A dropApproximate voltage drop of 280.0 mV/m for 1.0 mm2 copper cable at 8A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.5mm2 at 10A dropApproximate voltage drop of 233.3 mV/m for 1.5 mm2 copper cable at 10A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.5mm2 at 15A dropApproximate voltage drop of 350.0 mV/m for 1.5 mm2 copper cable at 15A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.5mm2 at 1A dropApproximate voltage drop of 23.3 mV/m for 1.5 mm2 copper cable at 1A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.5mm2 at 20A dropApproximate voltage drop of 466.7 mV/m for 1.5 mm2 copper cable at 20A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.5mm2 at 2A dropApproximate voltage drop of 46.7 mV/m for 1.5 mm2 copper cable at 2A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.5mm2 at 3A dropApproximate voltage drop of 70.0 mV/m for 1.5 mm2 copper cable at 3A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.5mm2 at 5A dropApproximate voltage drop of 116.7 mV/m for 1.5 mm2 copper cable at 5A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 1.5mm2 at 8A dropApproximate voltage drop of 186.7 mV/m for 1.5 mm2 copper cable at 8A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 2.5mm2 at 10A dropApproximate voltage drop of 140.0 mV/m for 2.5 mm2 copper cable at 10A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 2.5mm2 at 15A dropApproximate voltage drop of 210.0 mV/m for 2.5 mm2 copper cable at 15A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 2.5mm2 at 1A dropApproximate voltage drop of 14.0 mV/m for 2.5 mm2 copper cable at 1A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 2.5mm2 at 20A dropApproximate voltage drop of 280.0 mV/m for 2.5 mm2 copper cable at 20A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 2.5mm2 at 2A dropApproximate voltage drop of 28.0 mV/m for 2.5 mm2 copper cable at 2A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 2.5mm2 at 3A dropApproximate voltage drop of 42.0 mV/m for 2.5 mm2 copper cable at 3A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 2.5mm2 at 5A dropApproximate voltage drop of 70.0 mV/m for 2.5 mm2 copper cable at 5A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 2.5mm2 at 8A dropApproximate voltage drop of 112.0 mV/m for 2.5 mm2 copper cable at 8A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 4.0mm2 at 10A dropApproximate voltage drop of 87.5 mV/m for 4.0 mm2 copper cable at 10A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 4.0mm2 at 15A dropApproximate voltage drop of 131.2 mV/m for 4.0 mm2 copper cable at 15A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 4.0mm2 at 1A dropApproximate voltage drop of 8.8 mV/m for 4.0 mm2 copper cable at 1A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 4.0mm2 at 20A dropApproximate voltage drop of 175.0 mV/m for 4.0 mm2 copper cable at 20A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 4.0mm2 at 2A dropApproximate voltage drop of 17.5 mV/m for 4.0 mm2 copper cable at 2A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 4.0mm2 at 3A dropApproximate voltage drop of 26.3 mV/m for 4.0 mm2 copper cable at 3A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 4.0mm2 at 5A dropApproximate voltage drop of 43.8 mV/m for 4.0 mm2 copper cable at 5A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 4.0mm2 at 8A dropApproximate voltage drop of 70.0 mV/m for 4.0 mm2 copper cable at 8A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 6.0mm2 at 10A dropApproximate voltage drop of 58.3 mV/m for 6.0 mm2 copper cable at 10A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 6.0mm2 at 15A dropApproximate voltage drop of 87.5 mV/m for 6.0 mm2 copper cable at 15A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 6.0mm2 at 1A dropApproximate voltage drop of 5.8 mV/m for 6.0 mm2 copper cable at 1A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 6.0mm2 at 20A dropApproximate voltage drop of 116.7 mV/m for 6.0 mm2 copper cable at 20A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 6.0mm2 at 2A dropApproximate voltage drop of 11.7 mV/m for 6.0 mm2 copper cable at 2A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 6.0mm2 at 3A dropApproximate voltage drop of 17.5 mV/m for 6.0 mm2 copper cable at 3A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 6.0mm2 at 5A dropApproximate voltage drop of 29.2 mV/m for 6.0 mm2 copper cable at 5A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable 6.0mm2 at 8A dropApproximate voltage drop of 46.7 mV/m for 6.0 mm2 copper cable at 8A round-trip. Total drop exceeding 5% of the LED strip operating voltage causes visible brightness reduction at the far end of the run.
Cable cross-section (mm²)Conductor area determining current capacity and voltage drop.
Cable glandThreaded fitting that clamps a cable and maintains the enclosure IP rating.
Cable length (maximum)Longest cable run from driver to strip before voltage drop is excessive.
Cable managementOrganising and routing cables neatly within a profile or installation.
Cable routing channelGroove in the back of a profile for concealed cable management.
Cable strain-relief clipDevice preventing cable tension from reaching solder joints or terminals.
Cable tie (nylon)Plastic fastener for bundling and securing cables.
Cable trayOpen tray supporting power and signal cables above ceilings or in service areas.
CablingComplete set of wires and connections in an LED lighting installation.
Cabling (structured)Organised and standardised cable system for power and data distribution.
CAD (Computer-Aided Design)Software used to draw profile cross-sections and luminaire assemblies.
Cadmium-free LEDLED phosphor formulated without cadmium, complying with RoHS.
Calendar schedulingLighting automation based on day-of-week and date-specific rules.
CalibrationAdjustment of colour, brightness and uniformity to a reference standard.
Calibration (chromatic)Process correcting colour variations among different LEDs or modules.
Calibration (factory)Colour and flux matching performed at the manufacturing stage.
Calibration (on-site)Field adjustment of luminaire output to match the lighting-design intent.
Candela (cd)SI unit of luminous intensity in a specific direction.
Candela distribution curveGraphical plot of luminous intensity versus angle for a luminaire.
Canopy (ceiling)Decorative plate on the ceiling concealing suspension-cable terminations.
CapacitanceAbility of a component or cable to store electric charge, affecting high-frequency signals.
CapacitorElectronic component in drivers for filtering, smoothing and stabilisation.
Capacitor (electrolytic)Polarised capacitor often limiting driver lifespan due to heat sensitivity.
Capacitor (film)Long-life capacitor type preferred in high-reliability LED drivers.
Capacity planningCalculating total driver and circuit-breaker capacity for an LED installation.
Carbon footprint LED luminaireTotal greenhouse-gas emissions from raw-material extraction through manufacturing, transport, operation and disposal, typically 5-25 kg CO2e for a linear LED luminaire over its 15-year service life.
Carbon-neutral manufacturingProduction process offsetting all CO₂ emissions.
Carrier boardIntermediate PCB mounting an LED module to a heat sink.
Carrier frequencyFrequency of the PWM signal driving LED dimming circuits.
Cartridge fuseReplaceable cylindrical fuse protecting an LED circuit from overcurrent.
CasambiWireless Bluetooth-mesh lighting-control ecosystem.
Casambi CBUCasambi Bluetooth Unit, a small module embedded in or connected to a driver.
CascadingDaisy-chaining multiple controllers or drivers on the same signal line.
Catenary suspensionCable strung between two points from which LED luminaires are hung.
CathodeNegative terminal of an LED, connected to the circuit ground.
Cavity ratioGeometric index used in the zonal-cavity method for indoor lighting calculations.
CCT 10000KCorrelated colour temperature of 10000 kelvins.
CCT 1800 KLED emission at 1800 kelvins correlated colour temperature.
CCT 1800KCorrelated colour temperature of 1800 kelvins.
CCT 1850KCorrelated colour temperature of 1850 kelvins.
CCT 1900 KLED emission at 1900 kelvins correlated colour temperature.
CCT 1900KCorrelated colour temperature of 1900 kelvins.
CCT 1950KCorrelated colour temperature of 1950 kelvins.
CCT 2000 KLED emission at 2000 kelvins correlated colour temperature.
CCT 2000KCorrelated colour temperature of 2000 kelvins.
CCT 2050KCorrelated colour temperature of 2050 kelvins.
CCT 2100 KLED emission at 2100 kelvins correlated colour temperature.
CCT 2100KCorrelated colour temperature of 2100 kelvins.
CCT 2150KCorrelated colour temperature of 2150 kelvins.
CCT 2200 KLED emission at 2200 kelvins correlated colour temperature.
CCT 2200KCorrelated colour temperature of 2200 kelvins.
CCT 2250KCorrelated colour temperature of 2250 kelvins.
CCT 2300 KLED emission at 2300 kelvins correlated colour temperature.
CCT 2300KCorrelated colour temperature of 2300 kelvins.
CCT 2350KCorrelated colour temperature of 2350 kelvins.
CCT 2400 KLED emission at 2400 kelvins correlated colour temperature.
CCT 2400KCorrelated colour temperature of 2400 kelvins.
CCT 2450KCorrelated colour temperature of 2450 kelvins.
CCT 2500 KLED emission at 2500 kelvins correlated colour temperature.
CCT 2500KCorrelated colour temperature of 2500 kelvins.
CCT 2550KCorrelated colour temperature of 2550 kelvins.
CCT 2600 KLED emission at 2600 kelvins correlated colour temperature.
CCT 2600KCorrelated colour temperature of 2600 kelvins.
CCT 2650KCorrelated colour temperature of 2650 kelvins.
CCT 2700 KLED emission at 2700 kelvins correlated colour temperature.
CCT 2700KCorrelated colour temperature of 2700 kelvins.
CCT 2750KCorrelated colour temperature of 2750 kelvins.
CCT 2800 KLED emission at 2800 kelvins correlated colour temperature.
CCT 2800KCorrelated colour temperature of 2800 kelvins.
CCT 2850KCorrelated colour temperature of 2850 kelvins.
CCT 2900 KLED emission at 2900 kelvins correlated colour temperature.
CCT 2900KCorrelated colour temperature of 2900 kelvins.
CCT 2950KCorrelated colour temperature of 2950 kelvins.
CCT 3000 KLED emission at 3000 kelvins correlated colour temperature.
CCT 3000KCorrelated colour temperature of 3000 kelvins.
CCT 3050KCorrelated colour temperature of 3050 kelvins.
CCT 3100 KLED emission at 3100 kelvins correlated colour temperature.
CCT 3100KCorrelated colour temperature of 3100 kelvins.
CCT 3150KCorrelated colour temperature of 3150 kelvins.
CCT 3200 KLED emission at 3200 kelvins correlated colour temperature.
CCT 3200KCorrelated colour temperature of 3200 kelvins.
CCT 3250KCorrelated colour temperature of 3250 kelvins.
CCT 3300 KLED emission at 3300 kelvins correlated colour temperature.
CCT 3300KCorrelated colour temperature of 3300 kelvins.
CCT 3350KCorrelated colour temperature of 3350 kelvins.
CCT 3400 KLED emission at 3400 kelvins correlated colour temperature.
CCT 3400KCorrelated colour temperature of 3400 kelvins.
CCT 3450KCorrelated colour temperature of 3450 kelvins.
CCT 3500 KLED emission at 3500 kelvins correlated colour temperature.
CCT 3500KCorrelated colour temperature of 3500 kelvins.
CCT 3550KCorrelated colour temperature of 3550 kelvins.
CCT 3600 KLED emission at 3600 kelvins correlated colour temperature.
CCT 3600KCorrelated colour temperature of 3600 kelvins.
CCT 3650KCorrelated colour temperature of 3650 kelvins.
CCT 3700 KLED emission at 3700 kelvins correlated colour temperature.
CCT 3700KCorrelated colour temperature of 3700 kelvins.
CCT 3750KCorrelated colour temperature of 3750 kelvins.
CCT 3800 KLED emission at 3800 kelvins correlated colour temperature.
CCT 3800KCorrelated colour temperature of 3800 kelvins.
CCT 3850KCorrelated colour temperature of 3850 kelvins.
CCT 3900 KLED emission at 3900 kelvins correlated colour temperature.
CCT 3900KCorrelated colour temperature of 3900 kelvins.
CCT 3950KCorrelated colour temperature of 3950 kelvins.
CCT 4000 KLED emission at 4000 kelvins correlated colour temperature.
CCT 4000KCorrelated colour temperature of 4000 kelvins.
CCT 4050KCorrelated colour temperature of 4050 kelvins.
CCT 4100 KLED emission at 4100 kelvins correlated colour temperature.
CCT 4100KCorrelated colour temperature of 4100 kelvins.
CCT 4150KCorrelated colour temperature of 4150 kelvins.
CCT 4200 KLED emission at 4200 kelvins correlated colour temperature.
CCT 4200KCorrelated colour temperature of 4200 kelvins.
CCT 4250KCorrelated colour temperature of 4250 kelvins.
CCT 4300 KLED emission at 4300 kelvins correlated colour temperature.
CCT 4300KCorrelated colour temperature of 4300 kelvins.
CCT 4350KCorrelated colour temperature of 4350 kelvins.
CCT 4400 KLED emission at 4400 kelvins correlated colour temperature.
CCT 4400KCorrelated colour temperature of 4400 kelvins.
CCT 4450KCorrelated colour temperature of 4450 kelvins.
CCT 4500 KLED emission at 4500 kelvins correlated colour temperature.
CCT 4500KCorrelated colour temperature of 4500 kelvins.
CCT 4550KCorrelated colour temperature of 4550 kelvins.
CCT 4600 KLED emission at 4600 kelvins correlated colour temperature.
CCT 4600KCorrelated colour temperature of 4600 kelvins.
CCT 4650KCorrelated colour temperature of 4650 kelvins.
CCT 4700 KLED emission at 4700 kelvins correlated colour temperature.
CCT 4700KCorrelated colour temperature of 4700 kelvins.
CCT 4750KCorrelated colour temperature of 4750 kelvins.
CCT 4800 KLED emission at 4800 kelvins correlated colour temperature.
CCT 4800KCorrelated colour temperature of 4800 kelvins.
CCT 4850KCorrelated colour temperature of 4850 kelvins.
CCT 4900 KLED emission at 4900 kelvins correlated colour temperature.
CCT 4900KCorrelated colour temperature of 4900 kelvins.
CCT 4950KCorrelated colour temperature of 4950 kelvins.
CCT 5000 KLED emission at 5000 kelvins correlated colour temperature.
CCT 5000KCorrelated colour temperature of 5000 kelvins.
CCT 5050KCorrelated colour temperature of 5050 kelvins.
CCT 5100 KLED emission at 5100 kelvins correlated colour temperature.
CCT 5100KCorrelated colour temperature of 5100 kelvins.
CCT 5150KCorrelated colour temperature of 5150 kelvins.
CCT 5200 KLED emission at 5200 kelvins correlated colour temperature.
CCT 5200KCorrelated colour temperature of 5200 kelvins.
CCT 5250KCorrelated colour temperature of 5250 kelvins.
CCT 5300 KLED emission at 5300 kelvins correlated colour temperature.
CCT 5300KCorrelated colour temperature of 5300 kelvins.
CCT 5350KCorrelated colour temperature of 5350 kelvins.
CCT 5400 KLED emission at 5400 kelvins correlated colour temperature.
CCT 5400KCorrelated colour temperature of 5400 kelvins.
CCT 5450KCorrelated colour temperature of 5450 kelvins.
CCT 5500 KLED emission at 5500 kelvins correlated colour temperature.
CCT 5500KCorrelated colour temperature of 5500 kelvins.
CCT 5550KCorrelated colour temperature of 5550 kelvins.
CCT 5600 KLED emission at 5600 kelvins correlated colour temperature.
CCT 5600KCorrelated colour temperature of 5600 kelvins.
CCT 5650KCorrelated colour temperature of 5650 kelvins.
CCT 5700 KLED emission at 5700 kelvins correlated colour temperature.
CCT 5700KCorrelated colour temperature of 5700 kelvins.
CCT 5750KCorrelated colour temperature of 5750 kelvins.
CCT 5800 KLED emission at 5800 kelvins correlated colour temperature.
CCT 5800KCorrelated colour temperature of 5800 kelvins.
CCT 5850KCorrelated colour temperature of 5850 kelvins.
CCT 5900 KLED emission at 5900 kelvins correlated colour temperature.
CCT 5900KCorrelated colour temperature of 5900 kelvins.
CCT 5950KCorrelated colour temperature of 5950 kelvins.
CCT 6000 KLED emission at 6000 kelvins correlated colour temperature.
CCT 6000KCorrelated colour temperature of 6000 kelvins.
CCT 6050KCorrelated colour temperature of 6050 kelvins.
CCT 6100 KLED emission at 6100 kelvins correlated colour temperature.
CCT 6100KCorrelated colour temperature of 6100 kelvins.
CCT 6150KCorrelated colour temperature of 6150 kelvins.
CCT 6200 KLED emission at 6200 kelvins correlated colour temperature.
CCT 6200KCorrelated colour temperature of 6200 kelvins.
CCT 6250KCorrelated colour temperature of 6250 kelvins.
CCT 6300 KLED emission at 6300 kelvins correlated colour temperature.
CCT 6300KCorrelated colour temperature of 6300 kelvins.
CCT 6350KCorrelated colour temperature of 6350 kelvins.
CCT 6400 KLED emission at 6400 kelvins correlated colour temperature.
CCT 6400KCorrelated colour temperature of 6400 kelvins.
CCT 6450KCorrelated colour temperature of 6450 kelvins.
CCT 6500 KLED emission at 6500 kelvins correlated colour temperature.
CCT 6500KCorrelated colour temperature of 6500 kelvins.
CCT 6550KCorrelated colour temperature of 6550 kelvins.
CCT 6600 KLED emission at 6600 kelvins correlated colour temperature.
CCT 6600KCorrelated colour temperature of 6600 kelvins.
CCT 6650KCorrelated colour temperature of 6650 kelvins.
CCT 6700 KLED emission at 6700 kelvins correlated colour temperature.
CCT 6700KCorrelated colour temperature of 6700 kelvins.
CCT 6750KCorrelated colour temperature of 6750 kelvins.
CCT 6800 KLED emission at 6800 kelvins correlated colour temperature.
CCT 6800KCorrelated colour temperature of 6800 kelvins.
CCT 6850KCorrelated colour temperature of 6850 kelvins.
CCT 6900 KLED emission at 6900 kelvins correlated colour temperature.
CCT 6900KCorrelated colour temperature of 6900 kelvins.
CCT 6950KCorrelated colour temperature of 6950 kelvins.
CCT 7000 KLED emission at 7000 kelvins correlated colour temperature.
CCT 7000KCorrelated colour temperature of 7000 kelvins.
CCT 7050KCorrelated colour temperature of 7050 kelvins.
CCT 7100KCorrelated colour temperature of 7100 kelvins.
CCT 7150KCorrelated colour temperature of 7150 kelvins.
CCT 7200KCorrelated colour temperature of 7200 kelvins.
CCT 7250KCorrelated colour temperature of 7250 kelvins.
CCT 7300KCorrelated colour temperature of 7300 kelvins.
CCT 7350KCorrelated colour temperature of 7350 kelvins.
CCT 7400KCorrelated colour temperature of 7400 kelvins.
CCT 7450KCorrelated colour temperature of 7450 kelvins.
CCT 7500KCorrelated colour temperature of 7500 kelvins.
CCT 7550KCorrelated colour temperature of 7550 kelvins.
CCT 7600KCorrelated colour temperature of 7600 kelvins.
CCT 7650KCorrelated colour temperature of 7650 kelvins.
CCT 7700KCorrelated colour temperature of 7700 kelvins.
CCT 7750KCorrelated colour temperature of 7750 kelvins.
CCT 7800KCorrelated colour temperature of 7800 kelvins.
CCT 7850KCorrelated colour temperature of 7850 kelvins.
CCT 7900KCorrelated colour temperature of 7900 kelvins.
CCT 7950KCorrelated colour temperature of 7950 kelvins.
CCT 8000KCorrelated colour temperature of 8000 kelvins.
CCT 8050KCorrelated colour temperature of 8050 kelvins.
CCT 8100KCorrelated colour temperature of 8100 kelvins.
CCT 8150KCorrelated colour temperature of 8150 kelvins.
CCT 8200KCorrelated colour temperature of 8200 kelvins.
CCT 8250KCorrelated colour temperature of 8250 kelvins.
CCT 8300KCorrelated colour temperature of 8300 kelvins.
CCT 8350KCorrelated colour temperature of 8350 kelvins.
CCT 8400KCorrelated colour temperature of 8400 kelvins.
CCT 8450KCorrelated colour temperature of 8450 kelvins.
CCT 8500KCorrelated colour temperature of 8500 kelvins.
CCT 8550KCorrelated colour temperature of 8550 kelvins.
CCT 8600KCorrelated colour temperature of 8600 kelvins.
CCT 8650KCorrelated colour temperature of 8650 kelvins.
CCT 8700KCorrelated colour temperature of 8700 kelvins.
CCT 8750KCorrelated colour temperature of 8750 kelvins.
CCT 8800KCorrelated colour temperature of 8800 kelvins.
CCT 8850KCorrelated colour temperature of 8850 kelvins.
CCT 8900KCorrelated colour temperature of 8900 kelvins.
CCT 8950KCorrelated colour temperature of 8950 kelvins.
CCT 9000KCorrelated colour temperature of 9000 kelvins.
CCT 9050KCorrelated colour temperature of 9050 kelvins.
CCT 9100KCorrelated colour temperature of 9100 kelvins.
CCT 9150KCorrelated colour temperature of 9150 kelvins.
CCT 9200KCorrelated colour temperature of 9200 kelvins.
CCT 9250KCorrelated colour temperature of 9250 kelvins.
CCT 9300KCorrelated colour temperature of 9300 kelvins.
CCT 9350KCorrelated colour temperature of 9350 kelvins.
CCT 9400KCorrelated colour temperature of 9400 kelvins.
CCT 9450KCorrelated colour temperature of 9450 kelvins.
CCT 9500KCorrelated colour temperature of 9500 kelvins.
CCT 9550KCorrelated colour temperature of 9550 kelvins.
CCT 9600KCorrelated colour temperature of 9600 kelvins.
CCT 9650KCorrelated colour temperature of 9650 kelvins.
CCT 9700KCorrelated colour temperature of 9700 kelvins.
CCT 9750KCorrelated colour temperature of 9750 kelvins.
CCT 9800KCorrelated colour temperature of 9800 kelvins.
CCT 9850KCorrelated colour temperature of 9850 kelvins.
CCT 9900KCorrelated colour temperature of 9900 kelvins.
CCT 9950KCorrelated colour temperature of 9950 kelvins.
CE markingDeclaration of conformity with applicable European directives.
Ceiling grid (T-bar)Suspended ceiling framework into which modular LED panels are inserted.
Ceiling recessInstallation where the profile is embedded flush within a ceiling surface.
Ceiling roseDecorative plate on the ceiling concealing the electrical connection of a pendant.
Ceiling void depthAvailable space above the ceiling surface for recessed profiles and wiring.
CEN (European Committee for Standardisation)Body developing EN standards for lighting.
Centralised system (emergency)Emergency lighting powered from a central battery room.
Centre-feed injectionPower supplied at the middle of a strip run for uniform brightness.
Certificate of conformityDocument attesting that a product meets specified standards.
Certification (CB)International mutual-recognition scheme for electrical product safety testing.
Certification (CSA)Canadian Standards Association safety mark for electrical products.
Certification (DLC)DesignLights Consortium listing qualifying LED products for utility rebates.
Certification (ENEC)European safety mark for luminaires recognised across the EU.
Certification (ETL)North American safety mark, alternative to UL listing.
Certification (IP)Ingress-protection rating against solids and liquids.
Certification (UL)Underwriters Laboratories safety listing for electrical products.
Chain-link suspensionHeavy-duty chain for hanging industrial LED high-bay luminaires.
Chamfered edgeBevelled edge on a profile reducing sharp corners for safety and aesthetics.
Change-over switchSwitch transferring power between normal mains and emergency supply.
ChannelGroove in an aluminium profile housing the LED strip and cover.
Channel (angle / corner 45°)Profile with a 45-degree cross-section for corner illumination.
Channel (architectural)Design profile for aesthetic integration in high-end architecture.
Channel (circular)Round cross-section profile for decorative suspended applications.
Channel (crown moulding)Profile shaped to integrate into or replace traditional ceiling cornices.
Channel (custom / bespoke)Profile manufactured to a client’s unique design specifications.
Channel (decorative)Profile with an aesthetic design that becomes a visible interior element.
Channel (double)Profile with two independent strip housings for direct and indirect light.
Channel (drywall / plasterboard)Profile with wings for recessing into plasterboard.
Channel (elliptical)Oval cross-section profile for elegant suspended installations.
Channel (external / outdoor)Profile with an adequate IP rating for outdoor use.
Channel (flexible)Bendable silicone or plastic profile for non-linear paths.
Channel (floor recessed)Reinforced profile for flush floor mounting with a walkable cover.
Channel (furniture / cabinet)Slim profile for integration into cabinetry and shelving.
Channel (glass-slot)Profile with a groove for inserting and illuminating glass panels.
Channel (handrail)Profile integrated into a staircase or balustrade handrail.
Channel (LED)Generic term for an aluminium extrusion housing an LED strip.
Channel (magnetic)Profile with an integrated magnetic rail for modular LED inserts.
Channel (mini / slim)Ultra-compact profile for discreet, space-constrained installations.
Channel (pendant / suspended)Profile designed to hang from the ceiling via cables or rods.
Channel (perimeter)Profile installed along ceiling or wall edges for indirect light.
Channel (rectangular)Rectangular cross-section profile, versatile for many applications.
Channel (showcase / vitrine)Compact profile for illuminating display cases and vitrines.
Channel (skirting / baseboard)Profile integrated into the base of a wall for floor-level light.
Channel (square)Square cross-section profile for exposed or suspended runs.
Channel (stair / step)Profile for embedding in stair nosings for safety marking.
Channel (surface-mounted)Profile applied directly onto a surface without recessing.
Channel (tile-in)Profile for recessing into tiled surfaces such as bathrooms or kitchens.
Channel (triangular)Triangular cross-section for corner installations.
Channel (trunking)Large-section linear profile forming a continuous lighting system.
Channel (U-shape)U-shaped cross-section, the most common type for LED strips.
Channel (wall / vertical)Profile for vertical mounting, wall-wash or step-marker applications.
Channel (watertight / sealed)Profile with IP65–IP68 hermetic sealing for wet environments.
Characteristic impedanceNominal cable impedance, 120 Ω for DMX or 100 Ω for Ethernet.
Chip (LED)Semiconductor die generating light through electroluminescence.
Chip Scale Package (CSP)Miniaturised LED whose package is nearly die-size.
Chip-on-Board (COB)Multiple LED dies mounted directly on a substrate without individual packages.
Chip-on-Flex (COF)LED dies on a flexible substrate for high-density strips.
Chromatic adaptationEye’s ability to adjust colour perception when ambient illumination changes.
Chromatic shiftChange in LED colour over time from phosphor or die degradation.
ChromaticityObjective colour specification independent of luminance.
Chromaticity binDefined colour-coordinate region for sorting LEDs into uniform groups.
Chromaticity toleranceMaximum allowed colour variation among LEDs in an installation (SDCM steps).
CIECommission Internationale de l’Éclairage; international lighting-standards body.
CIE 013.3Colour rendering measurement method.
CIE 015Colorimetry.
CIE 117Discomfort glare in interiors.
CIE 150Guide on obtrusive light limitation.
CIE 1931Standard observer colour-matching functions defining the x, y chromaticity diagram.
CIE 1976 (u’, v’)Uniform chromaticity diagram where equal distances better represent perceived colour differences.
CIE 224Colour fidelity index.
CIE S 025LED test procedures.
Circadian lightingLighting tuned to support the human circadian rhythm, a form of HCL.
Circadian stimulus (CS)Metric quantifying the effectiveness of a light source at suppressing melatonin.
Circadian stimulus factorNumerical value indicating a source effectiveness at melatonin suppression.
circadian tuning techniqueDynamically adjusting LED colour temperature and intensity throughout the day to support occupant wellbeing: cool energising light in the morning, warm relaxing light in the evening.
Circuit (constant-current)Topology maintaining a fixed current through the LED string.
Circuit (open)Break in an electrical path preventing current flow.
Circuit (parallel)Configuration where multiple strips share the same supply voltage.
Circuit (protection)Electronics protecting LEDs from overvoltage, overcurrent and short circuits.
Circuit (series)Configuration where LEDs are powered sequentially by the same current.
Circuit (short)Unintended low-resistance path causing excessive current flow.
Circuit breakerResettable device interrupting current during an overload.
Circuit breaker (MCB)Miniature circuit breaker used in distribution boards protecting LED circuits.
Circuit breaker (RCBO)Combined RCD and MCB protecting against both earth leakage and overcurrent.
Circuit segregationKeeping LED power and control cables separate from mains wiring.
Circular economy lightingDesign philosophy keeping luminaire materials in productive use through repair, module replacement, refurbishment and end-of-life recycling rather than landfill disposal.
CladdingOuter layer of an optical fibre with lower refractive index enabling total internal reflection.
Cladding (profile)Decorative outer shell that slides over an aluminium profile to change its appearance.
Clamp (beam)Structural clamp for mounting luminaires on truss or beams.
Clamp (cable)Mechanical device securing cables to a surface or inside a profile.
Class ILuminaire with basic insulation and a protective earth connection.
Class IILuminaire with double or reinforced insulation, no earth needed.
Class IIILuminaire powered at safety extra-low voltage (SELV).
Clean-room compatibilityLuminaire designed for ISO 14644 clean-room classes with sealed housings.
Clean-room lightingLED luminaires with sealed housings suitable for ISO-classified clean rooms.
Click-fit coverDiffuser that snaps into the profile channel without tools.
Climate zone considerationAdjusting luminaire IP and material specifications for local weather conditions.
Clip (metal)Stainless-steel or zinc-plated fixing clip for LED profiles.
Clip (mounting spring)Elastic clip that snaps into the profile seat for quick installation.
Clip (plastic)Non-conductive plastic fixing element, economical and lightweight.
Clip (profile end)Small retainer holding the cover in place at the profile end.
Clip-in trunking moduleInterchangeable LED module that clicks into a trunking rail.
Clock (astronomical)Timer that calculates sunrise and sunset to automate exterior lighting.
Closed-loop dimmingDimming with photosensor feedback maintaining a constant target lux.
Cloud commissioningConfiguring luminaire addresses and scenes via a cloud-based dashboard.
Cloud-based controlLighting management via internet-connected cloud servers.
CMOS sensorImage sensor used in some smart luminaires for occupancy analytics.
Coastal-grade finishEnhanced corrosion-resistant surface treatment for salt-spray environments.
Coating (conformal)Thin protective film applied to a PCB to resist moisture and contaminants.
Coating (powder)Electrostatically applied dry paint cured by heat, the standard aluminium finish.
Coaxial cable (DMX)75 Ω coaxial cable sometimes misused for DMX; 120 Ω twisted-pair is correct.
COB stripChip-on-Board strip producing a continuous dot-free line of light.
Coefficient (reflection)Ratio of reflected flux to incident flux on a surface.
Coefficient (thermal / temperature)Percentage change in a parameter per degree of temperature.
Coefficient (transmission)Ratio of transmitted to incident light through a cover.
Coefficient (uniformity)Ratio of minimum to average illuminance on a surface.
Coefficient (utilisation)Ratio of useful flux on the work plane to total luminaire flux.
Coefficient of performance (CoP)Ratio of useful light output to total system input, analogous to efficacy.
Coefficient of thermal expansion (CTE)Rate at which a material expands per degree of temperature rise.
Cold cathodeGas-discharge tube technology largely replaced by LED neon flex.
ColourPerceptual light property determined by the dominant wavelength.
Colour (amber)Warm amber LED emission around 590 nm.
Colour (cyan)Blue-green LED emission around 500 nm.
Colour (lime)Yellow-green LED emission used in high-CRI RGBA systems.
Colour (magenta)Red-blue LED mix produced by combining red and blue channels.
Colour (tunable)System capable of changing its output colour dynamically.
Colour bin toleranceAcceptable chromaticity variation within a single LED production bin.
Colour calibration targetReference colour point (e.g. D50, D65) to which luminaires are calibrated.
Colour changeoverRapid switch from one colour to another in an RGB or RGBW system.
Colour consistencyUniformity of colour across all LEDs in a batch or installation.
Colour fidelity (Rf)TM-30 metric quantifying how faithfully a source renders all 99 test colours.
Colour gamutRange of colours reproducible by an LED system, plotted in the CIE diagram.
Colour gamut (Rg)TM-30 metric showing overall saturation increase or decrease versus reference.
Colour integrityMaintenance of consistent colour output throughout the luminaire lifetime.
Colour matchingProcess of selecting LEDs with identical chromaticity for uniform installations.
Colour mixingBlending multiple LED colours to achieve a desired composite hue.
Colour mixing (additive)Combining red, green and blue light to create other colours.
Colour mixing (subtractive)Filtering white light with coloured filters, not typical in LED but used with gels.
Colour paletteDesigner-selected set of LED colours or CCTs for a project.
Colour pointSpecific x, y chromaticity coordinate of an LED’s emission.
Colour preferenceTendency of viewers to prefer colours that are slightly more saturated than reality.
Colour prescriptive specificationProject spec defining exact chromaticity coordinates for the supplied LEDs.
Colour quality scale (CQS)NIST-developed metric for evaluating LED colour quality.
Colour recallController function restoring the last-used colour setting after a power cycle.
Colour renderingAbility of a source to reproduce colours faithfully; measured by CRI or TM-30.
Colour Rendering Index (CRI)Scale from 0 to 100 measuring colour fidelity; 90+ for professional use.
Colour sequenceProgrammed order of colours in a dynamic LED scene.
Colour shiftUndesirable change in emitted colour over time or with temperature.
Colour stabilityConstancy of emitted colour throughout the LED’s operating life.
Colour temperatureTemperature in kelvins of a black body emitting light of equivalent hue.
Colour temperature (correlated / CCT)Kelvin value approximating the hue of a non-incandescent source.
Colour temperature 1800 KLED light output at a correlated colour temperature of 1800 kelvins.
Colour temperature 2000 KLED light output at a correlated colour temperature of 2000 kelvins.
Colour temperature 2200 KLED light output at a correlated colour temperature of 2200 kelvins.
Colour temperature 2400 KLED light output at a correlated colour temperature of 2400 kelvins.
Colour temperature 2500 KLED light output at a correlated colour temperature of 2500 kelvins.
Colour temperature 2700 KLED light output at a correlated colour temperature of 2700 kelvins.
Colour temperature 2800 KLED light output at a correlated colour temperature of 2800 kelvins.
Colour temperature 3000 KLED light output at a correlated colour temperature of 3000 kelvins.
Colour temperature 3200 KLED light output at a correlated colour temperature of 3200 kelvins.
Colour temperature 3500 KLED light output at a correlated colour temperature of 3500 kelvins.
Colour temperature 4000 KLED light output at a correlated colour temperature of 4000 kelvins.
Colour temperature 4500 KLED light output at a correlated colour temperature of 4500 kelvins.
Colour temperature 5000 KLED light output at a correlated colour temperature of 5000 kelvins.
Colour temperature 5500 KLED light output at a correlated colour temperature of 5500 kelvins.
Colour temperature 5700 KLED light output at a correlated colour temperature of 5700 kelvins.
Colour temperature 6000 KLED light output at a correlated colour temperature of 6000 kelvins.
Colour temperature 6500 KLED light output at a correlated colour temperature of 6500 kelvins.
Colour temperature 7000 KLED light output at a correlated colour temperature of 7000 kelvins.
Colour temperature 8000 KLED light output at a correlated colour temperature of 8000 kelvins.
Colour temperature rangeSpan between the warmest and coolest CCT a tunable-white system can produce.
Colour tuningDynamic adjustment of hue or CCT using multi-channel LED controllers.
Colour uniformity (angular)Consistency of colour as the viewing angle changes.
Colour uniformity (spatial)Consistency of colour across the emitting surface of a luminaire.
Colour vectorTM-30 arrow showing hue and saturation shift for a given colour bin.
Colour wheelCircular arrangement of hues used as a reference for colour-mixing design.
Colour zoningDividing an installation into areas with different CCTs or colours.
column uplight techniqueGround-level LED spotlights wash structural or decorative columns with upward light, emphasising verticality and the materiality of stone, concrete or timber columns.
Combination emergency luminaireUnit operating as both normal and emergency lighting.
Comfort (visual)Condition free of fatigue, glare or visual discomfort.
Comfort temperature limitMaximum Tc at which the luminaire still operates within warranty conditions.
Command signalDigital or analogue instruction from a controller to a driver or luminaire.
CommissioningConfiguring, testing and verifying a completed lighting installation.
Commissioning (DALI)Assigning addresses, groups and scenes to DALI devices during setup.
Common-anodeLED strip wiring where all LED positive terminals share a single wire.
Common-cathodeLED strip wiring where all LED negative terminals share a single wire.
Compact fluorescent lamp (CFL)Energy-saving lamp now largely superseded by LED technology.
Compact linear profileShort-length profile (300-600 mm) for furniture and display applications.
Compatibility (dimmer)Verified interoperability between an LED driver and a specific dimmer type.
Compatibility (electromagnetic / EMC)Ability of a device to function without causing or suffering interference.
Compatibility chartManufacturer table listing tested dimmer-driver combinations.
Compliance (regulatory)Meeting all applicable standards, directives and local codes.
Compliance plateData label on a luminaire showing certifications, ratings and serial number.
Component (optic)Lens, reflector, diffuser or prism modifying the light distribution.
Component deratingOperating a component below its maximum rating for extended reliability.
Compound parabolic concentrator (CPC)Non-imaging optic for efficient light collection.
Concealed driverDriver hidden inside a profile, ceiling void or furniture cavity.
CondensationMoisture formation on cold surfaces, a risk for non-sealed luminaires.
Conductivity (electrical)Ability of a material to conduct electric current, measured in S/m.
Conductivity (thermal)Ability of a material to conduct heat, measured in W/(m·K).
ConductorLow-resistivity material (copper, aluminium) carrying electric current.
ConduitDuct for orderly routing of power and signal cables.
Conduit (flexible)Corrugated tube allowing cables to follow curved paths.
Conduit (rigid)Fixed tube for straight cable runs, usually PVC or steel.
Conduit sizingSelecting conduit diameter to accommodate the required number of LED cables.
Cone (light)Three-dimensional shape of the beam emitted by a luminaire.
Configuration softwareApplication for setting driver parameters, DALI addresses or pixel maps.
Conformal coatingThin protective film on a PCB resisting moisture, dust and chemicals.
Conformity (declaration of)Manufacturer’s formal statement that a product meets directive requirements.
Connected lightingLED luminaires integrated into a network for monitoring and control.
Connection diagramDrawing showing how LED strips, drivers and controllers are wired.
ConnectorComponent for quick electrical joining of cables, strips and power supplies.
Connector (2-pin 10mm)Solderless 2-pin 10mm connector for LED strip installations.
Connector (2-pin 12mm)Solderless 2-pin 12mm connector for LED strip installations.
Connector (2-pin 8mm)Solderless 2-pin 8mm connector for LED strip installations.
Connector (4-pin 10mm)Solderless 4-pin 10mm connector for LED strip installations.
Connector (4-pin 12mm)Solderless 4-pin 12mm connector for LED strip installations.
Connector (4-pin 8mm)Solderless 4-pin 8mm connector for LED strip installations.
Connector (5-pin 10mm)Solderless 5-pin 10mm connector for LED strip installations.
Connector (5-pin 12mm)Solderless 5-pin 12mm connector for LED strip installations.
Connector (6-pin 12mm)Solderless 6-pin 12mm connector for LED strip installations.
Connector (6-pin 14mm)Solderless 6-pin 14mm connector for LED strip installations.
Connector (90-degree angle)Element for a right-angle direction change in a strip.
Connector (barrel / DC jack)Cylindrical power connector commonly used on LED drivers.
Connector (barrel DC 5.5×2.1mm)Solderless barrel DC 5.5×2.1mm connector for LED strip installations.
Connector (barrel DC 5.5×2.5mm)Solderless barrel DC 5.5×2.5mm connector for LED strip installations.
Connector (board-to-board)Connector linking two PCBs inside a luminaire or module.
Connector (crimp)Terminal fixed to a cable by mechanical pressing.
Connector (DIN)Circular multi-pin connector used in some European control systems.
Connector (flexible jumper 2-pin 15cm)Solderless flexible jumper 2-pin 15cm connector for LED strip installations.
Connector (flexible jumper 2-pin 5cm)Solderless flexible jumper 2-pin 5cm connector for LED strip installations.
Connector (flexible jumper 4-pin 15cm)Solderless flexible jumper 4-pin 15cm connector for LED strip installations.
Connector (flexible jumper 5-pin 15cm)Solderless flexible jumper 5-pin 15cm connector for LED strip installations.
Connector (flexible jumper 6-pin 15cm)Solderless flexible jumper 6-pin 15cm connector for LED strip installations.
Connector (hippo 2-pin 10mm)Solderless hippo 2-pin 10mm connector for LED strip installations.
Connector (hippo 2-pin 8mm)Solderless hippo 2-pin 8mm connector for LED strip installations.
Connector (hippo 4-pin 10mm)Solderless hippo 4-pin 10mm connector for LED strip installations.
Connector (hippo 5-pin 12mm)Solderless hippo 5-pin 12mm connector for LED strip installations.
Connector (IP67 2-pin screw)Solderless IP67 2-pin screw connector for LED strip installations.
Connector (IP67 4-pin screw)Solderless IP67 4-pin screw connector for LED strip installations.
Connector (IP67 5-pin screw)Solderless IP67 5-pin screw connector for LED strip installations.
Connector (IP67 waterproof)Sealed connector for junctions in wet or outdoor environments.
Connector (IP68 2-pin potted)Solderless IP68 2-pin potted connector for LED strip installations.
Connector (IP68 4-pin potted)Solderless IP68 4-pin potted connector for LED strip installations.
Connector (JST)Small pitch-locked connector popular in LED module wiring.
Connector (L-shape 2-pin 10mm)Solderless L-shape 2-pin 10mm connector for LED strip installations.
Connector (L-shape 2-pin 8mm)Solderless L-shape 2-pin 8mm connector for LED strip installations.
Connector (L-shape 4-pin 10mm)Solderless L-shape 4-pin 10mm connector for LED strip installations.
Connector (L-shape 5-pin 12mm)Solderless L-shape 5-pin 12mm connector for LED strip installations.
Connector (micro JST 2-pin)Solderless micro JST 2-pin connector for LED strip installations.
Connector (micro JST 4-pin)Solderless micro JST 4-pin connector for LED strip installations.
Connector (micro JST 6-pin)Solderless micro JST 6-pin connector for LED strip installations.
Connector (Molex)Industry-standard connector for internal LED luminaire wiring.
Connector (pigtail 2-wire 15cm)Solderless pigtail 2-wire 15cm connector for LED strip installations.
Connector (pigtail 2-wire 30cm)Solderless pigtail 2-wire 30cm connector for LED strip installations.
Connector (pigtail 4-wire 15cm)Solderless pigtail 4-wire 15cm connector for LED strip installations.
Connector (pigtail 4-wire 30cm)Solderless pigtail 4-wire 30cm connector for LED strip installations.
Connector (pigtail 5-wire 15cm)Solderless pigtail 5-wire 15cm connector for LED strip installations.
Connector (pigtail 5-wire 30cm)Solderless pigtail 5-wire 30cm connector for LED strip installations.
Connector (pigtail 6-wire 15cm)Solderless pigtail 6-wire 15cm connector for LED strip installations.
Connector (push-in)Tool-free connector locking the wire on insertion.
Connector (quick / solderless)Snap-in or push-in system for joining strips without soldering.
Connector (RJ45)Ethernet jack for Art-Net and sACN DMX-over-IP transport.
Connector (screw terminal)Terminal block with clamping screws for secure, removable connections.
Connector (strip-to-strip 10mm)Solderless strip-to-strip 10mm connector for LED strip installations.
Connector (strip-to-strip 12mm)Solderless strip-to-strip 12mm connector for LED strip installations.
Connector (strip-to-strip 8mm)Solderless strip-to-strip 8mm connector for LED strip installations.
Connector (strip-to-strip)Element joining two strip segments without soldering.
Connector (strip-to-wire 15cm 2-pin)Solderless strip-to-wire 15cm 2-pin connector for LED strip installations.
Connector (strip-to-wire 30cm 4-pin)Solderless strip-to-wire 30cm 4-pin connector for LED strip installations.
Connector (strip-to-wire 50cm 5-pin)Solderless strip-to-wire 50cm 5-pin connector for LED strip installations.
Connector (strip-to-wire)Element joining a strip to a power-supply cable.
Connector (T-junction)Three-way junction for branching a strip or power line.
Connector (T-shape 2-pin 10mm)Solderless T-shape 2-pin 10mm connector for LED strip installations.
Connector (T-shape 4-pin 10mm)Solderless T-shape 4-pin 10mm connector for LED strip installations.
Connector (T-shape 5-pin 12mm)Solderless T-shape 5-pin 12mm connector for LED strip installations.
Connector (WAGO)Universal spring-clamp connector for fast reliable wiring.
Connector (waterproof — Y-splitter)Sealed Y-shaped cable splitter for outdoor LED wiring.
Connector (X-shape 4-pin 10mm)Solderless X-shape 4-pin 10mm connector for LED strip installations.
Connector (X-shape 5-pin 12mm)Solderless X-shape 5-pin 12mm connector for LED strip installations.
Connector (XLR 3-pin)Professional connector for DMX512 signal, three-pin variant.
Connector (XLR 5-pin)Professional connector for DMX512 signal, five-pin variant.
Connector (Y-splitter 2-pin IP67)Solderless Y-splitter 2-pin IP67 connector for LED strip installations.
Connector (Y-splitter 4-pin IP67)Solderless Y-splitter 4-pin IP67 connector for LED strip installations.
Constant current (CC)Power-supply mode maintaining fixed output current regardless of load.
Constant voltage (CV)Power-supply mode delivering a fixed output voltage.
Constant-current driverDriver that regulates current through the LED, varying voltage as needed.
Constant-current stripStrip with on-board regulators ensuring uniform brightness over long runs.
Constant-lumen output (CLO)Driver mode compensating for lumen depreciation by increasing current over time.
Constant-voltage driverDriver delivering a fixed voltage (12 V, 24 V, 48 V) while the strip regulates current via resistors.
Construction detail drawingArchitectural section showing how an LED profile integrates into the building fabric.
Continuous dimmingSmooth, stepless brightness adjustment from 0 to 100 percent.
Continuous manufacturingReel-to-reel production of LED strips for consistent quality over long runs.
ContrastRatio between maximum and minimum luminance in a scene.
Contrast ratioNumerical expression of the luminance difference between the brightest and darkest areas.
Contrast ratio (visual task)Luminance difference between the task object and its immediate background.
Control (closed-loop)Dimming system using sensor feedback to maintain a target lux level.
Control (daylight-linked)Automatic dimming in response to changes in natural light levels.
Control (open-loop)Dimming system without feedback; the controller sends a fixed command.
Control (scene)Pre-set brightness, colour and distribution creating a specific ambiance.
Control bus wiringDedicated cable connecting controllers, sensors and actuators on a bus protocol.
Control cabinetEnclosure housing all lighting-control electronics in a centralised installation.
Control gearGeneric term for LED driver or associated electronic control equipment.
Control topologyArchitecture of the lighting-control network (star, bus, mesh, hybrid).
ControllerElectronic device managing colour, intensity and effects of LED strips.
Controller (4-zone)Multi-zone controller managing four independent lighting areas.
Controller (DALI)Master device managing up to 64 luminaires on a DALI bus.
Controller (DMX)Console or device generating DMX512 signals for luminaire control.
Controller (DMX-RDM)DMX controller supporting the RDM bidirectional management extension.
Controller (gesture)Controller activated by hand gestures detected by an infrared sensor.
Controller (KNX)Controller integrated into the KNX building-automation bus.
Controller (Matter)Controller using the Matter smart-home protocol for interoperability.
Controller (multi-zone)Device managing several independent lighting zones.
Controller (pixel)Device for individual control of each LED in an addressable system.
Controller (PLC)Programmable logic controller for industrial LED-lighting automation.
Controller (programmable)Device with scene memories and timelines for automatic sequences.
Controller (push-button interface)Module translating physical button presses into DALI or KNX commands.
Controller (RF)Radio-frequency remote and receiver for wireless LED control.
Controller (RGB)Three-channel controller for mixing red, green and blue.
Controller (RGBW)Four-channel controller for RGB plus a dedicated white channel.
Controller (RGBWW)Five-channel controller for RGB, warm white and cool white.
Controller (rotary knob)Simple wall controller with a rotating dial for dimming.
Controller (scene panel)Wall-mounted panel with preset scene buttons.
Controller (Thread)Controller using the Thread IP mesh protocol for smart lighting.
Controller (touch panel)Wall unit with a tactile interface for lighting management.
Controller (tunable white)Device dynamically adjusting white colour temperature.
Controller (USB-DMX)PC interface converting USB data to DMX512 for software control.
Controller (voice)System accepting voice commands (Alexa, Google, Siri) for LED control.
Controller (Wi-Fi)Network-connected device for remote control via app or voice assistant.
Controller (Zigbee)Zigbee-based device for mesh smart-lighting networks.
ConvectionHeat transfer through air movement, the primary passive-cooling mechanism.
Convection (forced)Heat removal accelerated by a fan or blower.
Convection (natural)Heat removal relying solely on buoyancy-driven air currents.
Conversion (phosphor)Process in which phosphors convert blue LED light into white.
Conversion efficiencyPercentage of electrical power converted to visible light by the LED.
Converter (AC-DC)Mains-to-DC power supply for LED systems.
Converter (DC-DC)Device changing one DC voltage level to another for LEDs.
Converter (frequency)Device altering AC frequency, occasionally used in industrial LED systems.
Cool beamLuminaire beam with minimal infrared content, safe for heat-sensitive objects.
Cool WhiteColour temperature above 5 000 K, a bright and vivid light tone.
Cooling finProtruding rib on a profile increasing the heat-dissipating surface area.
Coordinates (chromaticity x, y)Values in the CIE diagram uniquely identifying a colour.
Coordinates (u’, v’)Values in the CIE 1976 uniform chromaticity diagram.
Copper pourLarge copper area on a PCB aiding heat dissipation under high-power LEDs.
Copper slugSolid copper insert inside a PCB under high-power LEDs for enhanced heat conduction.
Cord gripClamping device in a pendant rose preventing cable pull-out.
Corner mitre joint45° angled joint at the meeting of two profile lengths forming a right angle.
Cornice lightingIndirect illumination concealed within an architectural cornice or cove.
CorrosionMetal degradation through oxidation, prevented by anodising or coating.
Corrosion (galvanic)Electrochemical corrosion when dissimilar metals are in contact with moisture.
Corrosion resistanceAbility of a material or finish to withstand environmental degradation.
Cosine correctionOptical adjustment in lux meters to accurately measure off-axis illuminance.
Cost of ownership (total / TCO)Sum of purchase, installation, energy, maintenance and disposal costs.
Cost-per-lumenEconomic metric comparing LED products by dividing price by lumen output.
Counter-reflectorSecondary reflector redirecting light that would otherwise be wasted.
Counter-sunk screwFlat-head screw sitting flush with the profile surface.
Cove lightingIndirect illumination from a concealed ledge or recess.
cove uplighting techniqueLED strip concealed in a ceiling cove bounces light off the ceiling surface, producing soft indirect ambient illumination without visible hardware, a hallmark of high-end architectural interiors.
CoverTransparent or opal element closing a profile and diffusing the light.
Cover (calpestable / walkable)Reinforced cover rated for pedestrian loads on floor profiles.
Cover (click-in / snap-in)Cover that clips into profile channels without screws.
Cover (flat)Cover with a planar surface, standard for U-shaped profiles.
Cover (frost)Cover with an iced finish for diffusion and LED-dot reduction.
Cover (glass)Tempered or laminated glass cover for outdoor or harsh environments.
Cover (lenticular)Cover with micro-lenses for directional beam control.
Cover (micro-prismatic)Cover with micro-prisms for controlled distribution and anti-glare.
Cover (opal)Milky-white cover uniformly diffusing light, hiding individual LEDs.
Cover (polycarbonate)PC cover, more impact-resistant than PMMA, slight yellowing risk.
Cover (prismatic)Cover with moulded prisms for directional control and reduced glare.
Cover (round / domed)Convex cover widening the emission angle.
Cover (semi-transparent)Cover with intermediate transmittance between clear and opal.
Cover (silicone)Flexible cover for bendable profiles or special applications.
Cover (transparent / clear)Clear cover with maximum transmittance above 90 percent.
Cradle bracketU-shaped bracket supporting a profile from below for surface mounting.
Crest factorRatio of peak to RMS current in a driver, relevant for capacitor stress.
CRI (extended / Re)CRI calculated over 14 test colour samples rather than 8.
CRI 65+LED source with a Colour Rendering Index of 65 or above.
CRI 70+LED source with a Colour Rendering Index of 70 or above.
CRI 75+LED source with a Colour Rendering Index of 75 or above.
CRI 80+LED source with a Colour Rendering Index of 80 or above.
CRI 83+LED source with a Colour Rendering Index of 83 or above.
CRI 85+LED source with a Colour Rendering Index of 85 or above.
CRI 87+LED source with a Colour Rendering Index of 87 or above.
CRI 90+LED source with a Colour Rendering Index of 90 or above.
CRI 92+LED source with a Colour Rendering Index of 92 or above.
CRI 93+LED source with a Colour Rendering Index of 93 or above.
CRI 95+LED source with a Colour Rendering Index of 95 or above.
CRI 97+LED source with a Colour Rendering Index of 97 or above.
CRI 98+LED source with a Colour Rendering Index of 98 or above.
CRI 99+LED source with a Colour Rendering Index of 99 or above.
CRI R9Sub-index for saturated red, critical for skin tones, textiles and food.
CRI RaGeneral CRI calculated as the average of R1–R8 test colour samples.
Crimp toolHand or hydraulic tool for attaching crimp terminals to cables.
Cross-sectionTransverse view of a profile showing internal geometry and dimensions.
Cross-talk (signal)Unwanted interference between adjacent control cables or channels.
Curing (UV)Hardening of adhesives or coatings under ultraviolet light.
Curing timeDuration required for adhesive, potting or coating to fully harden.
Current (direct / forward / IF)Current flowing through the LED under forward bias.
Current (inrush)Peak switch-on current in switching supplies, requiring adequate fusing.
Current (leakage)Small unwanted current flowing through insulation, relevant for dimmer compatibility.
Current (operating)Nominal amperage at which the LED operates under specified conditions.
Current (peak)Maximum instantaneous current the LED can withstand.
Current (reverse)Leakage current flowing when the LED is reverse-biased.
Current balancingTechnique ensuring equal current through parallel LED strings.
Current sharingMultiple drivers or channels sharing the total load current equally.
Custom colour matchManufacturing a profile finish to match a designer-specified colour sample.
Custom extrusionProfile made from a new die to a client-specific cross-section design.
Custom lengthProfile or strip cut to a non-standard length as specified by the project.
Custom opticLens or reflector designed specifically for a bespoke luminaire.
Cut interval 100 mmLED strip can be cut every 100 mm at designated solder pads.
Cut interval 125 mmLED strip can be cut every 125 mm at designated solder pads.
Cut interval 15 mmLED strip can be cut every 15 mm at designated solder pads.
Cut interval 150 mmLED strip can be cut every 150 mm at designated solder pads.
Cut interval 166 mmLED strip can be cut every 166 mm at designated solder pads.
Cut interval 17 mmLED strip can be cut every 17 mm at designated solder pads.
Cut interval 20 mmLED strip can be cut every 20 mm at designated solder pads.
Cut interval 200 mmLED strip can be cut every 200 mm at designated solder pads.
Cut interval 25 mmLED strip can be cut every 25 mm at designated solder pads.
Cut interval 250 mmLED strip can be cut every 250 mm at designated solder pads.
Cut interval 30 mmLED strip can be cut every 30 mm at designated solder pads.
Cut interval 33 mmLED strip can be cut every 33 mm at designated solder pads.
Cut interval 333 mmLED strip can be cut every 333 mm at designated solder pads.
Cut interval 35 mmLED strip can be cut every 35 mm at designated solder pads.
Cut interval 40 mmLED strip can be cut every 40 mm at designated solder pads.
Cut interval 50 mmLED strip can be cut every 50 mm at designated solder pads.
Cut interval 500 mmLED strip can be cut every 500 mm at designated solder pads.
Cut interval 55 mmLED strip can be cut every 55 mm at designated solder pads.
Cut interval 62 mmLED strip can be cut every 62 mm at designated solder pads.
Cut interval 67 mmLED strip can be cut every 67 mm at designated solder pads.
Cut interval 83 mmLED strip can be cut every 83 mm at designated solder pads.
Cut length (minimum)Shortest permissible segment when cutting a strip at its cut marks.
Cut length 0.050 mLED profile or strip cut to 0.050 metres.
Cut length 0.075 mLED profile or strip cut to 0.075 metres.
Cut length 0.100 mLED profile or strip cut to 0.100 metres.
Cut length 0.125 mLED profile or strip cut to 0.125 metres.
Cut length 0.150 mLED profile or strip cut to 0.150 metres.
Cut length 0.175 mLED profile or strip cut to 0.175 metres.
Cut length 0.200 mLED profile or strip cut to 0.200 metres.
Cut length 0.225 mLED profile or strip cut to 0.225 metres.
Cut length 0.250 mLED profile or strip cut to 0.250 metres.
Cut length 0.275 mLED profile or strip cut to 0.275 metres.
Cut length 0.300 mLED profile or strip cut to 0.300 metres.
Cut length 0.325 mLED profile or strip cut to 0.325 metres.
Cut length 0.350 mLED profile or strip cut to 0.350 metres.
Cut length 0.375 mLED profile or strip cut to 0.375 metres.
Cut length 0.400 mLED profile or strip cut to 0.400 metres.
Cut length 0.425 mLED profile or strip cut to 0.425 metres.
Cut length 0.450 mLED profile or strip cut to 0.450 metres.
Cut length 0.475 mLED profile or strip cut to 0.475 metres.
Cut length 0.500 mLED profile or strip cut to 0.500 metres.
Cut length 0.525 mLED profile or strip cut to 0.525 metres.
Cut length 0.550 mLED profile or strip cut to 0.550 metres.
Cut length 0.575 mLED profile or strip cut to 0.575 metres.
Cut length 0.600 mLED profile or strip cut to 0.600 metres.
Cut length 0.625 mLED profile or strip cut to 0.625 metres.
Cut length 0.650 mLED profile or strip cut to 0.650 metres.
Cut length 0.675 mLED profile or strip cut to 0.675 metres.
Cut length 0.700 mLED profile or strip cut to 0.700 metres.
Cut length 0.725 mLED profile or strip cut to 0.725 metres.
Cut length 0.750 mLED profile or strip cut to 0.750 metres.
Cut length 0.775 mLED profile or strip cut to 0.775 metres.
Cut length 0.800 mLED profile or strip cut to 0.800 metres.
Cut length 0.825 mLED profile or strip cut to 0.825 metres.
Cut length 0.850 mLED profile or strip cut to 0.850 metres.
Cut length 0.875 mLED profile or strip cut to 0.875 metres.
Cut length 0.900 mLED profile or strip cut to 0.900 metres.
Cut length 0.925 mLED profile or strip cut to 0.925 metres.
Cut length 0.950 mLED profile or strip cut to 0.950 metres.
Cut length 0.975 mLED profile or strip cut to 0.975 metres.
Cut length 1.000 mLED profile or strip cut to 1.000 metres.
Cut length 1.025 mLED profile or strip cut to 1.025 metres.
Cut length 1.050 mLED profile or strip cut to 1.050 metres.
Cut length 1.075 mLED profile or strip cut to 1.075 metres.
Cut length 1.100 mLED profile or strip cut to 1.100 metres.
Cut length 1.125 mLED profile or strip cut to 1.125 metres.
Cut length 1.150 mLED profile or strip cut to 1.150 metres.
Cut length 1.175 mLED profile or strip cut to 1.175 metres.
Cut length 1.200 mLED profile or strip cut to 1.200 metres.
Cut length 1.225 mLED profile or strip cut to 1.225 metres.
Cut length 1.250 mLED profile or strip cut to 1.250 metres.
Cut length 1.275 mLED profile or strip cut to 1.275 metres.
Cut length 1.300 mLED profile or strip cut to 1.300 metres.
Cut length 1.325 mLED profile or strip cut to 1.325 metres.
Cut length 1.350 mLED profile or strip cut to 1.350 metres.
Cut length 1.375 mLED profile or strip cut to 1.375 metres.
Cut length 1.400 mLED profile or strip cut to 1.400 metres.
Cut length 1.425 mLED profile or strip cut to 1.425 metres.
Cut length 1.450 mLED profile or strip cut to 1.450 metres.
Cut length 1.475 mLED profile or strip cut to 1.475 metres.
Cut length 1.500 mLED profile or strip cut to 1.500 metres.
Cut length 1.525 mLED profile or strip cut to 1.525 metres.
Cut length 1.550 mLED profile or strip cut to 1.550 metres.
Cut length 1.575 mLED profile or strip cut to 1.575 metres.
Cut length 1.600 mLED profile or strip cut to 1.600 metres.
Cut length 1.625 mLED profile or strip cut to 1.625 metres.
Cut length 1.650 mLED profile or strip cut to 1.650 metres.
Cut length 1.675 mLED profile or strip cut to 1.675 metres.
Cut length 1.700 mLED profile or strip cut to 1.700 metres.
Cut length 1.725 mLED profile or strip cut to 1.725 metres.
Cut length 1.750 mLED profile or strip cut to 1.750 metres.
Cut length 1.775 mLED profile or strip cut to 1.775 metres.
Cut length 1.800 mLED profile or strip cut to 1.800 metres.
Cut length 1.825 mLED profile or strip cut to 1.825 metres.
Cut length 1.850 mLED profile or strip cut to 1.850 metres.
Cut length 1.875 mLED profile or strip cut to 1.875 metres.
Cut length 1.900 mLED profile or strip cut to 1.900 metres.
Cut length 1.925 mLED profile or strip cut to 1.925 metres.
Cut length 1.950 mLED profile or strip cut to 1.950 metres.
Cut length 1.975 mLED profile or strip cut to 1.975 metres.
Cut length 2.000 mLED profile or strip cut to 2.000 metres.
Cut length 2.025 mLED profile or strip cut to 2.025 metres.
Cut length 2.050 mLED profile or strip cut to 2.050 metres.
Cut length 2.075 mLED profile or strip cut to 2.075 metres.
Cut length 2.100 mLED profile or strip cut to 2.100 metres.
Cut length 2.125 mLED profile or strip cut to 2.125 metres.
Cut length 2.150 mLED profile or strip cut to 2.150 metres.
Cut length 2.175 mLED profile or strip cut to 2.175 metres.
Cut length 2.200 mLED profile or strip cut to 2.200 metres.
Cut length 2.225 mLED profile or strip cut to 2.225 metres.
Cut length 2.250 mLED profile or strip cut to 2.250 metres.
Cut length 2.275 mLED profile or strip cut to 2.275 metres.
Cut length 2.300 mLED profile or strip cut to 2.300 metres.
Cut length 2.325 mLED profile or strip cut to 2.325 metres.
Cut length 2.350 mLED profile or strip cut to 2.350 metres.
Cut length 2.375 mLED profile or strip cut to 2.375 metres.
Cut length 2.400 mLED profile or strip cut to 2.400 metres.
Cut length 2.425 mLED profile or strip cut to 2.425 metres.
Cut length 2.450 mLED profile or strip cut to 2.450 metres.
Cut length 2.475 mLED profile or strip cut to 2.475 metres.
Cut length 2.500 mLED profile or strip cut to 2.500 metres.
Cut length 2.525 mLED profile or strip cut to 2.525 metres.
Cut length 2.550 mLED profile or strip cut to 2.550 metres.
Cut length 2.575 mLED profile or strip cut to 2.575 metres.
Cut length 2.600 mLED profile or strip cut to 2.600 metres.
Cut length 2.625 mLED profile or strip cut to 2.625 metres.
Cut length 2.650 mLED profile or strip cut to 2.650 metres.
Cut length 2.675 mLED profile or strip cut to 2.675 metres.
Cut length 2.700 mLED profile or strip cut to 2.700 metres.
Cut length 2.725 mLED profile or strip cut to 2.725 metres.
Cut length 2.750 mLED profile or strip cut to 2.750 metres.
Cut length 2.775 mLED profile or strip cut to 2.775 metres.
Cut length 2.800 mLED profile or strip cut to 2.800 metres.
Cut length 2.825 mLED profile or strip cut to 2.825 metres.
Cut length 2.850 mLED profile or strip cut to 2.850 metres.
Cut length 2.875 mLED profile or strip cut to 2.875 metres.
Cut length 2.900 mLED profile or strip cut to 2.900 metres.
Cut length 2.925 mLED profile or strip cut to 2.925 metres.
Cut length 2.950 mLED profile or strip cut to 2.950 metres.
Cut length 2.975 mLED profile or strip cut to 2.975 metres.
Cut length 3.000 mLED profile or strip cut to 3.000 metres.
Cut length 3.025 mLED profile or strip cut to 3.025 metres.
Cut length 3.050 mLED profile or strip cut to 3.050 metres.
Cut length 3.075 mLED profile or strip cut to 3.075 metres.
Cut length 3.100 mLED profile or strip cut to 3.100 metres.
Cut length 3.125 mLED profile or strip cut to 3.125 metres.
Cut length 3.150 mLED profile or strip cut to 3.150 metres.
Cut length 3.175 mLED profile or strip cut to 3.175 metres.
Cut length 3.200 mLED profile or strip cut to 3.200 metres.
Cut length 3.225 mLED profile or strip cut to 3.225 metres.
Cut length 3.250 mLED profile or strip cut to 3.250 metres.
Cut length 3.275 mLED profile or strip cut to 3.275 metres.
Cut length 3.300 mLED profile or strip cut to 3.300 metres.
Cut length 3.325 mLED profile or strip cut to 3.325 metres.
Cut length 3.350 mLED profile or strip cut to 3.350 metres.
Cut length 3.375 mLED profile or strip cut to 3.375 metres.
Cut length 3.400 mLED profile or strip cut to 3.400 metres.
Cut length 3.425 mLED profile or strip cut to 3.425 metres.
Cut length 3.450 mLED profile or strip cut to 3.450 metres.
Cut length 3.475 mLED profile or strip cut to 3.475 metres.
Cut length 3.500 mLED profile or strip cut to 3.500 metres.
Cut length 3.525 mLED profile or strip cut to 3.525 metres.
Cut length 3.550 mLED profile or strip cut to 3.550 metres.
Cut length 3.575 mLED profile or strip cut to 3.575 metres.
Cut length 3.600 mLED profile or strip cut to 3.600 metres.
Cut length 3.625 mLED profile or strip cut to 3.625 metres.
Cut length 3.650 mLED profile or strip cut to 3.650 metres.
Cut length 3.675 mLED profile or strip cut to 3.675 metres.
Cut length 3.700 mLED profile or strip cut to 3.700 metres.
Cut length 3.725 mLED profile or strip cut to 3.725 metres.
Cut length 3.750 mLED profile or strip cut to 3.750 metres.
Cut length 3.775 mLED profile or strip cut to 3.775 metres.
Cut length 3.800 mLED profile or strip cut to 3.800 metres.
Cut length 3.825 mLED profile or strip cut to 3.825 metres.
Cut length 3.850 mLED profile or strip cut to 3.850 metres.
Cut length 3.875 mLED profile or strip cut to 3.875 metres.
Cut length 3.900 mLED profile or strip cut to 3.900 metres.
Cut length 3.925 mLED profile or strip cut to 3.925 metres.
Cut length 3.950 mLED profile or strip cut to 3.950 metres.
Cut length 3.975 mLED profile or strip cut to 3.975 metres.
Cut length 4.000 mLED profile or strip cut to 4.000 metres.
Cut length 4.025 mLED profile or strip cut to 4.025 metres.
Cut length 4.050 mLED profile or strip cut to 4.050 metres.
Cut length 4.075 mLED profile or strip cut to 4.075 metres.
Cut length 4.100 mLED profile or strip cut to 4.100 metres.
Cut length 4.125 mLED profile or strip cut to 4.125 metres.
Cut length 4.150 mLED profile or strip cut to 4.150 metres.
Cut length 4.175 mLED profile or strip cut to 4.175 metres.
Cut length 4.200 mLED profile or strip cut to 4.200 metres.
Cut length 4.225 mLED profile or strip cut to 4.225 metres.
Cut length 4.250 mLED profile or strip cut to 4.250 metres.
Cut length 4.275 mLED profile or strip cut to 4.275 metres.
Cut length 4.300 mLED profile or strip cut to 4.300 metres.
Cut length 4.325 mLED profile or strip cut to 4.325 metres.
Cut length 4.350 mLED profile or strip cut to 4.350 metres.
Cut length 4.375 mLED profile or strip cut to 4.375 metres.
Cut length 4.400 mLED profile or strip cut to 4.400 metres.
Cut length 4.425 mLED profile or strip cut to 4.425 metres.
Cut length 4.450 mLED profile or strip cut to 4.450 metres.
Cut length 4.475 mLED profile or strip cut to 4.475 metres.
Cut length 4.500 mLED profile or strip cut to 4.500 metres.
Cut length 4.525 mLED profile or strip cut to 4.525 metres.
Cut length 4.550 mLED profile or strip cut to 4.550 metres.
Cut length 4.575 mLED profile or strip cut to 4.575 metres.
Cut length 4.600 mLED profile or strip cut to 4.600 metres.
Cut length 4.625 mLED profile or strip cut to 4.625 metres.
Cut length 4.650 mLED profile or strip cut to 4.650 metres.
Cut length 4.675 mLED profile or strip cut to 4.675 metres.
Cut length 4.700 mLED profile or strip cut to 4.700 metres.
Cut length 4.725 mLED profile or strip cut to 4.725 metres.
Cut length 4.750 mLED profile or strip cut to 4.750 metres.
Cut length 4.775 mLED profile or strip cut to 4.775 metres.
Cut length 4.800 mLED profile or strip cut to 4.800 metres.
Cut length 4.825 mLED profile or strip cut to 4.825 metres.
Cut length 4.850 mLED profile or strip cut to 4.850 metres.
Cut length 4.875 mLED profile or strip cut to 4.875 metres.
Cut length 4.900 mLED profile or strip cut to 4.900 metres.
Cut length 4.925 mLED profile or strip cut to 4.925 metres.
Cut length 4.950 mLED profile or strip cut to 4.950 metres.
Cut length 4.975 mLED profile or strip cut to 4.975 metres.
Cut length 5.000 mLED profile or strip cut to 5.000 metres.
Cut length 5.025 mLED profile or strip cut to 5.025 metres.
Cut length 5.050 mLED profile or strip cut to 5.050 metres.
Cut length 5.075 mLED profile or strip cut to 5.075 metres.
Cut length 5.100 mLED profile or strip cut to 5.100 metres.
Cut length 5.125 mLED profile or strip cut to 5.125 metres.
Cut length 5.150 mLED profile or strip cut to 5.150 metres.
Cut length 5.175 mLED profile or strip cut to 5.175 metres.
Cut length 5.200 mLED profile or strip cut to 5.200 metres.
Cut length 5.225 mLED profile or strip cut to 5.225 metres.
Cut length 5.250 mLED profile or strip cut to 5.250 metres.
Cut length 5.275 mLED profile or strip cut to 5.275 metres.
Cut length 5.300 mLED profile or strip cut to 5.300 metres.
Cut length 5.325 mLED profile or strip cut to 5.325 metres.
Cut length 5.350 mLED profile or strip cut to 5.350 metres.
Cut length 5.375 mLED profile or strip cut to 5.375 metres.
Cut length 5.400 mLED profile or strip cut to 5.400 metres.
Cut length 5.425 mLED profile or strip cut to 5.425 metres.
Cut length 5.450 mLED profile or strip cut to 5.450 metres.
Cut length 5.475 mLED profile or strip cut to 5.475 metres.
Cut length 5.500 mLED profile or strip cut to 5.500 metres.
Cut length 5.525 mLED profile or strip cut to 5.525 metres.
Cut length 5.550 mLED profile or strip cut to 5.550 metres.
Cut length 5.575 mLED profile or strip cut to 5.575 metres.
Cut length 5.600 mLED profile or strip cut to 5.600 metres.
Cut length 5.625 mLED profile or strip cut to 5.625 metres.
Cut length 5.650 mLED profile or strip cut to 5.650 metres.
Cut length 5.675 mLED profile or strip cut to 5.675 metres.
Cut length 5.700 mLED profile or strip cut to 5.700 metres.
Cut length 5.725 mLED profile or strip cut to 5.725 metres.
Cut length 5.750 mLED profile or strip cut to 5.750 metres.
Cut length 5.775 mLED profile or strip cut to 5.775 metres.
Cut length 5.800 mLED profile or strip cut to 5.800 metres.
Cut length 5.825 mLED profile or strip cut to 5.825 metres.
Cut length 5.850 mLED profile or strip cut to 5.850 metres.
Cut length 5.875 mLED profile or strip cut to 5.875 metres.
Cut length 5.900 mLED profile or strip cut to 5.900 metres.
Cut length 5.925 mLED profile or strip cut to 5.925 metres.
Cut length 5.950 mLED profile or strip cut to 5.950 metres.
Cut length 5.975 mLED profile or strip cut to 5.975 metres.
Cut length 6.000 mLED profile or strip cut to 6.000 metres.
Cut markPrinted indication on a strip identifying permitted cutting points.
Cut-off angleAngle beyond which the source is hidden from the observer.
Cut-to-length serviceFactory or distributor service cutting profiles and strips to order.
Cycle (on/off)One complete switch-on then switch-off sequence, relevant for lifetime testing.
Cycle life (battery)Number of charge-discharge cycles an emergency battery can sustain.
Cylindrical illuminance (Ez)Average illuminance on a vertical cylinder, indicating 3D visual comfort.

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D

DALI (Digital Addressable Lighting Interface)Standard digital protocol for bidirectional luminaire control.
DALI 2Enhanced DALI protocol with extended features and certified interoperability.
DALI broadcastCommand sent simultaneously to all devices on the DALI bus.
DALI bus couplerDevice isolating DALI bus segments for fault protection.
DALI commissioning toolHandheld or software-based device for addressing and configuring DALI luminaires.
DALI DT6Device Type 6 profile for single-channel LED drivers.
DALI DT8Device Type 8 profile for colour control (tunable white, RGB, XY).
DALI emergency (DT1)Device Type 1 profile for emergency-lighting control via DALI.
DALI gatewayInterface connecting DALI to KNX, BACnet, Modbus or IP networks.
DALI groupLogical grouping of DALI luminaires for simultaneous control.
DALI masterDevice initiating commands on the DALI bus.
DALI multi-masterDALI configuration supporting more than one master on the same bus.
DALI power supplyDedicated PSU for the bus line, typically 16 V DC at 250 mA.
DALI sceneStored lighting preset with defined levels per luminaire.
DALI sensor (DT6 Part 303)Occupancy or daylight sensor communicating directly on the DALI bus.
DALI short addressUnique 0–63 address assigned to each device on a DALI line.
Damp locationRating for areas with occasional moisture, requiring at least IP44.
DaylightNatural light from the sun, reference for colour rendering evaluation.
Daylight autonomyPercentage of occupied hours when daylight alone meets the target illuminance.
Daylight factorRatio of indoor to outdoor illuminance under an overcast sky.
Daylight factor (DF)Ratio of indoor to outdoor illuminance under overcast sky, as a percentage.
Daylight harvestingStrategy adjusting artificial light based on available natural daylight.
Daylight whiteColour temperature around 5 500–6 500 K, resembling noon daylight.
Daylight-linked dimmingAutomatic LED dimming in response to natural-light level changes.
DC (Direct Current)Unidirectional current, 12 V, 24 V or 48 V for LED strips.
Dead bandDimmer range within which no visible change in LED output occurs.
Dead loadWeight of the luminaire and suspension acting on the mounting structure.
Decay (luminous)Progressive flux reduction over the LED’s operating life.
Decibel (dB)Logarithmic unit for signal level, used in EMC and fibre-optic specifications.
Decimal dimmingDALI dimming resolution using 254 logarithmic steps from 0.1% to 100%.
Decoder (DMX)Device converting DMX512 to PWM outputs for driving LED strips.
Decoration lightingLED systems used primarily for aesthetic and mood-setting purposes.
Deep dimmingDimming below 1 percent without flicker or premature switch-off.
Deep-recessed downlightDownlight with the light source set far back in the housing for low glare.
Defect rate (ppm)Number of defective LEDs per million produced, a quality metric.
Degree of protection (IP)Two-digit code indicating solid and liquid ingress resistance.
Dehumidifier (luminaire)Breathing membrane or desiccant preventing condensation inside sealed luminaires.
DelaminationSeparation of bonded layers in a PCB or encapsulant due to thermal stress.
Delivered lumensActual luminous flux reaching the task surface after all system losses.
Delta-T (ΔT)Temperature rise of the LED junction above the ambient temperature.
Demand responseReducing lighting power in response to grid-utility peak-demand signals.
Density 100 LEDs/mLED strip populated with 100 chips per linear metre.
Density 1000 LEDs/mLED strip populated with 1000 chips per linear metre.
Density 105 LEDs/mLED strip populated with 105 chips per linear metre.
Density 110 LEDs/mLED strip populated with 110 chips per linear metre.
Density 115 LEDs/mLED strip populated with 115 chips per linear metre.
Density 120 LEDs/mLED strip populated with 120 chips per linear metre.
Density 125 LEDs/mLED strip populated with 125 chips per linear metre.
Density 130 LEDs/mLED strip populated with 130 chips per linear metre.
Density 135 LEDs/mLED strip populated with 135 chips per linear metre.
Density 140 LEDs/mLED strip populated with 140 chips per linear metre.
Density 145 LEDs/mLED strip populated with 145 chips per linear metre.
Density 15 LEDs/mLED strip populated with 15 chips per linear metre.
Density 150 LEDs/mLED strip populated with 150 chips per linear metre.
Density 155 LEDs/mLED strip populated with 155 chips per linear metre.
Density 160 LEDs/mLED strip populated with 160 chips per linear metre.
Density 165 LEDs/mLED strip populated with 165 chips per linear metre.
Density 170 LEDs/mLED strip populated with 170 chips per linear metre.
Density 175 LEDs/mLED strip populated with 175 chips per linear metre.
Density 180 LEDs/mLED strip populated with 180 chips per linear metre.
Density 185 LEDs/mLED strip populated with 185 chips per linear metre.
Density 190 LEDs/mLED strip populated with 190 chips per linear metre.
Density 195 LEDs/mLED strip populated with 195 chips per linear metre.
Density 20 LEDs/mLED strip populated with 20 chips per linear metre.
Density 200 LEDs/mLED strip populated with 200 chips per linear metre.
Density 205 LEDs/mLED strip populated with 205 chips per linear metre.
Density 210 LEDs/mLED strip populated with 210 chips per linear metre.
Density 215 LEDs/mLED strip populated with 215 chips per linear metre.
Density 220 LEDs/mLED strip populated with 220 chips per linear metre.
Density 225 LEDs/mLED strip populated with 225 chips per linear metre.
Density 230 LEDs/mLED strip populated with 230 chips per linear metre.
Density 235 LEDs/mLED strip populated with 235 chips per linear metre.
Density 240 LEDs/mLED strip populated with 240 chips per linear metre.
Density 245 LEDs/mLED strip populated with 245 chips per linear metre.
Density 25 LEDs/mLED strip populated with 25 chips per linear metre.
Density 250 LEDs/mLED strip populated with 250 chips per linear metre.
Density 255 LEDs/mLED strip populated with 255 chips per linear metre.
Density 260 LEDs/mLED strip populated with 260 chips per linear metre.
Density 265 LEDs/mLED strip populated with 265 chips per linear metre.
Density 270 LEDs/mLED strip populated with 270 chips per linear metre.
Density 275 LEDs/mLED strip populated with 275 chips per linear metre.
Density 280 LEDs/mLED strip populated with 280 chips per linear metre.
Density 285 LEDs/mLED strip populated with 285 chips per linear metre.
Density 290 LEDs/mLED strip populated with 290 chips per linear metre.
Density 295 LEDs/mLED strip populated with 295 chips per linear metre.
Density 30 LEDs/mLED strip populated with 30 chips per linear metre.
Density 300 LEDs/mLED strip populated with 300 chips per linear metre.
Density 305 LEDs/mLED strip populated with 305 chips per linear metre.
Density 310 LEDs/mLED strip populated with 310 chips per linear metre.
Density 315 LEDs/mLED strip populated with 315 chips per linear metre.
Density 320 LEDs/mLED strip populated with 320 chips per linear metre.
Density 325 LEDs/mLED strip populated with 325 chips per linear metre.
Density 330 LEDs/mLED strip populated with 330 chips per linear metre.
Density 335 LEDs/mLED strip populated with 335 chips per linear metre.
Density 340 LEDs/mLED strip populated with 340 chips per linear metre.
Density 345 LEDs/mLED strip populated with 345 chips per linear metre.
Density 35 LEDs/mLED strip populated with 35 chips per linear metre.
Density 350 LEDs/mLED strip populated with 350 chips per linear metre.
Density 355 LEDs/mLED strip populated with 355 chips per linear metre.
Density 360 LEDs/mLED strip populated with 360 chips per linear metre.
Density 365 LEDs/mLED strip populated with 365 chips per linear metre.
Density 370 LEDs/mLED strip populated with 370 chips per linear metre.
Density 375 LEDs/mLED strip populated with 375 chips per linear metre.
Density 380 LEDs/mLED strip populated with 380 chips per linear metre.
Density 385 LEDs/mLED strip populated with 385 chips per linear metre.
Density 390 LEDs/mLED strip populated with 390 chips per linear metre.
Density 395 LEDs/mLED strip populated with 395 chips per linear metre.
Density 40 LEDs/mLED strip populated with 40 chips per linear metre.
Density 400 LEDs/mLED strip populated with 400 chips per linear metre.
Density 405 LEDs/mLED strip populated with 405 chips per linear metre.
Density 410 LEDs/mLED strip populated with 410 chips per linear metre.
Density 415 LEDs/mLED strip populated with 415 chips per linear metre.
Density 420 LEDs/mLED strip populated with 420 chips per linear metre.
Density 425 LEDs/mLED strip populated with 425 chips per linear metre.
Density 430 LEDs/mLED strip populated with 430 chips per linear metre.
Density 435 LEDs/mLED strip populated with 435 chips per linear metre.
Density 440 LEDs/mLED strip populated with 440 chips per linear metre.
Density 445 LEDs/mLED strip populated with 445 chips per linear metre.
Density 45 LEDs/mLED strip populated with 45 chips per linear metre.
Density 450 LEDs/mLED strip populated with 450 chips per linear metre.
Density 455 LEDs/mLED strip populated with 455 chips per linear metre.
Density 460 LEDs/mLED strip populated with 460 chips per linear metre.
Density 465 LEDs/mLED strip populated with 465 chips per linear metre.
Density 470 LEDs/mLED strip populated with 470 chips per linear metre.
Density 475 LEDs/mLED strip populated with 475 chips per linear metre.
Density 480 LEDs/mLED strip populated with 480 chips per linear metre.
Density 485 LEDs/mLED strip populated with 485 chips per linear metre.
Density 490 LEDs/mLED strip populated with 490 chips per linear metre.
Density 495 LEDs/mLED strip populated with 495 chips per linear metre.
Density 50 LEDs/mLED strip populated with 50 chips per linear metre.
Density 500 LEDs/mLED strip populated with 500 chips per linear metre.
Density 505 LEDs/mLED strip populated with 505 chips per linear metre.
Density 510 LEDs/mLED strip populated with 510 chips per linear metre.
Density 515 LEDs/mLED strip populated with 515 chips per linear metre.
Density 520 LEDs/mLED strip populated with 520 chips per linear metre.
Density 525 LEDs/mLED strip populated with 525 chips per linear metre.
Density 530 LEDs/mLED strip populated with 530 chips per linear metre.
Density 535 LEDs/mLED strip populated with 535 chips per linear metre.
Density 540 LEDs/mLED strip populated with 540 chips per linear metre.
Density 545 LEDs/mLED strip populated with 545 chips per linear metre.
Density 55 LEDs/mLED strip populated with 55 chips per linear metre.
Density 550 LEDs/mLED strip populated with 550 chips per linear metre.
Density 555 LEDs/mLED strip populated with 555 chips per linear metre.
Density 560 LEDs/mLED strip populated with 560 chips per linear metre.
Density 565 LEDs/mLED strip populated with 565 chips per linear metre.
Density 570 LEDs/mLED strip populated with 570 chips per linear metre.
Density 575 LEDs/mLED strip populated with 575 chips per linear metre.
Density 580 LEDs/mLED strip populated with 580 chips per linear metre.
Density 585 LEDs/mLED strip populated with 585 chips per linear metre.
Density 590 LEDs/mLED strip populated with 590 chips per linear metre.
Density 595 LEDs/mLED strip populated with 595 chips per linear metre.
Density 60 LEDs/mLED strip populated with 60 chips per linear metre.
Density 600 LEDs/mLED strip populated with 600 chips per linear metre.
Density 605 LEDs/mLED strip populated with 605 chips per linear metre.
Density 610 LEDs/mLED strip populated with 610 chips per linear metre.
Density 615 LEDs/mLED strip populated with 615 chips per linear metre.
Density 620 LEDs/mLED strip populated with 620 chips per linear metre.
Density 625 LEDs/mLED strip populated with 625 chips per linear metre.
Density 630 LEDs/mLED strip populated with 630 chips per linear metre.
Density 635 LEDs/mLED strip populated with 635 chips per linear metre.
Density 640 LEDs/mLED strip populated with 640 chips per linear metre.
Density 645 LEDs/mLED strip populated with 645 chips per linear metre.
Density 65 LEDs/mLED strip populated with 65 chips per linear metre.
Density 650 LEDs/mLED strip populated with 650 chips per linear metre.
Density 655 LEDs/mLED strip populated with 655 chips per linear metre.
Density 660 LEDs/mLED strip populated with 660 chips per linear metre.
Density 665 LEDs/mLED strip populated with 665 chips per linear metre.
Density 670 LEDs/mLED strip populated with 670 chips per linear metre.
Density 675 LEDs/mLED strip populated with 675 chips per linear metre.
Density 680 LEDs/mLED strip populated with 680 chips per linear metre.
Density 685 LEDs/mLED strip populated with 685 chips per linear metre.
Density 690 LEDs/mLED strip populated with 690 chips per linear metre.
Density 695 LEDs/mLED strip populated with 695 chips per linear metre.
Density 70 LEDs/mLED strip populated with 70 chips per linear metre.
Density 700 LEDs/mLED strip populated with 700 chips per linear metre.
Density 705 LEDs/mLED strip populated with 705 chips per linear metre.
Density 710 LEDs/mLED strip populated with 710 chips per linear metre.
Density 715 LEDs/mLED strip populated with 715 chips per linear metre.
Density 720 LEDs/mLED strip populated with 720 chips per linear metre.
Density 725 LEDs/mLED strip populated with 725 chips per linear metre.
Density 730 LEDs/mLED strip populated with 730 chips per linear metre.
Density 735 LEDs/mLED strip populated with 735 chips per linear metre.
Density 740 LEDs/mLED strip populated with 740 chips per linear metre.
Density 745 LEDs/mLED strip populated with 745 chips per linear metre.
Density 75 LEDs/mLED strip populated with 75 chips per linear metre.
Density 750 LEDs/mLED strip populated with 750 chips per linear metre.
Density 755 LEDs/mLED strip populated with 755 chips per linear metre.
Density 760 LEDs/mLED strip populated with 760 chips per linear metre.
Density 765 LEDs/mLED strip populated with 765 chips per linear metre.
Density 770 LEDs/mLED strip populated with 770 chips per linear metre.
Density 775 LEDs/mLED strip populated with 775 chips per linear metre.
Density 780 LEDs/mLED strip populated with 780 chips per linear metre.
Density 785 LEDs/mLED strip populated with 785 chips per linear metre.
Density 790 LEDs/mLED strip populated with 790 chips per linear metre.
Density 795 LEDs/mLED strip populated with 795 chips per linear metre.
Density 80 LEDs/mLED strip populated with 80 chips per linear metre.
Density 800 LEDs/mLED strip populated with 800 chips per linear metre.
Density 805 LEDs/mLED strip populated with 805 chips per linear metre.
Density 810 LEDs/mLED strip populated with 810 chips per linear metre.
Density 815 LEDs/mLED strip populated with 815 chips per linear metre.
Density 820 LEDs/mLED strip populated with 820 chips per linear metre.
Density 825 LEDs/mLED strip populated with 825 chips per linear metre.
Density 830 LEDs/mLED strip populated with 830 chips per linear metre.
Density 835 LEDs/mLED strip populated with 835 chips per linear metre.
Density 840 LEDs/mLED strip populated with 840 chips per linear metre.
Density 845 LEDs/mLED strip populated with 845 chips per linear metre.
Density 85 LEDs/mLED strip populated with 85 chips per linear metre.
Density 850 LEDs/mLED strip populated with 850 chips per linear metre.
Density 855 LEDs/mLED strip populated with 855 chips per linear metre.
Density 860 LEDs/mLED strip populated with 860 chips per linear metre.
Density 865 LEDs/mLED strip populated with 865 chips per linear metre.
Density 870 LEDs/mLED strip populated with 870 chips per linear metre.
Density 875 LEDs/mLED strip populated with 875 chips per linear metre.
Density 880 LEDs/mLED strip populated with 880 chips per linear metre.
Density 885 LEDs/mLED strip populated with 885 chips per linear metre.
Density 890 LEDs/mLED strip populated with 890 chips per linear metre.
Density 895 LEDs/mLED strip populated with 895 chips per linear metre.
Density 90 LEDs/mLED strip populated with 90 chips per linear metre.
Density 900 LEDs/mLED strip populated with 900 chips per linear metre.
Density 905 LEDs/mLED strip populated with 905 chips per linear metre.
Density 910 LEDs/mLED strip populated with 910 chips per linear metre.
Density 915 LEDs/mLED strip populated with 915 chips per linear metre.
Density 920 LEDs/mLED strip populated with 920 chips per linear metre.
Density 925 LEDs/mLED strip populated with 925 chips per linear metre.
Density 930 LEDs/mLED strip populated with 930 chips per linear metre.
Density 935 LEDs/mLED strip populated with 935 chips per linear metre.
Density 940 LEDs/mLED strip populated with 940 chips per linear metre.
Density 945 LEDs/mLED strip populated with 945 chips per linear metre.
Density 95 LEDs/mLED strip populated with 95 chips per linear metre.
Density 950 LEDs/mLED strip populated with 950 chips per linear metre.
Density 955 LEDs/mLED strip populated with 955 chips per linear metre.
Density 960 LEDs/mLED strip populated with 960 chips per linear metre.
Density 965 LEDs/mLED strip populated with 965 chips per linear metre.
Density 970 LEDs/mLED strip populated with 970 chips per linear metre.
Density 975 LEDs/mLED strip populated with 975 chips per linear metre.
Density 980 LEDs/mLED strip populated with 980 chips per linear metre.
Density 985 LEDs/mLED strip populated with 985 chips per linear metre.
Density 990 LEDs/mLED strip populated with 990 chips per linear metre.
Density 995 LEDs/mLED strip populated with 995 chips per linear metre.
Depreciation (luminous)Synonym for lumen depreciation; flux reduction over time.
Depreciation curveGraph showing luminous flux decline over operating hours.
DeratingReducing power to maintain safe temperatures under adverse conditions.
Derating curveGraph showing allowable power versus ambient temperature.
DesiccantMoisture-absorbing material placed inside sealed luminaires to prevent condensation.
Design intent drawingArchitect drawing showing desired lighting effect before engineering.
Design lifeIntended operational lifespan specified during the design phase.
Desktop luminaireTask light for desk use, often with adjustable arm and CCT control.
Detection zoneArea covered by a motion or occupancy sensor.
Device discoveryAutomatic identification of new luminaires added to a smart-lighting network.
Device Type (DALI DT)DALI specification defining the features and commands for a device category.
Dew pointTemperature at which moisture condenses, relevant for outdoor luminaire sealing.
Diagram (chromaticity / CIE)Two-dimensional map of all visible colours with x, y coordinates.
Diagram (Ishikawa / fishbone)Root-cause analysis tool used in LED quality investigations.
Diagram (polar)Graphical representation of intensity distribution in polar coordinates.
Diagram (Sankey)Flow diagram showing energy distribution from input to light and heat.
Diagram (wiring)Schematic showing electrical connections in an LED installation.
DIALuxFree professional lighting-calculation software widely used in the industry.
Die (LED)Semiconductor crystal inside the package that emits light.
Die attachProcess bonding the LED die to its substrate or lead frame.
Die bondingAttaching the LED semiconductor die to its package substrate.
Die sizePhysical dimensions of the LED semiconductor chip in millimetres.
DielectricInsulating material with specific electrical-withstand properties.
Dielectric strengthMaximum voltage an insulator can withstand before breakdown.
Diffuse light fractionProportion of a luminaire output that is scattered rather than direct.
DiffuserOptical element distributing light uniformly, eliminating visible LED dots.
Diffuser (Fresnel)Lens with concentric rings for focusing or spreading an LED beam.
Diffuser (holographic)Film using holographic patterns for precise light shaping.
Diffuser (linear)Continuous cover running the full profile length for uniform light.
Diffuser (opal)Milky-white element that completely hides individual LEDs.
Diffuser (prismatic)Cover with a prismatic structure for directional control and anti-glare.
Diffuser (satin / frosted)Semi-transparent cover balancing diffusion and transmittance.
Diffuser (volumetric)Thick diffuser creating a large illuminated surface with very low luminance.
DiffusionUniform light scattering through an opal or satin cover.
Digital twinVirtual replica of a lighting installation used for simulation and monitoring.
Dim-on commandDALI or DMX instruction to switch on at the last-used dimming level.
Dim-to-warmFunction lowering CCT as intensity decreases, mimicking incandescent behaviour.
DimmerDevice adjusting LED luminous intensity.
Dimmer (0-10 V)Analogue dimmer sending a voltage signal.
Dimmer (capacitive touch)Touch-sensitive dimmer without moving parts.
Dimmer (DALI)Digital dimmer communicating via the DALI protocol.
Dimmer (DMX)Dimmer using the DMX512 protocol.
Dimmer (Lutron)Dimmer by Lutron Electronics, a major manufacturer of LED dimmers.
Dimmer (PWM)Dimmer using pulse-width modulation.
Dimmer (rotary)Dimmer with a rotating knob.
Dimmer (slider)Dimmer with a linear slider control.
Dimmer (TRIAC)Phase-cut dimmer, economical and widely used.
Dimmer (universal)Dimmer compatible with multiple load types.
Dimmer compatibility listManufacturer-published list of dimmers tested with a specific LED driver.
DimmingProcess of regulating LED luminous intensity.
Dimming (analogue)Regulation via a DC voltage signal (0–10 V or 1–10 V).
Dimming (curve — exponential)Non-linear curve with rapid change at mid-range, less common than logarithmic.
Dimming (curve — linear)Output proportional to the control signal level.
Dimming (curve — logarithmic)Curve adapted to human perception, finer resolution at low levels.
Dimming (curve — S-curve)Sigmoid response emphasising the extremes of the dimming range.
Dimming (curve — square-law)Quadratic curve sometimes used for theatre and entertainment lighting.
Dimming (deep)Dimming below 1 percent without flicker or cut-off.
Dimming (digital)Regulation via digital protocols (DALI, DMX, BLE, Zigbee).
Dimming (leading edge)Phase-cut dimming clipping the start of the AC waveform.
Dimming (range)Ratio between maximum and minimum achievable brightness of a driver.
Dimming (trailing edge)Phase-cut dimming clipping the end of the waveform, better for LEDs.
Dimming channelSingle control path in a multi-channel controller assigned to one LED colour or zone.
Dimming floorLowest achievable brightness percentage before the LED switches off.
Dimming level 0%LED output regulated to 0 percent of maximum brightness.
Dimming level 1%LED output regulated to 1 percent of maximum brightness.
Dimming level 10%LED output regulated to 10 percent of maximum brightness.
Dimming level 100%LED output regulated to 100 percent of maximum brightness.
Dimming level 11%LED output regulated to 11 percent of maximum brightness.
Dimming level 12%LED output regulated to 12 percent of maximum brightness.
Dimming level 13%LED output regulated to 13 percent of maximum brightness.
Dimming level 14%LED output regulated to 14 percent of maximum brightness.
Dimming level 15%LED output regulated to 15 percent of maximum brightness.
Dimming level 16%LED output regulated to 16 percent of maximum brightness.
Dimming level 17%LED output regulated to 17 percent of maximum brightness.
Dimming level 18%LED output regulated to 18 percent of maximum brightness.
Dimming level 19%LED output regulated to 19 percent of maximum brightness.
Dimming level 2%LED output regulated to 2 percent of maximum brightness.
Dimming level 20%LED output regulated to 20 percent of maximum brightness.
Dimming level 21%LED output regulated to 21 percent of maximum brightness.
Dimming level 22%LED output regulated to 22 percent of maximum brightness.
Dimming level 23%LED output regulated to 23 percent of maximum brightness.
Dimming level 24%LED output regulated to 24 percent of maximum brightness.
Dimming level 25%LED output regulated to 25 percent of maximum brightness.
Dimming level 26%LED output regulated to 26 percent of maximum brightness.
Dimming level 27%LED output regulated to 27 percent of maximum brightness.
Dimming level 28%LED output regulated to 28 percent of maximum brightness.
Dimming level 29%LED output regulated to 29 percent of maximum brightness.
Dimming level 3%LED output regulated to 3 percent of maximum brightness.
Dimming level 30%LED output regulated to 30 percent of maximum brightness.
Dimming level 31%LED output regulated to 31 percent of maximum brightness.
Dimming level 32%LED output regulated to 32 percent of maximum brightness.
Dimming level 33%LED output regulated to 33 percent of maximum brightness.
Dimming level 34%LED output regulated to 34 percent of maximum brightness.
Dimming level 35%LED output regulated to 35 percent of maximum brightness.
Dimming level 36%LED output regulated to 36 percent of maximum brightness.
Dimming level 37%LED output regulated to 37 percent of maximum brightness.
Dimming level 38%LED output regulated to 38 percent of maximum brightness.
Dimming level 39%LED output regulated to 39 percent of maximum brightness.
Dimming level 4%LED output regulated to 4 percent of maximum brightness.
Dimming level 40%LED output regulated to 40 percent of maximum brightness.
Dimming level 41%LED output regulated to 41 percent of maximum brightness.
Dimming level 42%LED output regulated to 42 percent of maximum brightness.
Dimming level 43%LED output regulated to 43 percent of maximum brightness.
Dimming level 44%LED output regulated to 44 percent of maximum brightness.
Dimming level 45%LED output regulated to 45 percent of maximum brightness.
Dimming level 46%LED output regulated to 46 percent of maximum brightness.
Dimming level 47%LED output regulated to 47 percent of maximum brightness.
Dimming level 48%LED output regulated to 48 percent of maximum brightness.
Dimming level 49%LED output regulated to 49 percent of maximum brightness.
Dimming level 5%LED output regulated to 5 percent of maximum brightness.
Dimming level 50%LED output regulated to 50 percent of maximum brightness.
Dimming level 51%LED output regulated to 51 percent of maximum brightness.
Dimming level 52%LED output regulated to 52 percent of maximum brightness.
Dimming level 53%LED output regulated to 53 percent of maximum brightness.
Dimming level 54%LED output regulated to 54 percent of maximum brightness.
Dimming level 55%LED output regulated to 55 percent of maximum brightness.
Dimming level 56%LED output regulated to 56 percent of maximum brightness.
Dimming level 57%LED output regulated to 57 percent of maximum brightness.
Dimming level 58%LED output regulated to 58 percent of maximum brightness.
Dimming level 59%LED output regulated to 59 percent of maximum brightness.
Dimming level 6%LED output regulated to 6 percent of maximum brightness.
Dimming level 60%LED output regulated to 60 percent of maximum brightness.
Dimming level 61%LED output regulated to 61 percent of maximum brightness.
Dimming level 62%LED output regulated to 62 percent of maximum brightness.
Dimming level 63%LED output regulated to 63 percent of maximum brightness.
Dimming level 64%LED output regulated to 64 percent of maximum brightness.
Dimming level 65%LED output regulated to 65 percent of maximum brightness.
Dimming level 66%LED output regulated to 66 percent of maximum brightness.
Dimming level 67%LED output regulated to 67 percent of maximum brightness.
Dimming level 68%LED output regulated to 68 percent of maximum brightness.
Dimming level 69%LED output regulated to 69 percent of maximum brightness.
Dimming level 7%LED output regulated to 7 percent of maximum brightness.
Dimming level 70%LED output regulated to 70 percent of maximum brightness.
Dimming level 71%LED output regulated to 71 percent of maximum brightness.
Dimming level 72%LED output regulated to 72 percent of maximum brightness.
Dimming level 73%LED output regulated to 73 percent of maximum brightness.
Dimming level 74%LED output regulated to 74 percent of maximum brightness.
Dimming level 75%LED output regulated to 75 percent of maximum brightness.
Dimming level 76%LED output regulated to 76 percent of maximum brightness.
Dimming level 77%LED output regulated to 77 percent of maximum brightness.
Dimming level 78%LED output regulated to 78 percent of maximum brightness.
Dimming level 79%LED output regulated to 79 percent of maximum brightness.
Dimming level 8%LED output regulated to 8 percent of maximum brightness.
Dimming level 80%LED output regulated to 80 percent of maximum brightness.
Dimming level 81%LED output regulated to 81 percent of maximum brightness.
Dimming level 82%LED output regulated to 82 percent of maximum brightness.
Dimming level 83%LED output regulated to 83 percent of maximum brightness.
Dimming level 84%LED output regulated to 84 percent of maximum brightness.
Dimming level 85%LED output regulated to 85 percent of maximum brightness.
Dimming level 86%LED output regulated to 86 percent of maximum brightness.
Dimming level 87%LED output regulated to 87 percent of maximum brightness.
Dimming level 88%LED output regulated to 88 percent of maximum brightness.
Dimming level 89%LED output regulated to 89 percent of maximum brightness.
Dimming level 9%LED output regulated to 9 percent of maximum brightness.
Dimming level 90%LED output regulated to 90 percent of maximum brightness.
Dimming level 91%LED output regulated to 91 percent of maximum brightness.
Dimming level 92%LED output regulated to 92 percent of maximum brightness.
Dimming level 93%LED output regulated to 93 percent of maximum brightness.
Dimming level 94%LED output regulated to 94 percent of maximum brightness.
Dimming level 95%LED output regulated to 95 percent of maximum brightness.
Dimming level 96%LED output regulated to 96 percent of maximum brightness.
Dimming level 97%LED output regulated to 97 percent of maximum brightness.
Dimming level 98%LED output regulated to 98 percent of maximum brightness.
Dimming level 99%LED output regulated to 99 percent of maximum brightness.
Dimming rangeSpan from maximum to minimum achievable brightness of a driver.
Dimming resolutionNumber of discrete brightness steps available (e.g. 256 for 8-bit DMX).
DIN 5035German workplace lighting.
DIN railStandardised metal rail for mounting electrical equipment in enclosures.
DiodeSemiconductor conducting in one direction; an LED is a light-emitting diode.
Diode (fly-back)Diode protecting driver circuits from inductive voltage spikes.
Diode (Schottky)Low-drop diode used in LED protection and power circuits.
Diode (TVS / transient voltage suppressor)Diode clamping voltage transients to protect LED circuits.
Diode (Zener)Voltage-clamping diode protecting LEDs from overvoltage.
DIP switchSmall manual switch on a driver or controller for parameter configuration.
Direct burial cableCable rated for installation underground without additional conduit.
Direct glare zoneAngular range within which a luminaire can cause discomfort glare to occupants.
Direct/indirect ratioSplit of luminaire output between downward and upward emission.
Directional lampLamp emitting at least 80% of its flux within a solid angle of π sr.
DirectionalityCharacteristic of LEDs that emit in a preferred direction.
Dirt depreciation factorMultiplier accounting for luminaire light loss due to accumulated dust.
Discharge lampGas-discharge lamp (HID, fluorescent) largely replaced by LED technology.
Discomfort glareGlare causing annoyance without necessarily reducing visual acuity.
Disconnect switchLockable switch isolating an LED circuit for safe maintenance.
Displacement factorCosine of the phase angle between voltage and current in a driver.
Display nicheSmall recessed shelf specifically designed and lit for exhibiting an object.
Distance-to-height ratioSpacing criterion between luminaires divided by mounting height, for uniformity.
Distribution (asymmetric)Intentionally uneven light pattern, e.g. for wall-washing.
Distribution (bat-wing)Wide, flat distribution producing uniform illuminance over a large area.
Distribution (direct-indirect)Luminaire emitting both downward and upward.
Distribution (forward-throw)Asymmetric pattern projecting light further forward than sideways.
Distribution (Lambertian)Cosine-law emission where intensity is proportional to cos θ.
Distribution (luminous)Spatial pattern of luminous intensity around a luminaire.
Distribution (narrow)Concentrated beam below 20 degrees for accent lighting.
Distribution (symmetric)Equal light output on opposite sides of the optical axis.
Distribution (type I–V)IES classification of roadway luminaire beam patterns.
Distribution (wide)Broad beam above 60 degrees for general illumination.
Distribution boardElectrical panel dividing the mains supply into branch circuits for LED zones.
DMX (Digital Multiplex)Digital control protocol for stage and architectural lighting.
DMX addressStarting channel number assigned to a device on a DMX universe.
DMX daisy chainSerial DMX wiring from one device’s output to the next device’s input.
DMX mergerDevice combining two DMX input signals into a single output stream.
DMX nodeNetwork device converting Ethernet DMX (Art-Net / sACN) to physical DMX ports.
DMX over IPTransport of DMX via Ethernet networks (Art-Net, sACN).
DMX recorderDevice that records and plays back DMX sequences autonomously.
DMX splitterDevice duplicating one DMX input into multiple electrically isolated outputs.
DMX terminator120 Ω resistor at the end of a DMX line preventing signal reflections.
DMX universeSet of 512 channels managed by a single controller output.
DMX512Standard with 512 channels per universe, each with 256 intensity levels.
DMX512-AExtended DMX standard with bidirectional (RDM) capabilities.
Dot pitchDistance between adjacent phosphor or LED elements in a dot-matrix display.
Dot-freeStrips or diffusers that eliminate visible individual LED dots.
Double feedPowering a strip from both ends to reduce voltage drop.
Double insulationTwo independent insulation layers removing the need for earthing.
Double-ended lampLamp with a base at each end, such as an LED linear tube.
DownlightCeiling-recessed luminaire emitting light downward.
Downlight (adjustable / gimbal)Recessed downlight with a tiltable optic for accent aiming.
Downlight (fire-rated)Downlight with an intumescent seal maintaining fire-compartment integrity.
Downlight (fixed)Recessed downlight with a non-adjustable beam direction.
Downlight (square)Recessed downlight with a square trim ring.
Downlight apertureOpening in the ceiling through which the downlight beam exits.
Downlight baffleDark insert reducing spill light and glare inside a recessed downlight.
Downlight gimbalTilt mechanism inside a downlight allowing beam redirection.
Downlight spring clipSpring-loaded clip holding the downlight body in the ceiling cut-out.
Drain wireUninsulated conductor in a shielded cable used for earthing the shield.
Draught lobby lightingLED illumination of an entrance draught-prevention vestibule.
Draw (current)Amount of current consumed by a load, measured in amperes.
Drawing registerDatabase tracking revision history of all lighting-project drawings.
Drip edgeProfile feature directing water away from the electrical compartment.
Drip loopDownward cable loop preventing water from running into a connector or junction.
Drive current 100 mALED forward current of 100 milliamps.
Drive current 1000 mALED forward current of 1000 milliamps.
Drive current 1010 mALED forward current of 1010 milliamps.
Drive current 1020 mALED forward current of 1020 milliamps.
Drive current 1030 mALED forward current of 1030 milliamps.
Drive current 1040 mALED forward current of 1040 milliamps.
Drive current 1050 mALED forward current of 1050 milliamps.
Drive current 1060 mALED forward current of 1060 milliamps.
Drive current 1070 mALED forward current of 1070 milliamps.
Drive current 1080 mALED forward current of 1080 milliamps.
Drive current 1090 mALED forward current of 1090 milliamps.
Drive current 110 mALED forward current of 110 milliamps.
Drive current 1100 mALED forward current of 1100 milliamps.
Drive current 1110 mALED forward current of 1110 milliamps.
Drive current 1120 mALED forward current of 1120 milliamps.
Drive current 1130 mALED forward current of 1130 milliamps.
Drive current 1140 mALED forward current of 1140 milliamps.
Drive current 1150 mALED forward current of 1150 milliamps.
Drive current 1160 mALED forward current of 1160 milliamps.
Drive current 1170 mALED forward current of 1170 milliamps.
Drive current 1180 mALED forward current of 1180 milliamps.
Drive current 1190 mALED forward current of 1190 milliamps.
Drive current 120 mALED forward current of 120 milliamps.
Drive current 1200 mALED forward current of 1200 milliamps.
Drive current 1210 mALED forward current of 1210 milliamps.
Drive current 1220 mALED forward current of 1220 milliamps.
Drive current 1230 mALED forward current of 1230 milliamps.
Drive current 1240 mALED forward current of 1240 milliamps.
Drive current 1250 mALED forward current of 1250 milliamps.
Drive current 1260 mALED forward current of 1260 milliamps.
Drive current 1270 mALED forward current of 1270 milliamps.
Drive current 1280 mALED forward current of 1280 milliamps.
Drive current 1290 mALED forward current of 1290 milliamps.
Drive current 130 mALED forward current of 130 milliamps.
Drive current 1300 mALED forward current of 1300 milliamps.
Drive current 1310 mALED forward current of 1310 milliamps.
Drive current 1320 mALED forward current of 1320 milliamps.
Drive current 1330 mALED forward current of 1330 milliamps.
Drive current 1340 mALED forward current of 1340 milliamps.
Drive current 1350 mALED forward current of 1350 milliamps.
Drive current 1360 mALED forward current of 1360 milliamps.
Drive current 1370 mALED forward current of 1370 milliamps.
Drive current 1380 mALED forward current of 1380 milliamps.
Drive current 1390 mALED forward current of 1390 milliamps.
Drive current 140 mALED forward current of 140 milliamps.
Drive current 1400 mALED forward current of 1400 milliamps.
Drive current 1410 mALED forward current of 1410 milliamps.
Drive current 1420 mALED forward current of 1420 milliamps.
Drive current 1430 mALED forward current of 1430 milliamps.
Drive current 1440 mALED forward current of 1440 milliamps.
Drive current 1450 mALED forward current of 1450 milliamps.
Drive current 1460 mALED forward current of 1460 milliamps.
Drive current 1470 mALED forward current of 1470 milliamps.
Drive current 1480 mALED forward current of 1480 milliamps.
Drive current 1490 mALED forward current of 1490 milliamps.
Drive current 150 mALED forward current of 150 milliamps.
Drive current 1500 mALED forward current of 1500 milliamps.
Drive current 1510 mALED forward current of 1510 milliamps.
Drive current 1520 mALED forward current of 1520 milliamps.
Drive current 1530 mALED forward current of 1530 milliamps.
Drive current 1540 mALED forward current of 1540 milliamps.
Drive current 1550 mALED forward current of 1550 milliamps.
Drive current 1560 mALED forward current of 1560 milliamps.
Drive current 1570 mALED forward current of 1570 milliamps.
Drive current 1580 mALED forward current of 1580 milliamps.
Drive current 1590 mALED forward current of 1590 milliamps.
Drive current 160 mALED forward current of 160 milliamps.
Drive current 1600 mALED forward current of 1600 milliamps.
Drive current 1610 mALED forward current of 1610 milliamps.
Drive current 1620 mALED forward current of 1620 milliamps.
Drive current 1630 mALED forward current of 1630 milliamps.
Drive current 1640 mALED forward current of 1640 milliamps.
Drive current 1650 mALED forward current of 1650 milliamps.
Drive current 1660 mALED forward current of 1660 milliamps.
Drive current 1670 mALED forward current of 1670 milliamps.
Drive current 1680 mALED forward current of 1680 milliamps.
Drive current 1690 mALED forward current of 1690 milliamps.
Drive current 170 mALED forward current of 170 milliamps.
Drive current 1700 mALED forward current of 1700 milliamps.
Drive current 1710 mALED forward current of 1710 milliamps.
Drive current 1720 mALED forward current of 1720 milliamps.
Drive current 1730 mALED forward current of 1730 milliamps.
Drive current 1740 mALED forward current of 1740 milliamps.
Drive current 1750 mALED forward current of 1750 milliamps.
Drive current 1760 mALED forward current of 1760 milliamps.
Drive current 1770 mALED forward current of 1770 milliamps.
Drive current 1780 mALED forward current of 1780 milliamps.
Drive current 1790 mALED forward current of 1790 milliamps.
Drive current 180 mALED forward current of 180 milliamps.
Drive current 1800 mALED forward current of 1800 milliamps.
Drive current 1810 mALED forward current of 1810 milliamps.
Drive current 1820 mALED forward current of 1820 milliamps.
Drive current 1830 mALED forward current of 1830 milliamps.
Drive current 1840 mALED forward current of 1840 milliamps.
Drive current 1850 mALED forward current of 1850 milliamps.
Drive current 1860 mALED forward current of 1860 milliamps.
Drive current 1870 mALED forward current of 1870 milliamps.
Drive current 1880 mALED forward current of 1880 milliamps.
Drive current 1890 mALED forward current of 1890 milliamps.
Drive current 190 mALED forward current of 190 milliamps.
Drive current 1900 mALED forward current of 1900 milliamps.
Drive current 1910 mALED forward current of 1910 milliamps.
Drive current 1920 mALED forward current of 1920 milliamps.
Drive current 1930 mALED forward current of 1930 milliamps.
Drive current 1940 mALED forward current of 1940 milliamps.
Drive current 1950 mALED forward current of 1950 milliamps.
Drive current 1960 mALED forward current of 1960 milliamps.
Drive current 1970 mALED forward current of 1970 milliamps.
Drive current 1980 mALED forward current of 1980 milliamps.
Drive current 1990 mALED forward current of 1990 milliamps.
Drive current 200 mALED forward current of 200 milliamps.
Drive current 2000 mALED forward current of 2000 milliamps.
Drive current 2010 mALED forward current of 2010 milliamps.
Drive current 2020 mALED forward current of 2020 milliamps.
Drive current 2030 mALED forward current of 2030 milliamps.
Drive current 2040 mALED forward current of 2040 milliamps.
Drive current 2050 mALED forward current of 2050 milliamps.
Drive current 2060 mALED forward current of 2060 milliamps.
Drive current 2070 mALED forward current of 2070 milliamps.
Drive current 2080 mALED forward current of 2080 milliamps.
Drive current 2090 mALED forward current of 2090 milliamps.
Drive current 210 mALED forward current of 210 milliamps.
Drive current 2100 mALED forward current of 2100 milliamps.
Drive current 2110 mALED forward current of 2110 milliamps.
Drive current 2120 mALED forward current of 2120 milliamps.
Drive current 2130 mALED forward current of 2130 milliamps.
Drive current 2140 mALED forward current of 2140 milliamps.
Drive current 2150 mALED forward current of 2150 milliamps.
Drive current 2160 mALED forward current of 2160 milliamps.
Drive current 2170 mALED forward current of 2170 milliamps.
Drive current 2180 mALED forward current of 2180 milliamps.
Drive current 2190 mALED forward current of 2190 milliamps.
Drive current 220 mALED forward current of 220 milliamps.
Drive current 2200 mALED forward current of 2200 milliamps.
Drive current 2210 mALED forward current of 2210 milliamps.
Drive current 2220 mALED forward current of 2220 milliamps.
Drive current 2230 mALED forward current of 2230 milliamps.
Drive current 2240 mALED forward current of 2240 milliamps.
Drive current 2250 mALED forward current of 2250 milliamps.
Drive current 2260 mALED forward current of 2260 milliamps.
Drive current 2270 mALED forward current of 2270 milliamps.
Drive current 2280 mALED forward current of 2280 milliamps.
Drive current 2290 mALED forward current of 2290 milliamps.
Drive current 230 mALED forward current of 230 milliamps.
Drive current 2300 mALED forward current of 2300 milliamps.
Drive current 2310 mALED forward current of 2310 milliamps.
Drive current 2320 mALED forward current of 2320 milliamps.
Drive current 2330 mALED forward current of 2330 milliamps.
Drive current 2340 mALED forward current of 2340 milliamps.
Drive current 2350 mALED forward current of 2350 milliamps.
Drive current 2360 mALED forward current of 2360 milliamps.
Drive current 2370 mALED forward current of 2370 milliamps.
Drive current 2380 mALED forward current of 2380 milliamps.
Drive current 2390 mALED forward current of 2390 milliamps.
Drive current 240 mALED forward current of 240 milliamps.
Drive current 2400 mALED forward current of 2400 milliamps.
Drive current 2410 mALED forward current of 2410 milliamps.
Drive current 2420 mALED forward current of 2420 milliamps.
Drive current 2430 mALED forward current of 2430 milliamps.
Drive current 2440 mALED forward current of 2440 milliamps.
Drive current 2450 mALED forward current of 2450 milliamps.
Drive current 2460 mALED forward current of 2460 milliamps.
Drive current 2470 mALED forward current of 2470 milliamps.
Drive current 2480 mALED forward current of 2480 milliamps.
Drive current 2490 mALED forward current of 2490 milliamps.
Drive current 250 mALED forward current of 250 milliamps.
Drive current 2500 mALED forward current of 2500 milliamps.
Drive current 2510 mALED forward current of 2510 milliamps.
Drive current 2520 mALED forward current of 2520 milliamps.
Drive current 2530 mALED forward current of 2530 milliamps.
Drive current 2540 mALED forward current of 2540 milliamps.
Drive current 2550 mALED forward current of 2550 milliamps.
Drive current 2560 mALED forward current of 2560 milliamps.
Drive current 2570 mALED forward current of 2570 milliamps.
Drive current 2580 mALED forward current of 2580 milliamps.
Drive current 2590 mALED forward current of 2590 milliamps.
Drive current 260 mALED forward current of 260 milliamps.
Drive current 2600 mALED forward current of 2600 milliamps.
Drive current 2610 mALED forward current of 2610 milliamps.
Drive current 2620 mALED forward current of 2620 milliamps.
Drive current 2630 mALED forward current of 2630 milliamps.
Drive current 2640 mALED forward current of 2640 milliamps.
Drive current 2650 mALED forward current of 2650 milliamps.
Drive current 2660 mALED forward current of 2660 milliamps.
Drive current 2670 mALED forward current of 2670 milliamps.
Drive current 2680 mALED forward current of 2680 milliamps.
Drive current 2690 mALED forward current of 2690 milliamps.
Drive current 270 mALED forward current of 270 milliamps.
Drive current 2700 mALED forward current of 2700 milliamps.
Drive current 2710 mALED forward current of 2710 milliamps.
Drive current 2720 mALED forward current of 2720 milliamps.
Drive current 2730 mALED forward current of 2730 milliamps.
Drive current 2740 mALED forward current of 2740 milliamps.
Drive current 2750 mALED forward current of 2750 milliamps.
Drive current 2760 mALED forward current of 2760 milliamps.
Drive current 2770 mALED forward current of 2770 milliamps.
Drive current 2780 mALED forward current of 2780 milliamps.
Drive current 2790 mALED forward current of 2790 milliamps.
Drive current 280 mALED forward current of 280 milliamps.
Drive current 2800 mALED forward current of 2800 milliamps.
Drive current 2810 mALED forward current of 2810 milliamps.
Drive current 2820 mALED forward current of 2820 milliamps.
Drive current 2830 mALED forward current of 2830 milliamps.
Drive current 2840 mALED forward current of 2840 milliamps.
Drive current 2850 mALED forward current of 2850 milliamps.
Drive current 2860 mALED forward current of 2860 milliamps.
Drive current 2870 mALED forward current of 2870 milliamps.
Drive current 2880 mALED forward current of 2880 milliamps.
Drive current 2890 mALED forward current of 2890 milliamps.
Drive current 290 mALED forward current of 290 milliamps.
Drive current 2900 mALED forward current of 2900 milliamps.
Drive current 2910 mALED forward current of 2910 milliamps.
Drive current 2920 mALED forward current of 2920 milliamps.
Drive current 2930 mALED forward current of 2930 milliamps.
Drive current 2940 mALED forward current of 2940 milliamps.
Drive current 2950 mALED forward current of 2950 milliamps.
Drive current 2960 mALED forward current of 2960 milliamps.
Drive current 2970 mALED forward current of 2970 milliamps.
Drive current 2980 mALED forward current of 2980 milliamps.
Drive current 2990 mALED forward current of 2990 milliamps.
Drive current 300 mALED forward current of 300 milliamps.
Drive current 3000 mALED forward current of 3000 milliamps.
Drive current 3010 mALED forward current of 3010 milliamps.
Drive current 3020 mALED forward current of 3020 milliamps.
Drive current 3030 mALED forward current of 3030 milliamps.
Drive current 3040 mALED forward current of 3040 milliamps.
Drive current 3050 mALED forward current of 3050 milliamps.
Drive current 3060 mALED forward current of 3060 milliamps.
Drive current 3070 mALED forward current of 3070 milliamps.
Drive current 3080 mALED forward current of 3080 milliamps.
Drive current 3090 mALED forward current of 3090 milliamps.
Drive current 310 mALED forward current of 310 milliamps.
Drive current 3100 mALED forward current of 3100 milliamps.
Drive current 3110 mALED forward current of 3110 milliamps.
Drive current 3120 mALED forward current of 3120 milliamps.
Drive current 3130 mALED forward current of 3130 milliamps.
Drive current 3140 mALED forward current of 3140 milliamps.
Drive current 3150 mALED forward current of 3150 milliamps.
Drive current 3160 mALED forward current of 3160 milliamps.
Drive current 3170 mALED forward current of 3170 milliamps.
Drive current 3180 mALED forward current of 3180 milliamps.
Drive current 3190 mALED forward current of 3190 milliamps.
Drive current 320 mALED forward current of 320 milliamps.
Drive current 3200 mALED forward current of 3200 milliamps.
Drive current 3210 mALED forward current of 3210 milliamps.
Drive current 3220 mALED forward current of 3220 milliamps.
Drive current 3230 mALED forward current of 3230 milliamps.
Drive current 3240 mALED forward current of 3240 milliamps.
Drive current 3250 mALED forward current of 3250 milliamps.
Drive current 3260 mALED forward current of 3260 milliamps.
Drive current 3270 mALED forward current of 3270 milliamps.
Drive current 3280 mALED forward current of 3280 milliamps.
Drive current 3290 mALED forward current of 3290 milliamps.
Drive current 330 mALED forward current of 330 milliamps.
Drive current 3300 mALED forward current of 3300 milliamps.
Drive current 3310 mALED forward current of 3310 milliamps.
Drive current 3320 mALED forward current of 3320 milliamps.
Drive current 3330 mALED forward current of 3330 milliamps.
Drive current 3340 mALED forward current of 3340 milliamps.
Drive current 3350 mALED forward current of 3350 milliamps.
Drive current 3360 mALED forward current of 3360 milliamps.
Drive current 3370 mALED forward current of 3370 milliamps.
Drive current 3380 mALED forward current of 3380 milliamps.
Drive current 3390 mALED forward current of 3390 milliamps.
Drive current 340 mALED forward current of 340 milliamps.
Drive current 3400 mALED forward current of 3400 milliamps.
Drive current 3410 mALED forward current of 3410 milliamps.
Drive current 3420 mALED forward current of 3420 milliamps.
Drive current 3430 mALED forward current of 3430 milliamps.
Drive current 3440 mALED forward current of 3440 milliamps.
Drive current 3450 mALED forward current of 3450 milliamps.
Drive current 3460 mALED forward current of 3460 milliamps.
Drive current 3470 mALED forward current of 3470 milliamps.
Drive current 3480 mALED forward current of 3480 milliamps.
Drive current 3490 mALED forward current of 3490 milliamps.
Drive current 350 mALED forward current of 350 milliamps.
Drive current 3500 mALED forward current of 3500 milliamps.
Drive current 3510 mALED forward current of 3510 milliamps.
Drive current 3520 mALED forward current of 3520 milliamps.
Drive current 3530 mALED forward current of 3530 milliamps.
Drive current 3540 mALED forward current of 3540 milliamps.
Drive current 3550 mALED forward current of 3550 milliamps.
Drive current 3560 mALED forward current of 3560 milliamps.
Drive current 3570 mALED forward current of 3570 milliamps.
Drive current 3580 mALED forward current of 3580 milliamps.
Drive current 3590 mALED forward current of 3590 milliamps.
Drive current 360 mALED forward current of 360 milliamps.
Drive current 3600 mALED forward current of 3600 milliamps.
Drive current 3610 mALED forward current of 3610 milliamps.
Drive current 3620 mALED forward current of 3620 milliamps.
Drive current 3630 mALED forward current of 3630 milliamps.
Drive current 3640 mALED forward current of 3640 milliamps.
Drive current 3650 mALED forward current of 3650 milliamps.
Drive current 3660 mALED forward current of 3660 milliamps.
Drive current 3670 mALED forward current of 3670 milliamps.
Drive current 3680 mALED forward current of 3680 milliamps.
Drive current 3690 mALED forward current of 3690 milliamps.
Drive current 370 mALED forward current of 370 milliamps.
Drive current 3700 mALED forward current of 3700 milliamps.
Drive current 3710 mALED forward current of 3710 milliamps.
Drive current 3720 mALED forward current of 3720 milliamps.
Drive current 3730 mALED forward current of 3730 milliamps.
Drive current 3740 mALED forward current of 3740 milliamps.
Drive current 3750 mALED forward current of 3750 milliamps.
Drive current 3760 mALED forward current of 3760 milliamps.
Drive current 3770 mALED forward current of 3770 milliamps.
Drive current 3780 mALED forward current of 3780 milliamps.
Drive current 3790 mALED forward current of 3790 milliamps.
Drive current 380 mALED forward current of 380 milliamps.
Drive current 3800 mALED forward current of 3800 milliamps.
Drive current 3810 mALED forward current of 3810 milliamps.
Drive current 3820 mALED forward current of 3820 milliamps.
Drive current 3830 mALED forward current of 3830 milliamps.
Drive current 3840 mALED forward current of 3840 milliamps.
Drive current 3850 mALED forward current of 3850 milliamps.
Drive current 3860 mALED forward current of 3860 milliamps.
Drive current 3870 mALED forward current of 3870 milliamps.
Drive current 3880 mALED forward current of 3880 milliamps.
Drive current 3890 mALED forward current of 3890 milliamps.
Drive current 390 mALED forward current of 390 milliamps.
Drive current 3900 mALED forward current of 3900 milliamps.
Drive current 3910 mALED forward current of 3910 milliamps.
Drive current 3920 mALED forward current of 3920 milliamps.
Drive current 3930 mALED forward current of 3930 milliamps.
Drive current 3940 mALED forward current of 3940 milliamps.
Drive current 3950 mALED forward current of 3950 milliamps.
Drive current 3960 mALED forward current of 3960 milliamps.
Drive current 3970 mALED forward current of 3970 milliamps.
Drive current 3980 mALED forward current of 3980 milliamps.
Drive current 3990 mALED forward current of 3990 milliamps.
Drive current 400 mALED forward current of 400 milliamps.
Drive current 4000 mALED forward current of 4000 milliamps.
Drive current 4010 mALED forward current of 4010 milliamps.
Drive current 4020 mALED forward current of 4020 milliamps.
Drive current 4030 mALED forward current of 4030 milliamps.
Drive current 4040 mALED forward current of 4040 milliamps.
Drive current 4050 mALED forward current of 4050 milliamps.
Drive current 4060 mALED forward current of 4060 milliamps.
Drive current 4070 mALED forward current of 4070 milliamps.
Drive current 4080 mALED forward current of 4080 milliamps.
Drive current 4090 mALED forward current of 4090 milliamps.
Drive current 410 mALED forward current of 410 milliamps.
Drive current 4100 mALED forward current of 4100 milliamps.
Drive current 4110 mALED forward current of 4110 milliamps.
Drive current 4120 mALED forward current of 4120 milliamps.
Drive current 4130 mALED forward current of 4130 milliamps.
Drive current 4140 mALED forward current of 4140 milliamps.
Drive current 4150 mALED forward current of 4150 milliamps.
Drive current 4160 mALED forward current of 4160 milliamps.
Drive current 4170 mALED forward current of 4170 milliamps.
Drive current 4180 mALED forward current of 4180 milliamps.
Drive current 4190 mALED forward current of 4190 milliamps.
Drive current 420 mALED forward current of 420 milliamps.
Drive current 4200 mALED forward current of 4200 milliamps.
Drive current 4210 mALED forward current of 4210 milliamps.
Drive current 4220 mALED forward current of 4220 milliamps.
Drive current 4230 mALED forward current of 4230 milliamps.
Drive current 4240 mALED forward current of 4240 milliamps.
Drive current 4250 mALED forward current of 4250 milliamps.
Drive current 4260 mALED forward current of 4260 milliamps.
Drive current 4270 mALED forward current of 4270 milliamps.
Drive current 4280 mALED forward current of 4280 milliamps.
Drive current 4290 mALED forward current of 4290 milliamps.
Drive current 430 mALED forward current of 430 milliamps.
Drive current 4300 mALED forward current of 4300 milliamps.
Drive current 4310 mALED forward current of 4310 milliamps.
Drive current 4320 mALED forward current of 4320 milliamps.
Drive current 4330 mALED forward current of 4330 milliamps.
Drive current 4340 mALED forward current of 4340 milliamps.
Drive current 4350 mALED forward current of 4350 milliamps.
Drive current 4360 mALED forward current of 4360 milliamps.
Drive current 4370 mALED forward current of 4370 milliamps.
Drive current 4380 mALED forward current of 4380 milliamps.
Drive current 4390 mALED forward current of 4390 milliamps.
Drive current 440 mALED forward current of 440 milliamps.
Drive current 4400 mALED forward current of 4400 milliamps.
Drive current 4410 mALED forward current of 4410 milliamps.
Drive current 4420 mALED forward current of 4420 milliamps.
Drive current 4430 mALED forward current of 4430 milliamps.
Drive current 4440 mALED forward current of 4440 milliamps.
Drive current 4450 mALED forward current of 4450 milliamps.
Drive current 4460 mALED forward current of 4460 milliamps.
Drive current 4470 mALED forward current of 4470 milliamps.
Drive current 4480 mALED forward current of 4480 milliamps.
Drive current 4490 mALED forward current of 4490 milliamps.
Drive current 450 mALED forward current of 450 milliamps.
Drive current 4500 mALED forward current of 4500 milliamps.
Drive current 4510 mALED forward current of 4510 milliamps.
Drive current 4520 mALED forward current of 4520 milliamps.
Drive current 4530 mALED forward current of 4530 milliamps.
Drive current 4540 mALED forward current of 4540 milliamps.
Drive current 4550 mALED forward current of 4550 milliamps.
Drive current 4560 mALED forward current of 4560 milliamps.
Drive current 4570 mALED forward current of 4570 milliamps.
Drive current 4580 mALED forward current of 4580 milliamps.
Drive current 4590 mALED forward current of 4590 milliamps.
Drive current 460 mALED forward current of 460 milliamps.
Drive current 4600 mALED forward current of 4600 milliamps.
Drive current 4610 mALED forward current of 4610 milliamps.
Drive current 4620 mALED forward current of 4620 milliamps.
Drive current 4630 mALED forward current of 4630 milliamps.
Drive current 4640 mALED forward current of 4640 milliamps.
Drive current 4650 mALED forward current of 4650 milliamps.
Drive current 4660 mALED forward current of 4660 milliamps.
Drive current 4670 mALED forward current of 4670 milliamps.
Drive current 4680 mALED forward current of 4680 milliamps.
Drive current 4690 mALED forward current of 4690 milliamps.
Drive current 470 mALED forward current of 470 milliamps.
Drive current 4700 mALED forward current of 4700 milliamps.
Drive current 4710 mALED forward current of 4710 milliamps.
Drive current 4720 mALED forward current of 4720 milliamps.
Drive current 4730 mALED forward current of 4730 milliamps.
Drive current 4740 mALED forward current of 4740 milliamps.
Drive current 4750 mALED forward current of 4750 milliamps.
Drive current 4760 mALED forward current of 4760 milliamps.
Drive current 4770 mALED forward current of 4770 milliamps.
Drive current 4780 mALED forward current of 4780 milliamps.
Drive current 4790 mALED forward current of 4790 milliamps.
Drive current 480 mALED forward current of 480 milliamps.
Drive current 4800 mALED forward current of 4800 milliamps.
Drive current 4810 mALED forward current of 4810 milliamps.
Drive current 4820 mALED forward current of 4820 milliamps.
Drive current 4830 mALED forward current of 4830 milliamps.
Drive current 4840 mALED forward current of 4840 milliamps.
Drive current 4850 mALED forward current of 4850 milliamps.
Drive current 4860 mALED forward current of 4860 milliamps.
Drive current 4870 mALED forward current of 4870 milliamps.
Drive current 4880 mALED forward current of 4880 milliamps.
Drive current 4890 mALED forward current of 4890 milliamps.
Drive current 490 mALED forward current of 490 milliamps.
Drive current 4900 mALED forward current of 4900 milliamps.
Drive current 4910 mALED forward current of 4910 milliamps.
Drive current 4920 mALED forward current of 4920 milliamps.
Drive current 4930 mALED forward current of 4930 milliamps.
Drive current 4940 mALED forward current of 4940 milliamps.
Drive current 4950 mALED forward current of 4950 milliamps.
Drive current 4960 mALED forward current of 4960 milliamps.
Drive current 4970 mALED forward current of 4970 milliamps.
Drive current 4980 mALED forward current of 4980 milliamps.
Drive current 4990 mALED forward current of 4990 milliamps.
Drive current 50 mALED forward current of 50 milliamps.
Drive current 500 mALED forward current of 500 milliamps.
Drive current 5000 mALED forward current of 5000 milliamps.
Drive current 510 mALED forward current of 510 milliamps.
Drive current 520 mALED forward current of 520 milliamps.
Drive current 530 mALED forward current of 530 milliamps.
Drive current 540 mALED forward current of 540 milliamps.
Drive current 550 mALED forward current of 550 milliamps.
Drive current 560 mALED forward current of 560 milliamps.
Drive current 570 mALED forward current of 570 milliamps.
Drive current 580 mALED forward current of 580 milliamps.
Drive current 590 mALED forward current of 590 milliamps.
Drive current 60 mALED forward current of 60 milliamps.
Drive current 600 mALED forward current of 600 milliamps.
Drive current 610 mALED forward current of 610 milliamps.
Drive current 620 mALED forward current of 620 milliamps.
Drive current 630 mALED forward current of 630 milliamps.
Drive current 640 mALED forward current of 640 milliamps.
Drive current 650 mALED forward current of 650 milliamps.
Drive current 660 mALED forward current of 660 milliamps.
Drive current 670 mALED forward current of 670 milliamps.
Drive current 680 mALED forward current of 680 milliamps.
Drive current 690 mALED forward current of 690 milliamps.
Drive current 70 mALED forward current of 70 milliamps.
Drive current 700 mALED forward current of 700 milliamps.
Drive current 710 mALED forward current of 710 milliamps.
Drive current 720 mALED forward current of 720 milliamps.
Drive current 730 mALED forward current of 730 milliamps.
Drive current 740 mALED forward current of 740 milliamps.
Drive current 750 mALED forward current of 750 milliamps.
Drive current 760 mALED forward current of 760 milliamps.
Drive current 770 mALED forward current of 770 milliamps.
Drive current 780 mALED forward current of 780 milliamps.
Drive current 790 mALED forward current of 790 milliamps.
Drive current 80 mALED forward current of 80 milliamps.
Drive current 800 mALED forward current of 800 milliamps.
Drive current 810 mALED forward current of 810 milliamps.
Drive current 820 mALED forward current of 820 milliamps.
Drive current 830 mALED forward current of 830 milliamps.
Drive current 840 mALED forward current of 840 milliamps.
Drive current 850 mALED forward current of 850 milliamps.
Drive current 860 mALED forward current of 860 milliamps.
Drive current 870 mALED forward current of 870 milliamps.
Drive current 880 mALED forward current of 880 milliamps.
Drive current 890 mALED forward current of 890 milliamps.
Drive current 90 mALED forward current of 90 milliamps.
Drive current 900 mALED forward current of 900 milliamps.
Drive current 910 mALED forward current of 910 milliamps.
Drive current 920 mALED forward current of 920 milliamps.
Drive current 930 mALED forward current of 930 milliamps.
Drive current 940 mALED forward current of 940 milliamps.
Drive current 950 mALED forward current of 950 milliamps.
Drive current 960 mALED forward current of 960 milliamps.
Drive current 970 mALED forward current of 970 milliamps.
Drive current 980 mALED forward current of 980 milliamps.
Drive current 990 mALED forward current of 990 milliamps.
Driver (Class 2 / Limited Power Source)Driver with output limited to 60 V DC / 5 A for safety.
Driver (constant current)Driver maintaining fixed output current regardless of load.
Driver (constant voltage)Driver delivering a fixed output voltage.
Driver (dimmable)Driver supporting luminous-intensity regulation.
Driver (emergency)Driver with integral battery for emergency illumination.
Driver (flicker-free)Driver engineered to eliminate output ripple and visible flicker.
Driver (integrated)Power circuitry built into the LED module or luminaire.
Driver (IP20)Indoor-rated driver without moisture protection.
Driver (IP67)Fully sealed driver rated against dust and temporary immersion.
Driver (LED)Electronic PSU for LEDs, regulating current and/or voltage.
Driver (linear / AC-direct)Simple resistive or capacitive driver for mains-voltage LED modules.
Driver (Mean Well ELG series)Popular Mean Well outdoor LED driver series with IP67 rating.
Driver (Mean Well HLG series)Mean Well high-bay and industrial LED driver series.
Driver (Mean Well LPV series)Economy Mean Well constant-voltage LED driver series.
Driver (Mean Well NPF series)Compact Mean Well constant-current or constant-voltage driver series.
Driver (Mean Well XLG series)Mean Well driver series with adjustable output current via DIP switch.
Driver (multi-channel)Driver with multiple independent outputs for different LED groups.
Driver (non-dimmable)Driver without dimming capability, operating at fixed output.
Driver (programmable / NFC)Driver with parameters configurable via NFC, DALI or software.
Driver (redundant)Dual-driver configuration ensuring continuity if one fails.
Driver (slim / low-profile)Ultra-thin driver for space-constrained installations.
Driver (switching)High-frequency, high-efficiency converter; the standard for professional LED.
Driver (TRIAC-dimmable)Driver compatible with conventional TRIAC phase-cut dimmers.
Driver 10 WLED power supply rated at 10 watts maximum output.
Driver 100 WLED power supply rated at 100 watts maximum output.
Driver 1000 WLED power supply rated at 1000 watts maximum output.
Driver 12 WLED power supply rated at 12 watts maximum output.
Driver 120 WLED power supply rated at 120 watts maximum output.
Driver 1200 WLED power supply rated at 1200 watts maximum output.
Driver 132 WLED power supply rated at 132 watts maximum output.
Driver 15 WLED power supply rated at 15 watts maximum output.
Driver 150 WLED power supply rated at 150 watts maximum output.
Driver 18 WLED power supply rated at 18 watts maximum output.
Driver 180 WLED power supply rated at 180 watts maximum output.
Driver 185 WLED power supply rated at 185 watts maximum output.
Driver 20 WLED power supply rated at 20 watts maximum output.
Driver 200 WLED power supply rated at 200 watts maximum output.
Driver 24 WLED power supply rated at 24 watts maximum output.
Driver 240 WLED power supply rated at 240 watts maximum output.
Driver 25 WLED power supply rated at 25 watts maximum output.
Driver 250 WLED power supply rated at 250 watts maximum output.
Driver 3 WLED power supply rated at 3 watts maximum output.
Driver 30 WLED power supply rated at 30 watts maximum output.
Driver 300 WLED power supply rated at 300 watts maximum output.
Driver 320 WLED power supply rated at 320 watts maximum output.
Driver 35 WLED power supply rated at 35 watts maximum output.
Driver 350 WLED power supply rated at 350 watts maximum output.
Driver 36 WLED power supply rated at 36 watts maximum output.
Driver 360 WLED power supply rated at 360 watts maximum output.
Driver 40 WLED power supply rated at 40 watts maximum output.
Driver 400 WLED power supply rated at 400 watts maximum output.
Driver 45 WLED power supply rated at 45 watts maximum output.
Driver 480 WLED power supply rated at 480 watts maximum output.
Driver 5 WLED power supply rated at 5 watts maximum output.
Driver 50 WLED power supply rated at 50 watts maximum output.
Driver 500 WLED power supply rated at 500 watts maximum output.
Driver 6 WLED power supply rated at 6 watts maximum output.
Driver 60 WLED power supply rated at 60 watts maximum output.
Driver 600 WLED power supply rated at 600 watts maximum output.
Driver 700 WLED power supply rated at 700 watts maximum output.
Driver 72 WLED power supply rated at 72 watts maximum output.
Driver 720 WLED power supply rated at 720 watts maximum output.
Driver 75 WLED power supply rated at 75 watts maximum output.
Driver 8 WLED power supply rated at 8 watts maximum output.
Driver 80 WLED power supply rated at 80 watts maximum output.
Driver 800 WLED power supply rated at 800 watts maximum output.
Driver 96 WLED power supply rated at 96 watts maximum output.
Driver 960 WLED power supply rated at 960 watts maximum output.
Driver feature (0-10V dimmable)LED driver with 0-10V dimmable capability for professional installations.
Driver feature (1-10V dimmable)LED driver with 1-10V dimmable capability for professional installations.
Driver feature (adjustable output current)LED driver with adjustable output current capability for professional installations.
Driver feature (Bluetooth dimmable)LED driver with Bluetooth dimmable capability for professional installations.
Driver feature (built-in emergency)LED driver with built-in emergency capability for professional installations.
Driver feature (Casambi enabled)LED driver with Casambi enabled capability for professional installations.
Driver feature (Class II double insulated)LED driver with Class II double insulated capability for professional installations.
Driver feature (constant-power mode)LED driver with constant-power mode capability for professional installations.
Driver feature (corridor function)LED driver with corridor function capability for professional installations.
Driver feature (DALI broadcast dimming)LED driver with DALI broadcast dimming capability for professional installations.
Driver feature (DALI dimmable)LED driver with DALI dimmable capability for professional installations.
Driver feature (DALI DT8 colour)LED driver with DALI DT8 colour capability for professional installations.
Driver feature (DALI-2 certified)LED driver with DALI-2 certified capability for professional installations.
Driver feature (DIN-rail mount)LED driver with DIN-rail mount capability for professional installations.
Driver feature (DIP-switch configurable)LED driver with DIP-switch configurable capability for professional installations.
Driver feature (DMX dimmable)LED driver with DMX dimmable capability for professional installations.
Driver feature (dual output)LED driver with dual output capability for professional installations.
Driver feature (efficiency above 93%)LED driver with efficiency above 93% capability for professional installations.
Driver feature (fan cooled)LED driver with fan cooled capability for professional installations.
Driver feature (flicker-free)LED driver with flicker-free capability for professional installations.
Driver feature (IP20 indoor)LED driver with IP20 indoor capability for professional installations.
Driver feature (IP44 damp rated)LED driver with IP44 damp rated capability for professional installations.
Driver feature (IP65 outdoor)LED driver with IP65 outdoor capability for professional installations.
Driver feature (IP67 waterproof)LED driver with IP67 waterproof capability for professional installations.
Driver feature (KNX compatible)LED driver with KNX compatible capability for professional installations.
Driver feature (linear dimming curve)LED driver with linear dimming curve capability for professional installations.
Driver feature (logarithmic dimming curve)LED driver with logarithmic dimming curve capability for professional installations.
Driver feature (Matter compatible)LED driver with Matter compatible capability for professional installations.
Driver feature (NFC programmable)LED driver with NFC programmable capability for professional installations.
Driver feature (non-dimmable)LED driver with non-dimmable capability for professional installations.
Driver feature (panel mount)LED driver with panel mount capability for professional installations.
Driver feature (PFC above 0.95)LED driver with PFC above 0.95 capability for professional installations.
Driver feature (phase-cut dimmable)LED driver with phase-cut dimmable capability for professional installations.
Driver feature (potted encapsulated)LED driver with potted encapsulated capability for professional installations.
Driver feature (programmable via app)LED driver with programmable via app capability for professional installations.
Driver feature (push-dim)LED driver with push-dim capability for professional installations.
Driver feature (PWM output)LED driver with PWM output capability for professional installations.
Driver feature (S-curve dimming)LED driver with S-curve dimming capability for professional installations.
Driver feature (slim profile)LED driver with slim profile capability for professional installations.
Driver feature (staircase timer)LED driver with staircase timer capability for professional installations.
Driver feature (sunrise/sunset timer)LED driver with sunrise/sunset timer capability for professional installations.
Driver feature (surge protected 4 kV)LED driver with surge protected 4 kV capability for professional installations.
Driver feature (surge protected 6 kV)LED driver with surge protected 6 kV capability for professional installations.
Driver feature (THD below 10%)LED driver with THD below 10% capability for professional installations.
Driver feature (thermal derating protection)LED driver with thermal derating protection capability for professional installations.
Driver feature (Thread compatible)LED driver with Thread compatible capability for professional installations.
Driver feature (TRIAC compatible)LED driver with TRIAC compatible capability for professional installations.
Driver feature (Zhaga D4i)LED driver with Zhaga D4i capability for professional installations.
Driver feature (Zigbee enabled)LED driver with Zigbee enabled capability for professional installations.
Driver manufacturer (BAG Electronics)BAG Electronics, professional LED driver manufacturer.
Driver manufacturer (Bincolor)Bincolor, professional LED driver manufacturer.
Driver manufacturer (Delta Electronics)Delta Electronics, professional LED driver manufacturer.
Driver manufacturer (Eaglerise)Eaglerise, professional LED driver manufacturer.
Driver manufacturer (Eldoled)Eldoled, professional LED driver manufacturer.
Driver manufacturer (ELT)ELT, professional LED driver manufacturer.
Driver manufacturer (ERP Power)ERP Power, professional LED driver manufacturer.
Driver manufacturer (Fulham)Fulham, professional LED driver manufacturer.
Driver manufacturer (Harvard Engineering)Harvard Engineering, professional LED driver manufacturer.
Driver manufacturer (Helvar)Helvar, professional LED driver manufacturer.
Driver manufacturer (HEP)HEP, professional LED driver manufacturer.
Driver manufacturer (Inventronics)Inventronics, professional LED driver manufacturer.
Driver manufacturer (LIFUD)LIFUD, professional LED driver manufacturer.
Driver manufacturer (LTECH)LTECH, professional LED driver manufacturer.
Driver manufacturer (Lumotech)Lumotech, professional LED driver manufacturer.
Driver manufacturer (Mean Well)Mean Well, professional LED driver manufacturer.
Driver manufacturer (Moso)Moso, professional LED driver manufacturer.
Driver manufacturer (Osram Optotronic)Osram Optotronic, professional LED driver manufacturer.
Driver manufacturer (Philips Certadrive)Philips Certadrive, professional LED driver manufacturer.
Driver manufacturer (Philips Xitanium)Philips Xitanium, professional LED driver manufacturer.
Driver manufacturer (Self Electronics)Self Electronics, professional LED driver manufacturer.
Driver manufacturer (Skydance)Skydance, professional LED driver manufacturer.
Driver manufacturer (Snappy)Snappy, professional LED driver manufacturer.
Driver manufacturer (Sosen)Sosen, professional LED driver manufacturer.
Driver manufacturer (SP (Signal Processor))SP (Signal Processor), professional LED driver manufacturer.
Driver manufacturer (Sunricher)Sunricher, professional LED driver manufacturer.
Driver manufacturer (TCI)TCI, professional LED driver manufacturer.
Driver manufacturer (Tridonic LCA)Tridonic LCA, professional LED driver manufacturer.
Driver manufacturer (Tridonic LCO)Tridonic LCO, professional LED driver manufacturer.
Driver manufacturer (Tridonic)Tridonic, professional LED driver manufacturer.
Driver manufacturer (Vossloh-Schwabe)Vossloh-Schwabe, professional LED driver manufacturer.
Driver output 100 mAConstant-current LED driver delivering 100 milliamps.
Driver output 1000 mAConstant-current LED driver delivering 1000 milliamps.
Driver output 1050 mAConstant-current LED driver delivering 1050 milliamps.
Driver output 1200 mAConstant-current LED driver delivering 1200 milliamps.
Driver output 1400 mAConstant-current LED driver delivering 1400 milliamps.
Driver output 150 mAConstant-current LED driver delivering 150 milliamps.
Driver output 1500 mAConstant-current LED driver delivering 1500 milliamps.
Driver output 1750 mAConstant-current LED driver delivering 1750 milliamps.
Driver output 200 mAConstant-current LED driver delivering 200 milliamps.
Driver output 2000 mAConstant-current LED driver delivering 2000 milliamps.
Driver output 2100 mAConstant-current LED driver delivering 2100 milliamps.
Driver output 2400 mAConstant-current LED driver delivering 2400 milliamps.
Driver output 250 mAConstant-current LED driver delivering 250 milliamps.
Driver output 2800 mAConstant-current LED driver delivering 2800 milliamps.
Driver output 300 mAConstant-current LED driver delivering 300 milliamps.
Driver output 3000 mAConstant-current LED driver delivering 3000 milliamps.
Driver output 350 mAConstant-current LED driver delivering 350 milliamps.
Driver output 3500 mAConstant-current LED driver delivering 3500 milliamps.
Driver output 400 mAConstant-current LED driver delivering 400 milliamps.
Driver output 4000 mAConstant-current LED driver delivering 4000 milliamps.
Driver output 4200 mAConstant-current LED driver delivering 4200 milliamps.
Driver output 450 mAConstant-current LED driver delivering 450 milliamps.
Driver output 500 mAConstant-current LED driver delivering 500 milliamps.
Driver output 550 mAConstant-current LED driver delivering 550 milliamps.
Driver output 600 mAConstant-current LED driver delivering 600 milliamps.
Driver output 650 mAConstant-current LED driver delivering 650 milliamps.
Driver output 700 mAConstant-current LED driver delivering 700 milliamps.
Driver output 750 mAConstant-current LED driver delivering 750 milliamps.
Driver output 800 mAConstant-current LED driver delivering 800 milliamps.
Driver output 900 mAConstant-current LED driver delivering 900 milliamps.
Droop (efficiency)Reduction in LED quantum efficiency at high drive currents.
Drop ceilingSuspended ceiling system providing a cavity for recessed LED profiles.
Dry contactVoltage-free relay output used to trigger lighting scenes.
Dry locationRating for dry environments requiring minimum IP20.
Dry-film lubricantPTFE or graphite spray easing cover insertion into tight profile channels.
Dual-circuit trackElectrified track with two independent power circuits for scene flexibility.
Dual-driver systemTwo independent drivers in one luminaire for tunable-white or emergency function.
Dual-white stripStrip with warm-white and cool-white LEDs for tunable-white operation.
Duct (cable)Enclosed channel for routing power and signal cables.
DurabilityAbility of a product to maintain performance over time under specified conditions.
Dust-proofFirst IP digit of 5 or 6 providing protection against dust ingress.
Dust-tightFirst IP digit 6, meaning no ingress of dust.
Duty cycleRatio of on-time to total period in a PWM signal.
Dynamic sceneLighting preset that changes over time, e.g. a sunrise or colour cycle.
Dynamic whiteSynonym for tunable white; dynamic adjustment of colour temperature.

Back to index

E

E14 baseSmall Edison screw lamp base, 14 mm diameter.
E27 baseStandard Edison screw lamp base, 27 mm diameter.
Earth (protective)Safety connection to ground preventing electric shock.
Earth leakageUnintended current flowing to earth, detected by RCDs.
Earth-continuity testVerification that the protective earth path has low impedance.
Earthing strapFlexible copper braid maintaining earth continuity across a movable joint.
Eco-designDesign approach minimising environmental impact throughout the product lifecycle.
Economy-7 timerOff-peak tariff timer sometimes used to schedule overnight LED signage.
Edge lightingIllumination from the edge of a panel for thin back-lit applications.
Edge-lit LED panelFlat panel with LEDs around the perimeter feeding a light-guide plate.
Effect (aurora borealis)Dynamic LED animation effect: aurora borealis.
Effect (breathing pulse)Dynamic LED animation effect: breathing pulse.
Effect (canal / channel)Brightness or colour variation along a strip inside a profile.
Effect (candle simulation)Dynamic LED animation effect: candle simulation.
Effect (cascade)Sequential animation simulating a water-cascade movement.
Effect (chase left)Dynamic LED animation effect: chase left.
Effect (chase right)Dynamic LED animation effect: chase right.
Effect (chase)Moving light pattern running along an addressable strip.
Effect (colour bounce)Dynamic LED animation effect: colour bounce.
Effect (colour fade)Dynamic LED animation effect: colour fade.
Effect (colour jump)Dynamic LED animation effect: colour jump.
Effect (colour wheel)Dynamic LED animation effect: colour wheel.
Effect (colour-cycle)Automatic smooth cycling through a range of colours.
Effect (comet / shooting star)Animated LED effect resembling a moving bright point with a trailing tail.
Effect (comet tail)Dynamic LED animation effect: comet tail.
Effect (confetti sparkle)Dynamic LED animation effect: confetti sparkle.
Effect (corona)Luminous halo around an architectural element via indirect light.
Effect (crossfade fast)Dynamic LED animation effect: crossfade fast.
Effect (crossfade slow)Dynamic LED animation effect: crossfade slow.
Effect (digital rain)Dynamic LED animation effect: digital rain.
Effect (fade)Gradual transition between two brightness or colour levels.
Effect (fire / flame)Dynamic LED effect replicating the flicker and colour of a flame.
Effect (fire ember)Dynamic LED animation effect: fire ember.
Effect (firework burst)Dynamic LED animation effect: firework burst.
Effect (flicker)Rapid luminous variation caused by ripple in the drive current.
Effect (flowing water)Dynamic LED animation effect: flowing water.
Effect (gradient / ombré)Progressive colour or brightness change along the strip length.
Effect (gradient sweep)Dynamic LED animation effect: gradient sweep.
Effect (halo)Ring of light around the main beam from diffusion or reflection.
Effect (heartbeat pulse)Dynamic LED animation effect: heartbeat pulse.
Effect (lightning flash)Dynamic LED animation effect: lightning flash.
Effect (marquee scroll)Dynamic LED animation effect: marquee scroll.
Effect (meteor shower)Dynamic LED animation effect: meteor shower.
Effect (morse code)Dynamic LED animation effect: morse code.
Effect (ocean wave)Dynamic LED animation effect: ocean wave.
Effect (pixel rain)Dynamic LED animation effect: pixel rain.
Effect (pixel)Visibility of individual LEDs through the diffuser, to be avoided.
Effect (plasma)Dynamic LED animation effect: plasma.
Effect (police flash)Dynamic LED animation effect: police flash.
Effect (pulsating glow)Dynamic LED animation effect: pulsating glow.
Effect (rainbow cycle)Dynamic LED animation effect: rainbow cycle.
Effect (rainbow)Colourful gradient on addressable strips running dynamic effects.
Effect (random colour)Dynamic LED animation effect: random colour.
Effect (random sparkle)Dynamic LED animation effect: random sparkle.
Effect (ripple outward)Dynamic LED animation effect: ripple outward.
Effect (running dot)Dynamic LED animation effect: running dot.
Effect (scanning bar)Dynamic LED animation effect: scanning bar.
Effect (shooting star)Dynamic LED animation effect: shooting star.
Effect (sine wave)Dynamic LED animation effect: sine wave.
Effect (snake)Dynamic LED animation effect: snake.
Effect (sound reactive)Dynamic LED animation effect: sound reactive.
Effect (sparkle)Randomly twinkling LEDs creating a starry appearance.
Effect (spiral)Dynamic LED animation effect: spiral.
Effect (stack fill)Dynamic LED animation effect: stack fill.
Effect (static colour)Dynamic LED animation effect: static colour.
Effect (strobe 10Hz)Dynamic LED animation effect: strobe 10Hz.
Effect (strobe 1Hz)Dynamic LED animation effect: strobe 1Hz.
Effect (strobe 25Hz)Dynamic LED animation effect: strobe 25Hz.
Effect (strobe 5Hz)Dynamic LED animation effect: strobe 5Hz.
Effect (stroboscopic)Moving objects appearing stationary due to high-frequency flicker.
Effect (sunrise / sunset)Gradual warm-up or cool-down of CCT and brightness mimicking natural daylight.
Effect (sunrise gradient)Dynamic LED animation effect: sunrise gradient.
Effect (sunset gradient)Dynamic LED animation effect: sunset gradient.
Effect (theatre chase)Classic alternating-group chase pattern used in entertainment lighting.
Effect (twinkle random)Dynamic LED animation effect: twinkle random.
Effect (twinkle warm white)Dynamic LED animation effect: twinkle warm white.
Effect (twinkle)Random subtle brightness variations on individual pixels.
Effect (USA flag)Dynamic LED animation effect: USA flag.
Effect (wall-wash)Uniform illumination of an entire wall surface.
Effect (wave crest)Dynamic LED animation effect: wave crest.
Effect (wave)Smooth brightness undulation travelling along an addressable strip.
Effect (Xmas alternate)Dynamic LED animation effect: Xmas alternate.
Efficacy (luminous)Ratio of flux to power, in lumens per watt (lm/W).
Efficacy (wall-plug)Overall efficiency from electrical input to emitted light, including all losses.
Efficacy 100 lm/WLED system achieving 100 lumens per watt luminous efficacy.
Efficacy 105 lm/WLED system achieving 105 lumens per watt luminous efficacy.
Efficacy 110 lm/WLED system achieving 110 lumens per watt luminous efficacy.
Efficacy 115 lm/WLED system achieving 115 lumens per watt luminous efficacy.
Efficacy 120 lm/WLED system achieving 120 lumens per watt luminous efficacy.
Efficacy 125 lm/WLED system achieving 125 lumens per watt luminous efficacy.
Efficacy 130 lm/WLED system achieving 130 lumens per watt luminous efficacy.
Efficacy 135 lm/WLED system achieving 135 lumens per watt luminous efficacy.
Efficacy 140 lm/WLED system achieving 140 lumens per watt luminous efficacy.
Efficacy 145 lm/WLED system achieving 145 lumens per watt luminous efficacy.
Efficacy 150 lm/WLED system achieving 150 lumens per watt luminous efficacy.
Efficacy 155 lm/WLED system achieving 155 lumens per watt luminous efficacy.
Efficacy 160 lm/WLED system achieving 160 lumens per watt luminous efficacy.
Efficacy 165 lm/WLED system achieving 165 lumens per watt luminous efficacy.
Efficacy 170 lm/WLED system achieving 170 lumens per watt luminous efficacy.
Efficacy 175 lm/WLED system achieving 175 lumens per watt luminous efficacy.
Efficacy 180 lm/WLED system achieving 180 lumens per watt luminous efficacy.
Efficacy 185 lm/WLED system achieving 185 lumens per watt luminous efficacy.
Efficacy 190 lm/WLED system achieving 190 lumens per watt luminous efficacy.
Efficacy 195 lm/WLED system achieving 195 lumens per watt luminous efficacy.
Efficacy 200 lm/WLED system achieving 200 lumens per watt luminous efficacy.
Efficacy 205 lm/WLED system achieving 205 lumens per watt luminous efficacy.
Efficacy 210 lm/WLED system achieving 210 lumens per watt luminous efficacy.
Efficacy 215 lm/WLED system achieving 215 lumens per watt luminous efficacy.
Efficacy 220 lm/WLED system achieving 220 lumens per watt luminous efficacy.
Efficacy 225 lm/WLED system achieving 225 lumens per watt luminous efficacy.
Efficacy 230 lm/WLED system achieving 230 lumens per watt luminous efficacy.
Efficacy 235 lm/WLED system achieving 235 lumens per watt luminous efficacy.
Efficacy 240 lm/WLED system achieving 240 lumens per watt luminous efficacy.
Efficacy 245 lm/WLED system achieving 245 lumens per watt luminous efficacy.
Efficacy 250 lm/WLED system achieving 250 lumens per watt luminous efficacy.
Efficacy 60 lm/WLED system achieving 60 lumens per watt luminous efficacy.
Efficacy 65 lm/WLED system achieving 65 lumens per watt luminous efficacy.
Efficacy 70 lm/WLED system achieving 70 lumens per watt luminous efficacy.
Efficacy 75 lm/WLED system achieving 75 lumens per watt luminous efficacy.
Efficacy 80 lm/WLED system achieving 80 lumens per watt luminous efficacy.
Efficacy 85 lm/WLED system achieving 85 lumens per watt luminous efficacy.
Efficacy 90 lm/WLED system achieving 90 lumens per watt luminous efficacy.
Efficacy 95 lm/WLED system achieving 95 lumens per watt luminous efficacy.
Efficacy targetDesign specification for minimum lm/W to meet energy-code requirements.
Efficiency (driver)Ratio of output to input power of the LED driver.
Efficiency (energy)Ability of an LED system to convert electrical energy into useful light.
Efficiency (optical)Percentage of LED-emitted light that exits the luminaire.
Efficiency (quantum)Ratio of emitted photons to injected electrons in the LED chip.
Efficiency (system)Overall efficacy including driver, optical and thermal losses.
ElastomerElastic polymer for IP gaskets and flexible covers.
Electrical panelEnclosure housing power supplies, controllers and protection devices.
ElectroluminescenceLight emission from a semiconductor when current flows through it.
Electromagnetic Compatibility (EMC)Ability to function without causing or suffering interference.
Electromagnetic Interference (EMI)Disturbance that may affect other devices, governed by EMC standards.
Ellipse (MacAdam)Chromaticity region within which colour differences are imperceptible.
ELV (Extra Low Voltage)Voltage ≤ 50 V AC or ≤ 120 V DC, common for LED strip circuits.
Embedded driverLED driver built into the luminaire body, not field-replaceable.
Embedded sensorOccupancy or daylight sensor integrated into the luminaire housing.
Embodied carbon LED profileCO2 released during aluminium extraction, smelting and extrusion before the LED profile is installed; using recycled aluminium can reduce embodied carbon by up to 95%.
Emergency conversion kitComponents for converting a standard LED luminaire to emergency operation.
Emergency exit signIlluminated sign indicating the location of an emergency exit, often LED.
Emergency lightingSelf-contained system ensuring illumination during mains failure.
Emergency lighting (escape route)Luminaires guiding occupants safely to exits during power failure.
Emergency lighting (high-risk task)Emergency illumination for hazardous processes requiring continued visibility.
Emergency lighting (standby)Emergency lights remaining on after mains failure to allow normal activities.
Emergency test buttonManual switch initiating a functional test of emergency battery and lamp.
Emergency test logRecord of periodic emergency-luminaire tests, required by fire regulations.
Emission (direct)Light reaching the surface directly from the source.
Emission (indirect)Light reaching the zone after ceiling or wall reflection.
Emission (lateral / side)Light exiting from profile sides for decorative or step-marker effects.
Emission (UV)Ultraviolet component, negligible in modern white LEDs.
Emission 380 nmLED spectral emission at 380 nanometres wavelength.
Emission 381 nmLED spectral emission at 381 nanometres wavelength.
Emission 382 nmLED spectral emission at 382 nanometres wavelength.
EmissivityAbility of a surface to radiate thermal energy, relevant for heat-sink coatings.
Emissivity coatingBlack or dark coating on a heat sink maximising infrared radiation.
EN 12193Sports lighting.
EN 12464-1European standard for indoor workplace lighting requirements.
EN 12464-2European standard for outdoor workplace lighting requirements.
EN 12665Basic lighting terms.
EN 13032Photometric data measurement.
EN 13201European standard for road and outdoor-space lighting.
EN 15193European standard for the energy performance of lighting in buildings.
EN 1838European standard for emergency lighting design.
EN 40Lighting columns.
EN 50171Central emergency power supply.
EN 50172Emergency escape lighting systems.
EN 55015EMC emission limits for lighting.
EN 60061Lamp caps and holders.
EN 60529Standard defining IP (International Protection) ratings.
EN 60598European safety standard for luminaires.
EN 60598-1Luminaire safety: general.
EN 60598-2-1Fixed general-purpose luminaires.
EN 60598-2-13Ground-recessed luminaires.
EN 60598-2-2Recessed luminaires.
EN 60598-2-22Emergency luminaires.
EN 60598-2-3Road luminaires.
EN 60598-2-4Safety standard for portable general-purpose luminaires.
EN 60598-2-5Floodlights.
EN 60598-2-7Safety standard for garden luminaires.
EN 61000Series of standards on electromagnetic compatibility (EMC).
EN 61000-3-2Harmonic current limits.
EN 61000-3-3Voltage fluctuation limits.
EN 61000-4-2ESD immunity.
EN 61000-4-5Surge immunity.
EN 61347Safety standard for lamp control gear (LED drivers).
EN 61347-1Lamp control gear safety: general.
EN 61347-2-13LED driver safety.
EN 61547EMC immunity for lighting.
EN 62031Safety standard for LED modules for general lighting.
EN 62384Electronic control gear for LED modules.
EN 62471Standard on photobiological safety of light sources and luminaires.
EN 62560Self-ballasted LED lamps.
EN 62717Performance standard for LED modules for general lighting.
EN 62722Performance standard for LED luminaires for general lighting.
EncapsulantProtective material (silicone, resin) encasing the LED die.
EnclosureHousing or cabinet containing electrical components of an LED system.
Enclosure rating (NEMA)North American standard for electrical-enclosure environmental protection.
End capAccessory closing profile ends, with or without a cable-entry hole.
End cap (solid / blank)End cap without openings for aesthetic profile closure.
End cap (with hole)End cap with an opening for the power cable.
End-feedPower injected at one end of a strip run.
End-of-lifePoint at which the LED reaches its useful-life limit (L70 or L80).
End-of-line resistorTermination resistor at the last device on a DMX or DALI bus.
Energy auditAssessment of building energy use identifying LED-upgrade opportunities.
Energy benchmarkkWh/m²/year target for lighting in a building type.
Energy classEU A-to-G classification of luminaire energy efficiency.
Energy class AEU energy label classification A for LED luminaires.
Energy class BEU energy label classification B for LED luminaires.
Energy class CEU energy label classification C for LED luminaires.
Energy class DEU energy label classification D for LED luminaires.
Energy class EEU energy label classification E for LED luminaires.
Energy class FEU energy label classification F for LED luminaires.
Energy class GEU energy label classification G for LED luminaires.
Energy code complianceMeeting local energy regulations through efficient LED design.
Energy density (battery)Wh/kg of an emergency-luminaire battery, affecting size and weight.
Energy harvestingCapturing ambient energy (light, vibration) to power wireless sensors.
Energy labelEU regulation label showing the energy class of a lighting product.
Energy monitoring moduleDevice logging real-time power consumption of an LED installation.
Energy payback LED retrofitTime for LED energy savings to offset manufacturing embodied energy, typically 6-18 months depending on operating hours and the efficiency of the replaced technology.
Energy payback periodTime until LED energy savings offset the initial investment.
Energy rebateUtility incentive payment for installing qualifying energy-efficient LED products.
Energy recovery ventilationHVAC system sometimes integrated with luminaire air-handling features.
Energy starUS EPA programme certifying energy-efficient lighting products.
Engineered timber ceilingWood ceiling structure into which LED profiles are integrated.
EnOceanEnergy-harvesting wireless protocol for lighting sensors and actuators.
Environment (corrosive)Setting with chemicals or salt air requiring specially protected luminaires.
Environmental testLaboratory test subjecting luminaires to temperature, humidity and vibration.
EPBD (Energy Performance of Buildings Directive)EU directive including lighting energy requirements.
EPD LED luminaireISO 14025 Environmental Product Declaration quantifying environmental impacts across the product lifecycle, enabling objective comparison between competing LED solutions.
EPDMSynthetic rubber for IP-sealing gaskets in outdoor profiles.
EpitaxyCrystal-growth process for manufacturing LED wafers (MOCVD, MBE).
Equalisation chargePeriodic overcharge of emergency batteries to balance cell voltages.
Equipment earthProtective conductor connected to exposed metal parts of a luminaire.
Equivalent melanopic lux (EML)Illuminance weighted by the melanopic sensitivity curve for HCL design.
ERPEU directive setting eco-design requirements for energy-related products.
Escape-route lightingEmergency lights illuminating paths to exits during power failure.
Escape-route signageIlluminated pictogram signs guiding occupants to exits during emergencies.
ESD (Electrostatic Discharge)Sudden flow of static electricity that can damage sensitive LED components.
ESD protectionDesign measures and components safeguarding LEDs from electrostatic damage.
ESD-safe workstationAnti-static bench for handling sensitive LED components.
Estimated useful lifeProjected operating hours based on LM-80 data and TM-21 extrapolation.
EthernetWired network for lighting protocols (Art-Net, sACN, KNXnet/IP).
Ethernet backboneHigh-speed network connecting lighting gateways and controllers over IP.
Etiquette (energy)Common term for the EU energy label affixed to lighting products.
EULUMDATEuropean standard file format (.ldt) for luminaire photometric data.
Evacuation lightingHigh-intensity emergency illumination for immediate building evacuation.
Evaluation (post-installation)Site measurement verifying that the installed lighting meets design targets.
Event triggerCondition (motion, schedule, alarm) that initiates a lighting-scene change.
Excess heatThermal energy beyond what the heat sink can dissipate, requiring derating.
Excitation wavelengthWavelength of light (typically blue) that activates the phosphor layer.
Exhaust ventilation luminaireLuminaire doubling as an air-extraction point in kitchen or lab ceilings.
Exit sign (photoluminescent)Non-electric sign using glow-in-the-dark material, supplementing LED versions.
Expansion (thermal)Dimensional change of materials with temperature, critical for long profile runs.
Expansion gapSmall space left between profile lengths to accommodate thermal expansion.
Explosion-proof fittingLuminaire or junction box certified for use in ATEX/IECEx hazardous zones.
Explosion-proof luminaireLuminaire rated for use in hazardous (ATEX / IECEx) atmospheres.
Extended warrantyManufacturer warranty beyond the standard period, often 7-10 years for LED.
External driverLED driver housed separately from the luminaire for easier thermal management.
Extraction rateSpeed at which the heat sink removes thermal energy from the LED junction.
ExtrusionProcess forcing heated aluminium through a die to form a profile.
Extrusion (co-extrusion)Simultaneous extrusion of two materials, e.g. aluminium body and plastic cover guide.
Extrusion (silicone)Process for producing flexible silicone profiles for neon-flex applications.
Extrusion dieHardened steel tool defining the cross-sectional shape of the aluminium profile.
Eye boltThreaded fastener with a loop head used for suspending luminaires.
Eye comfortLuminaire rating indicating low glare and flicker for visual wellbeing.
Eye-bolt mountingSuspension point using a threaded eye bolt rated for the luminaire weight.
Eyelet (wiring)Ring crimp terminal for bolt connections in LED power wiring.

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F

F-mark (furniture rated)UL marking indicating a driver is suitable for installation inside furniture.
facade grazing techniqueLinear outdoor LEDs at building base or roofline graze the facade surface, revealing material textures and architectural mouldings after dark.
Facade media screenLarge-scale LED pixel matrix mounted on a building facade for dynamic content.
Factory acceptance test (FAT)Pre-shipment verification of luminaire performance at the factory.
Fade timeDuration of a gradual transition between two luminous or colour levels.
Fail-safe modeDefault luminaire state (usually full on) when the control signal is lost.
Failure modeWay in which an LED or driver ceases to function (open, short, gradual).
Failure ratePercentage of LEDs or drivers failing within a specified operating period.
False ceiling depthAvailable space between the structural slab and the suspended ceiling surface.
Fan (cooling)Electrically driven fan providing forced-air cooling for high-power LED systems.
Fan coil integrationLED luminaire designed to co-exist with fan-coil HVAC units in ceilings.
Far-field photometryLight-distribution measurement taken at a distance where the source appears as a point.
Faraday cageMetal enclosure shielding sensitive electronics from external EMI.
Fascia lightingLED illumination of building fascia boards or signage bands.
Fattore di manutenzione — see Maintenance factorSee Maintenance factor.
Fault findingSystematic diagnosis of problems in an LED installation.
Fault indicator LEDSmall status LED on a driver or controller signalling an error condition.
Façade (media)Large-scale LED installation on a building façade displaying dynamic content.
Façade lightingLED systems enhancing the exterior surface of a building.
Feed (double / dual)Powering a strip from both ends to minimise voltage drop.
Feed (mid-point)Injecting power at the centre of a strip run for uniform brightness.
Feed (single / mono)Powering a strip from one end only.
Feed-through wiringContinuous power cable passing through multiple luminaires without interruption.
Ferrite coreMagnetic component on a cable or inside a driver suppressing high-frequency noise.
Fibre opticGlass or polymer light guide transporting LED light to remote locations.
Fibre-optic illuminatorLED light engine coupled to a bundle of optical fibres for remote illumination.
Field angleBeam angle measured where intensity drops to 10 percent of peak.
Field of view (sensor)Angular coverage area of an occupancy or daylight sensor.
Filament (LED)Linear LED module replicating incandescent-filament appearance.
Filament-style LED stripLED strip replicating the warm, amber glow of vintage filament lamps.
Fill lightSecondary light source reducing shadows created by the key light.
Film (dichroic)Thin film reflecting some wavelengths while transmitting others.
Film (holographic)Film using holographic microstructures for precise light shaping.
Film (optical)Thin film with specific optical properties (diffusion, reflection, polarisation).
Film (reflective)High-reflectance material inside a profile to maximise output.
Filter (colour / gel)Coloured transparent sheet placed over a source to change beam colour.
Filter (daylight correction)Gel converting tungsten CCT to daylight CCT, now replaced by tunable LEDs.
Filter (dichroic)Optical coating selectively reflecting some wavelengths and transmitting others.
Filter (IR cut)Filter blocking infrared radiation from reaching the illuminated object.
Filter (neutral density / ND)Grey filter reducing intensity without changing colour.
Filter (UV)Element blocking ultraviolet radiation, used in museum applications.
Fin (cooling)Ribbed profile feature enlarging the heat-dissipating area.
Fin pitchSpacing between cooling fins, optimised for airflow and thermal performance.
Final connection pointLast wiring termination where the LED strip meets the driver cable.
Fine-tuning (on-site)Adjusting aim, dimming levels and scenes after physical installation.
Finish (chromate conversion)Chemical treatment of aluminium improving corrosion resistance before painting.
Finish (matte / opaque)Non-reflective surface reducing reflections and glare.
Finish (mirror / polished)Highly reflective surface on aluminium or stainless-steel profiles.
Finish (profile)Surface treatment: anodising, painting, brushing or sandblasting.
Finish (RAL)Profile colouring per the RAL industrial colour-coding system.
Finish (textured)Coarse surface coating adding tactile interest and hiding imperfections.
Fire compartmentBuilding zone bounded by fire-rated elements; emergency lighting must respect boundaries.
Fire ratingTime period a building element maintains its fire-resistance integrity.
Fire-rated enclosureJunction box or driver housing maintaining fire integrity of a partition.
Fireproof cableCable rated to maintain circuit integrity during a fire for a specified duration.
FirmwareEmbedded software in LED controllers managing functionality.
Firmware (OTA update)Over-the-air firmware upgrade for wireless LED controllers.
First-fix installationMounting brackets, back-boxes and cables before surface finishes are applied.
Fitting (ceiling surface)Mounting a profile directly against the ceiling surface.
Fitting (flush / recessed)Installing a profile inside a routed groove so it sits flush.
Fitting (magnetic)Magnet-based quick, tool-free, non-destructive mounting.
Fitting (screw)Traditional mounting through pre-drilled holes.
Fitting (spring clip)Spring-loaded clip securing a recessed luminaire in its ceiling cut-out.
Fitting (tape / adhesive)Mounting via double-sided tape without drilling.
Fixed output driverNon-dimmable driver operating at a single, factory-set output level.
Fixture (luminaire)North American term for a complete lighting apparatus.
Fixture scheduleTable listing every luminaire type, quantity and location in a project.
Flagpole lightLED luminaire designed to illuminate a flagpole from the base.
Flame-retardant materialSelf-extinguishing plastic used in LED enclosures and cable insulation.
FlangeProtruding rim on a profile covering the joint with the mounting surface.
Flange (cover / trim)Decorative element hiding the ceiling cut-out edge.
Flash frequency (strobe)Number of light pulses per second in a strobe effect.
Flashing (LED indicator)Blinking status light on a driver or controller indicating operating mode.
Flat cableMulti-conductor ribbon cable for compact LED wiring.
Flat-pack luminaireLuminaire shipped disassembled in a flat box for economical transport.
Flex (LED strip)Flexible LED strip on a bendable PCB.
Flex connector (profile)Short flexible bridge joining two rigid profile lengths around a gentle curve.
FlexibilityDegree to which a strip or profile can be bent without damage.
Flexible conduitCorrugated tube allowing cables to follow non-straight routes.
FlickerRapid luminous variation, perceptible or measurable instrumentally.
Flicker IndexFlicker severity parameter on a 0 to 1 scale.
Flicker metric (SVM)Stroboscopic Visibility Measure quantifying the visibility of the stroboscopic effect.
Flicker PercentPercentage difference between maximum and minimum light waveform amplitude.
Flicker-freeAbsence of measurable flicker, a quality indicator for drivers and strips.
Flicker-free certification (IEEE 1789)IEEE standard recommending flicker limits for LED lighting.
floating ceiling techniquePerimeter LED strip around a lowered ceiling panel creates indirect uplighting that makes the panel appear to hover, adding depth and drama to reception areas and lounges.
Flood (wide beam)Broad distribution above 60 degrees for general illumination.
FloodlightHigh-output luminaire with a wide beam for area or façade lighting.
Floor boxRecessed enclosure in a floor providing power and data for LED installations.
Floor wash luminaireWall-recessed LED directing light downward to graze the floor surface.
Floor washerWall-recessed luminaire uniformly lighting the floor.
Floor-standing uplighterFree-standing LED luminaire directing light upward for indirect illumination.
Fluorescent retrofitReplacing fluorescent tubes with LED tubes in an existing fixture.
Flush-mount junction boxRecessed wall or ceiling box for concealed wiring connections.
Flux (luminous per metre)Strip output in lumens per linear metre (lm/m).
Flux (luminous)Total light quantity emitted by a source, in lumens (lm).
Flux (radiant)Electromagnetic radiation power emitted, in watts.
Fly leadFactory-soldered cable on a strip for direct driver connection.
Fly-by-wire lightingFully electronic lighting control with no direct mains switching at the luminaire.
Focal lengthLens-to-convergence-point distance determining beam angle.
Focal point (design)Architectural feature or artwork intentionally highlighted by accent lighting.
Fog-proof lensSealed or vented lens design preventing internal fogging in humid environments.
Follow-me lightingSmart system that tracks occupant movement and illuminates their path.
Footcandle (fc)Imperial illuminance unit; 1 fc ≈ 10.76 lux.
Footlambert (fL)Imperial luminance unit; 1 fL ≈ 3.426 cd/m².
Footprint (luminaire)Plan-view outline of a luminaire, critical for ceiling-layout coordination.
Form factorPhysical size and shape category of an LED driver or luminaire.
Forward current (IF max)Maximum continuous current the LED can handle without damage.
Forward current 10 mALED operated at a forward current of 10 milliamps.
Forward current 100 mALED operated at a forward current of 100 milliamps.
Forward current 1000 mALED operated at a forward current of 1000 milliamps.
Forward current 1005 mALED operated at a forward current of 1005 milliamps.
Forward current 1010 mALED operated at a forward current of 1010 milliamps.
Forward current 1015 mALED operated at a forward current of 1015 milliamps.
Forward current 1020 mALED operated at a forward current of 1020 milliamps.
Forward current 1025 mALED operated at a forward current of 1025 milliamps.
Forward current 1030 mALED operated at a forward current of 1030 milliamps.
Forward current 1035 mALED operated at a forward current of 1035 milliamps.
Forward current 1040 mALED operated at a forward current of 1040 milliamps.
Forward current 1045 mALED operated at a forward current of 1045 milliamps.
Forward current 105 mALED operated at a forward current of 105 milliamps.
Forward current 1050 mALED operated at a forward current of 1050 milliamps.
Forward current 1055 mALED operated at a forward current of 1055 milliamps.
Forward current 1060 mALED operated at a forward current of 1060 milliamps.
Forward current 1065 mALED operated at a forward current of 1065 milliamps.
Forward current 1070 mALED operated at a forward current of 1070 milliamps.
Forward current 1075 mALED operated at a forward current of 1075 milliamps.
Forward current 1080 mALED operated at a forward current of 1080 milliamps.
Forward current 1085 mALED operated at a forward current of 1085 milliamps.
Forward current 1090 mALED operated at a forward current of 1090 milliamps.
Forward current 1095 mALED operated at a forward current of 1095 milliamps.
Forward current 110 mALED operated at a forward current of 110 milliamps.
Forward current 1100 mALED operated at a forward current of 1100 milliamps.
Forward current 1105 mALED operated at a forward current of 1105 milliamps.
Forward current 1110 mALED operated at a forward current of 1110 milliamps.
Forward current 1115 mALED operated at a forward current of 1115 milliamps.
Forward current 1120 mALED operated at a forward current of 1120 milliamps.
Forward current 1125 mALED operated at a forward current of 1125 milliamps.
Forward current 1130 mALED operated at a forward current of 1130 milliamps.
Forward current 1135 mALED operated at a forward current of 1135 milliamps.
Forward current 1140 mALED operated at a forward current of 1140 milliamps.
Forward current 1145 mALED operated at a forward current of 1145 milliamps.
Forward current 115 mALED operated at a forward current of 115 milliamps.
Forward current 1150 mALED operated at a forward current of 1150 milliamps.
Forward current 1155 mALED operated at a forward current of 1155 milliamps.
Forward current 1160 mALED operated at a forward current of 1160 milliamps.
Forward current 1165 mALED operated at a forward current of 1165 milliamps.
Forward current 1170 mALED operated at a forward current of 1170 milliamps.
Forward current 1175 mALED operated at a forward current of 1175 milliamps.
Forward current 1180 mALED operated at a forward current of 1180 milliamps.
Forward current 1185 mALED operated at a forward current of 1185 milliamps.
Forward current 1190 mALED operated at a forward current of 1190 milliamps.
Forward current 1195 mALED operated at a forward current of 1195 milliamps.
Forward current 120 mALED operated at a forward current of 120 milliamps.
Forward current 1200 mALED operated at a forward current of 1200 milliamps.
Forward current 1205 mALED operated at a forward current of 1205 milliamps.
Forward current 1210 mALED operated at a forward current of 1210 milliamps.
Forward current 1215 mALED operated at a forward current of 1215 milliamps.
Forward current 1220 mALED operated at a forward current of 1220 milliamps.
Forward current 1225 mALED operated at a forward current of 1225 milliamps.
Forward current 1230 mALED operated at a forward current of 1230 milliamps.
Forward current 1235 mALED operated at a forward current of 1235 milliamps.
Forward current 1240 mALED operated at a forward current of 1240 milliamps.
Forward current 1245 mALED operated at a forward current of 1245 milliamps.
Forward current 125 mALED operated at a forward current of 125 milliamps.
Forward current 1250 mALED operated at a forward current of 1250 milliamps.
Forward current 1255 mALED operated at a forward current of 1255 milliamps.
Forward current 1260 mALED operated at a forward current of 1260 milliamps.
Forward current 1265 mALED operated at a forward current of 1265 milliamps.
Forward current 1270 mALED operated at a forward current of 1270 milliamps.
Forward current 1275 mALED operated at a forward current of 1275 milliamps.
Forward current 1280 mALED operated at a forward current of 1280 milliamps.
Forward current 1285 mALED operated at a forward current of 1285 milliamps.
Forward current 1290 mALED operated at a forward current of 1290 milliamps.
Forward current 1295 mALED operated at a forward current of 1295 milliamps.
Forward current 130 mALED operated at a forward current of 130 milliamps.
Forward current 1300 mALED operated at a forward current of 1300 milliamps.
Forward current 1305 mALED operated at a forward current of 1305 milliamps.
Forward current 1310 mALED operated at a forward current of 1310 milliamps.
Forward current 1315 mALED operated at a forward current of 1315 milliamps.
Forward current 1320 mALED operated at a forward current of 1320 milliamps.
Forward current 1325 mALED operated at a forward current of 1325 milliamps.
Forward current 1330 mALED operated at a forward current of 1330 milliamps.
Forward current 1335 mALED operated at a forward current of 1335 milliamps.
Forward current 1340 mALED operated at a forward current of 1340 milliamps.
Forward current 1345 mALED operated at a forward current of 1345 milliamps.
Forward current 135 mALED operated at a forward current of 135 milliamps.
Forward current 1350 mALED operated at a forward current of 1350 milliamps.
Forward current 1355 mALED operated at a forward current of 1355 milliamps.
Forward current 1360 mALED operated at a forward current of 1360 milliamps.
Forward current 1365 mALED operated at a forward current of 1365 milliamps.
Forward current 1370 mALED operated at a forward current of 1370 milliamps.
Forward current 1375 mALED operated at a forward current of 1375 milliamps.
Forward current 1380 mALED operated at a forward current of 1380 milliamps.
Forward current 1385 mALED operated at a forward current of 1385 milliamps.
Forward current 1390 mALED operated at a forward current of 1390 milliamps.
Forward current 1395 mALED operated at a forward current of 1395 milliamps.
Forward current 140 mALED operated at a forward current of 140 milliamps.
Forward current 1400 mALED operated at a forward current of 1400 milliamps.
Forward current 1405 mALED operated at a forward current of 1405 milliamps.
Forward current 1410 mALED operated at a forward current of 1410 milliamps.
Forward current 1415 mALED operated at a forward current of 1415 milliamps.
Forward current 1420 mALED operated at a forward current of 1420 milliamps.
Forward current 1425 mALED operated at a forward current of 1425 milliamps.
Forward current 1430 mALED operated at a forward current of 1430 milliamps.
Forward current 1435 mALED operated at a forward current of 1435 milliamps.
Forward current 1440 mALED operated at a forward current of 1440 milliamps.
Forward current 1445 mALED operated at a forward current of 1445 milliamps.
Forward current 145 mALED operated at a forward current of 145 milliamps.
Forward current 1450 mALED operated at a forward current of 1450 milliamps.
Forward current 1455 mALED operated at a forward current of 1455 milliamps.
Forward current 1460 mALED operated at a forward current of 1460 milliamps.
Forward current 1465 mALED operated at a forward current of 1465 milliamps.
Forward current 1470 mALED operated at a forward current of 1470 milliamps.
Forward current 1475 mALED operated at a forward current of 1475 milliamps.
Forward current 1480 mALED operated at a forward current of 1480 milliamps.
Forward current 1485 mALED operated at a forward current of 1485 milliamps.
Forward current 1490 mALED operated at a forward current of 1490 milliamps.
Forward current 1495 mALED operated at a forward current of 1495 milliamps.
Forward current 15 mALED operated at a forward current of 15 milliamps.
Forward current 150 mALED operated at a forward current of 150 milliamps.
Forward current 1500 mALED operated at a forward current of 1500 milliamps.
Forward current 1505 mALED operated at a forward current of 1505 milliamps.
Forward current 1510 mALED operated at a forward current of 1510 milliamps.
Forward current 1515 mALED operated at a forward current of 1515 milliamps.
Forward current 1520 mALED operated at a forward current of 1520 milliamps.
Forward current 1525 mALED operated at a forward current of 1525 milliamps.
Forward current 1530 mALED operated at a forward current of 1530 milliamps.
Forward current 1535 mALED operated at a forward current of 1535 milliamps.
Forward current 1540 mALED operated at a forward current of 1540 milliamps.
Forward current 1545 mALED operated at a forward current of 1545 milliamps.
Forward current 155 mALED operated at a forward current of 155 milliamps.
Forward current 1550 mALED operated at a forward current of 1550 milliamps.
Forward current 1555 mALED operated at a forward current of 1555 milliamps.
Forward current 1560 mALED operated at a forward current of 1560 milliamps.
Forward current 1565 mALED operated at a forward current of 1565 milliamps.
Forward current 1570 mALED operated at a forward current of 1570 milliamps.
Forward current 1575 mALED operated at a forward current of 1575 milliamps.
Forward current 1580 mALED operated at a forward current of 1580 milliamps.
Forward current 1585 mALED operated at a forward current of 1585 milliamps.
Forward current 1590 mALED operated at a forward current of 1590 milliamps.
Forward current 1595 mALED operated at a forward current of 1595 milliamps.
Forward current 160 mALED operated at a forward current of 160 milliamps.
Forward current 1600 mALED operated at a forward current of 1600 milliamps.
Forward current 1605 mALED operated at a forward current of 1605 milliamps.
Forward current 1610 mALED operated at a forward current of 1610 milliamps.
Forward current 1615 mALED operated at a forward current of 1615 milliamps.
Forward current 1620 mALED operated at a forward current of 1620 milliamps.
Forward current 1625 mALED operated at a forward current of 1625 milliamps.
Forward current 1630 mALED operated at a forward current of 1630 milliamps.
Forward current 1635 mALED operated at a forward current of 1635 milliamps.
Forward current 1640 mALED operated at a forward current of 1640 milliamps.
Forward current 1645 mALED operated at a forward current of 1645 milliamps.
Forward current 165 mALED operated at a forward current of 165 milliamps.
Forward current 1650 mALED operated at a forward current of 1650 milliamps.
Forward current 1655 mALED operated at a forward current of 1655 milliamps.
Forward current 1660 mALED operated at a forward current of 1660 milliamps.
Forward current 1665 mALED operated at a forward current of 1665 milliamps.
Forward current 1670 mALED operated at a forward current of 1670 milliamps.
Forward current 1675 mALED operated at a forward current of 1675 milliamps.
Forward current 1680 mALED operated at a forward current of 1680 milliamps.
Forward current 1685 mALED operated at a forward current of 1685 milliamps.
Forward current 1690 mALED operated at a forward current of 1690 milliamps.
Forward current 1695 mALED operated at a forward current of 1695 milliamps.
Forward current 170 mALED operated at a forward current of 170 milliamps.
Forward current 1700 mALED operated at a forward current of 1700 milliamps.
Forward current 1705 mALED operated at a forward current of 1705 milliamps.
Forward current 1710 mALED operated at a forward current of 1710 milliamps.
Forward current 1715 mALED operated at a forward current of 1715 milliamps.
Forward current 1720 mALED operated at a forward current of 1720 milliamps.
Forward current 1725 mALED operated at a forward current of 1725 milliamps.
Forward current 1730 mALED operated at a forward current of 1730 milliamps.
Forward current 1735 mALED operated at a forward current of 1735 milliamps.
Forward current 1740 mALED operated at a forward current of 1740 milliamps.
Forward current 1745 mALED operated at a forward current of 1745 milliamps.
Forward current 175 mALED operated at a forward current of 175 milliamps.
Forward current 1750 mALED operated at a forward current of 1750 milliamps.
Forward current 1755 mALED operated at a forward current of 1755 milliamps.
Forward current 1760 mALED operated at a forward current of 1760 milliamps.
Forward current 1765 mALED operated at a forward current of 1765 milliamps.
Forward current 1770 mALED operated at a forward current of 1770 milliamps.
Forward current 1775 mALED operated at a forward current of 1775 milliamps.
Forward current 1780 mALED operated at a forward current of 1780 milliamps.
Forward current 1785 mALED operated at a forward current of 1785 milliamps.
Forward current 1790 mALED operated at a forward current of 1790 milliamps.
Forward current 1795 mALED operated at a forward current of 1795 milliamps.
Forward current 180 mALED operated at a forward current of 180 milliamps.
Forward current 1800 mALED operated at a forward current of 1800 milliamps.
Forward current 1805 mALED operated at a forward current of 1805 milliamps.
Forward current 1810 mALED operated at a forward current of 1810 milliamps.
Forward current 1815 mALED operated at a forward current of 1815 milliamps.
Forward current 1820 mALED operated at a forward current of 1820 milliamps.
Forward current 1825 mALED operated at a forward current of 1825 milliamps.
Forward current 1830 mALED operated at a forward current of 1830 milliamps.
Forward current 1835 mALED operated at a forward current of 1835 milliamps.
Forward current 1840 mALED operated at a forward current of 1840 milliamps.
Forward current 1845 mALED operated at a forward current of 1845 milliamps.
Forward current 185 mALED operated at a forward current of 185 milliamps.
Forward current 1850 mALED operated at a forward current of 1850 milliamps.
Forward current 1855 mALED operated at a forward current of 1855 milliamps.
Forward current 1860 mALED operated at a forward current of 1860 milliamps.
Forward current 1865 mALED operated at a forward current of 1865 milliamps.
Forward current 1870 mALED operated at a forward current of 1870 milliamps.
Forward current 1875 mALED operated at a forward current of 1875 milliamps.
Forward current 1880 mALED operated at a forward current of 1880 milliamps.
Forward current 1885 mALED operated at a forward current of 1885 milliamps.
Forward current 1890 mALED operated at a forward current of 1890 milliamps.
Forward current 1895 mALED operated at a forward current of 1895 milliamps.
Forward current 190 mALED operated at a forward current of 190 milliamps.
Forward current 1900 mALED operated at a forward current of 1900 milliamps.
Forward current 1905 mALED operated at a forward current of 1905 milliamps.
Forward current 1910 mALED operated at a forward current of 1910 milliamps.
Forward current 1915 mALED operated at a forward current of 1915 milliamps.
Forward current 1920 mALED operated at a forward current of 1920 milliamps.
Forward current 1925 mALED operated at a forward current of 1925 milliamps.
Forward current 1930 mALED operated at a forward current of 1930 milliamps.
Forward current 1935 mALED operated at a forward current of 1935 milliamps.
Forward current 1940 mALED operated at a forward current of 1940 milliamps.
Forward current 1945 mALED operated at a forward current of 1945 milliamps.
Forward current 195 mALED operated at a forward current of 195 milliamps.
Forward current 1950 mALED operated at a forward current of 1950 milliamps.
Forward current 1955 mALED operated at a forward current of 1955 milliamps.
Forward current 1960 mALED operated at a forward current of 1960 milliamps.
Forward current 1965 mALED operated at a forward current of 1965 milliamps.
Forward current 1970 mALED operated at a forward current of 1970 milliamps.
Forward current 1975 mALED operated at a forward current of 1975 milliamps.
Forward current 1980 mALED operated at a forward current of 1980 milliamps.
Forward current 1985 mALED operated at a forward current of 1985 milliamps.
Forward current 1990 mALED operated at a forward current of 1990 milliamps.
Forward current 1995 mALED operated at a forward current of 1995 milliamps.
Forward current 20 mALED operated at a forward current of 20 milliamps.
Forward current 200 mALED operated at a forward current of 200 milliamps.
Forward current 2000 mALED operated at a forward current of 2000 milliamps.
Forward current 2005 mALED operated at a forward current of 2005 milliamps.
Forward current 2010 mALED operated at a forward current of 2010 milliamps.
Forward current 2015 mALED operated at a forward current of 2015 milliamps.
Forward current 2020 mALED operated at a forward current of 2020 milliamps.
Forward current 2025 mALED operated at a forward current of 2025 milliamps.
Forward current 2030 mALED operated at a forward current of 2030 milliamps.
Forward current 2035 mALED operated at a forward current of 2035 milliamps.
Forward current 2040 mALED operated at a forward current of 2040 milliamps.
Forward current 2045 mALED operated at a forward current of 2045 milliamps.
Forward current 205 mALED operated at a forward current of 205 milliamps.
Forward current 2050 mALED operated at a forward current of 2050 milliamps.
Forward current 2055 mALED operated at a forward current of 2055 milliamps.
Forward current 2060 mALED operated at a forward current of 2060 milliamps.
Forward current 2065 mALED operated at a forward current of 2065 milliamps.
Forward current 2070 mALED operated at a forward current of 2070 milliamps.
Forward current 2075 mALED operated at a forward current of 2075 milliamps.
Forward current 2080 mALED operated at a forward current of 2080 milliamps.
Forward current 2085 mALED operated at a forward current of 2085 milliamps.
Forward current 2090 mALED operated at a forward current of 2090 milliamps.
Forward current 2095 mALED operated at a forward current of 2095 milliamps.
Forward current 210 mALED operated at a forward current of 210 milliamps.
Forward current 2100 mALED operated at a forward current of 2100 milliamps.
Forward current 2105 mALED operated at a forward current of 2105 milliamps.
Forward current 2110 mALED operated at a forward current of 2110 milliamps.
Forward current 2115 mALED operated at a forward current of 2115 milliamps.
Forward current 2120 mALED operated at a forward current of 2120 milliamps.
Forward current 2125 mALED operated at a forward current of 2125 milliamps.
Forward current 2130 mALED operated at a forward current of 2130 milliamps.
Forward current 2135 mALED operated at a forward current of 2135 milliamps.
Forward current 2140 mALED operated at a forward current of 2140 milliamps.
Forward current 2145 mALED operated at a forward current of 2145 milliamps.
Forward current 215 mALED operated at a forward current of 215 milliamps.
Forward current 2150 mALED operated at a forward current of 2150 milliamps.
Forward current 2155 mALED operated at a forward current of 2155 milliamps.
Forward current 2160 mALED operated at a forward current of 2160 milliamps.
Forward current 2165 mALED operated at a forward current of 2165 milliamps.
Forward current 2170 mALED operated at a forward current of 2170 milliamps.
Forward current 2175 mALED operated at a forward current of 2175 milliamps.
Forward current 2180 mALED operated at a forward current of 2180 milliamps.
Forward current 2185 mALED operated at a forward current of 2185 milliamps.
Forward current 2190 mALED operated at a forward current of 2190 milliamps.
Forward current 2195 mALED operated at a forward current of 2195 milliamps.
Forward current 220 mALED operated at a forward current of 220 milliamps.
Forward current 2200 mALED operated at a forward current of 2200 milliamps.
Forward current 2205 mALED operated at a forward current of 2205 milliamps.
Forward current 2210 mALED operated at a forward current of 2210 milliamps.
Forward current 2215 mALED operated at a forward current of 2215 milliamps.
Forward current 2220 mALED operated at a forward current of 2220 milliamps.
Forward current 2225 mALED operated at a forward current of 2225 milliamps.
Forward current 2230 mALED operated at a forward current of 2230 milliamps.
Forward current 2235 mALED operated at a forward current of 2235 milliamps.
Forward current 2240 mALED operated at a forward current of 2240 milliamps.
Forward current 2245 mALED operated at a forward current of 2245 milliamps.
Forward current 225 mALED operated at a forward current of 225 milliamps.
Forward current 2250 mALED operated at a forward current of 2250 milliamps.
Forward current 2255 mALED operated at a forward current of 2255 milliamps.
Forward current 2260 mALED operated at a forward current of 2260 milliamps.
Forward current 2265 mALED operated at a forward current of 2265 milliamps.
Forward current 2270 mALED operated at a forward current of 2270 milliamps.
Forward current 2275 mALED operated at a forward current of 2275 milliamps.
Forward current 2280 mALED operated at a forward current of 2280 milliamps.
Forward current 2285 mALED operated at a forward current of 2285 milliamps.
Forward current 2290 mALED operated at a forward current of 2290 milliamps.
Forward current 2295 mALED operated at a forward current of 2295 milliamps.
Forward current 230 mALED operated at a forward current of 230 milliamps.
Forward current 2300 mALED operated at a forward current of 2300 milliamps.
Forward current 2305 mALED operated at a forward current of 2305 milliamps.
Forward current 2310 mALED operated at a forward current of 2310 milliamps.
Forward current 2315 mALED operated at a forward current of 2315 milliamps.
Forward current 2320 mALED operated at a forward current of 2320 milliamps.
Forward current 2325 mALED operated at a forward current of 2325 milliamps.
Forward current 2330 mALED operated at a forward current of 2330 milliamps.
Forward current 2335 mALED operated at a forward current of 2335 milliamps.
Forward current 2340 mALED operated at a forward current of 2340 milliamps.
Forward current 2345 mALED operated at a forward current of 2345 milliamps.
Forward current 235 mALED operated at a forward current of 235 milliamps.
Forward current 2350 mALED operated at a forward current of 2350 milliamps.
Forward current 2355 mALED operated at a forward current of 2355 milliamps.
Forward current 2360 mALED operated at a forward current of 2360 milliamps.
Forward current 2365 mALED operated at a forward current of 2365 milliamps.
Forward current 2370 mALED operated at a forward current of 2370 milliamps.
Forward current 2375 mALED operated at a forward current of 2375 milliamps.
Forward current 2380 mALED operated at a forward current of 2380 milliamps.
Forward current 2385 mALED operated at a forward current of 2385 milliamps.
Forward current 2390 mALED operated at a forward current of 2390 milliamps.
Forward current 2395 mALED operated at a forward current of 2395 milliamps.
Forward current 240 mALED operated at a forward current of 240 milliamps.
Forward current 2400 mALED operated at a forward current of 2400 milliamps.
Forward current 2405 mALED operated at a forward current of 2405 milliamps.
Forward current 2410 mALED operated at a forward current of 2410 milliamps.
Forward current 2415 mALED operated at a forward current of 2415 milliamps.
Forward current 2420 mALED operated at a forward current of 2420 milliamps.
Forward current 2425 mALED operated at a forward current of 2425 milliamps.
Forward current 2430 mALED operated at a forward current of 2430 milliamps.
Forward current 2435 mALED operated at a forward current of 2435 milliamps.
Forward current 2440 mALED operated at a forward current of 2440 milliamps.
Forward current 2445 mALED operated at a forward current of 2445 milliamps.
Forward current 245 mALED operated at a forward current of 245 milliamps.
Forward current 2450 mALED operated at a forward current of 2450 milliamps.
Forward current 2455 mALED operated at a forward current of 2455 milliamps.
Forward current 2460 mALED operated at a forward current of 2460 milliamps.
Forward current 2465 mALED operated at a forward current of 2465 milliamps.
Forward current 2470 mALED operated at a forward current of 2470 milliamps.
Forward current 2475 mALED operated at a forward current of 2475 milliamps.
Forward current 2480 mALED operated at a forward current of 2480 milliamps.
Forward current 2485 mALED operated at a forward current of 2485 milliamps.
Forward current 2490 mALED operated at a forward current of 2490 milliamps.
Forward current 2495 mALED operated at a forward current of 2495 milliamps.
Forward current 25 mALED operated at a forward current of 25 milliamps.
Forward current 250 mALED operated at a forward current of 250 milliamps.
Forward current 2500 mALED operated at a forward current of 2500 milliamps.
Forward current 2505 mALED operated at a forward current of 2505 milliamps.
Forward current 2510 mALED operated at a forward current of 2510 milliamps.
Forward current 2515 mALED operated at a forward current of 2515 milliamps.
Forward current 2520 mALED operated at a forward current of 2520 milliamps.
Forward current 2525 mALED operated at a forward current of 2525 milliamps.
Forward current 2530 mALED operated at a forward current of 2530 milliamps.
Forward current 2535 mALED operated at a forward current of 2535 milliamps.
Forward current 2540 mALED operated at a forward current of 2540 milliamps.
Forward current 2545 mALED operated at a forward current of 2545 milliamps.
Forward current 255 mALED operated at a forward current of 255 milliamps.
Forward current 2550 mALED operated at a forward current of 2550 milliamps.
Forward current 2555 mALED operated at a forward current of 2555 milliamps.
Forward current 2560 mALED operated at a forward current of 2560 milliamps.
Forward current 2565 mALED operated at a forward current of 2565 milliamps.
Forward current 2570 mALED operated at a forward current of 2570 milliamps.
Forward current 2575 mALED operated at a forward current of 2575 milliamps.
Forward current 2580 mALED operated at a forward current of 2580 milliamps.
Forward current 2585 mALED operated at a forward current of 2585 milliamps.
Forward current 2590 mALED operated at a forward current of 2590 milliamps.
Forward current 2595 mALED operated at a forward current of 2595 milliamps.
Forward current 260 mALED operated at a forward current of 260 milliamps.
Forward current 2600 mALED operated at a forward current of 2600 milliamps.
Forward current 2605 mALED operated at a forward current of 2605 milliamps.
Forward current 2610 mALED operated at a forward current of 2610 milliamps.
Forward current 2615 mALED operated at a forward current of 2615 milliamps.
Forward current 2620 mALED operated at a forward current of 2620 milliamps.
Forward current 2625 mALED operated at a forward current of 2625 milliamps.
Forward current 2630 mALED operated at a forward current of 2630 milliamps.
Forward current 2635 mALED operated at a forward current of 2635 milliamps.
Forward current 2640 mALED operated at a forward current of 2640 milliamps.
Forward current 2645 mALED operated at a forward current of 2645 milliamps.
Forward current 265 mALED operated at a forward current of 265 milliamps.
Forward current 2650 mALED operated at a forward current of 2650 milliamps.
Forward current 2655 mALED operated at a forward current of 2655 milliamps.
Forward current 2660 mALED operated at a forward current of 2660 milliamps.
Forward current 2665 mALED operated at a forward current of 2665 milliamps.
Forward current 2670 mALED operated at a forward current of 2670 milliamps.
Forward current 2675 mALED operated at a forward current of 2675 milliamps.
Forward current 2680 mALED operated at a forward current of 2680 milliamps.
Forward current 2685 mALED operated at a forward current of 2685 milliamps.
Forward current 2690 mALED operated at a forward current of 2690 milliamps.
Forward current 2695 mALED operated at a forward current of 2695 milliamps.
Forward current 270 mALED operated at a forward current of 270 milliamps.
Forward current 2700 mALED operated at a forward current of 2700 milliamps.
Forward current 2705 mALED operated at a forward current of 2705 milliamps.
Forward current 2710 mALED operated at a forward current of 2710 milliamps.
Forward current 2715 mALED operated at a forward current of 2715 milliamps.
Forward current 2720 mALED operated at a forward current of 2720 milliamps.
Forward current 2725 mALED operated at a forward current of 2725 milliamps.
Forward current 2730 mALED operated at a forward current of 2730 milliamps.
Forward current 2735 mALED operated at a forward current of 2735 milliamps.
Forward current 2740 mALED operated at a forward current of 2740 milliamps.
Forward current 2745 mALED operated at a forward current of 2745 milliamps.
Forward current 275 mALED operated at a forward current of 275 milliamps.
Forward current 2750 mALED operated at a forward current of 2750 milliamps.
Forward current 2755 mALED operated at a forward current of 2755 milliamps.
Forward current 2760 mALED operated at a forward current of 2760 milliamps.
Forward current 2765 mALED operated at a forward current of 2765 milliamps.
Forward current 2770 mALED operated at a forward current of 2770 milliamps.
Forward current 2775 mALED operated at a forward current of 2775 milliamps.
Forward current 2780 mALED operated at a forward current of 2780 milliamps.
Forward current 2785 mALED operated at a forward current of 2785 milliamps.
Forward current 2790 mALED operated at a forward current of 2790 milliamps.
Forward current 2795 mALED operated at a forward current of 2795 milliamps.
Forward current 280 mALED operated at a forward current of 280 milliamps.
Forward current 2800 mALED operated at a forward current of 2800 milliamps.
Forward current 2805 mALED operated at a forward current of 2805 milliamps.
Forward current 2810 mALED operated at a forward current of 2810 milliamps.
Forward current 2815 mALED operated at a forward current of 2815 milliamps.
Forward current 2820 mALED operated at a forward current of 2820 milliamps.
Forward current 2825 mALED operated at a forward current of 2825 milliamps.
Forward current 2830 mALED operated at a forward current of 2830 milliamps.
Forward current 2835 mALED operated at a forward current of 2835 milliamps.
Forward current 2840 mALED operated at a forward current of 2840 milliamps.
Forward current 2845 mALED operated at a forward current of 2845 milliamps.
Forward current 285 mALED operated at a forward current of 285 milliamps.
Forward current 2850 mALED operated at a forward current of 2850 milliamps.
Forward current 2855 mALED operated at a forward current of 2855 milliamps.
Forward current 2860 mALED operated at a forward current of 2860 milliamps.
Forward current 2865 mALED operated at a forward current of 2865 milliamps.
Forward current 2870 mALED operated at a forward current of 2870 milliamps.
Forward current 2875 mALED operated at a forward current of 2875 milliamps.
Forward current 2880 mALED operated at a forward current of 2880 milliamps.
Forward current 2885 mALED operated at a forward current of 2885 milliamps.
Forward current 2890 mALED operated at a forward current of 2890 milliamps.
Forward current 2895 mALED operated at a forward current of 2895 milliamps.
Forward current 290 mALED operated at a forward current of 290 milliamps.
Forward current 2900 mALED operated at a forward current of 2900 milliamps.
Forward current 2905 mALED operated at a forward current of 2905 milliamps.
Forward current 2910 mALED operated at a forward current of 2910 milliamps.
Forward current 2915 mALED operated at a forward current of 2915 milliamps.
Forward current 2920 mALED operated at a forward current of 2920 milliamps.
Forward current 2925 mALED operated at a forward current of 2925 milliamps.
Forward current 2930 mALED operated at a forward current of 2930 milliamps.
Forward current 2935 mALED operated at a forward current of 2935 milliamps.
Forward current 2940 mALED operated at a forward current of 2940 milliamps.
Forward current 2945 mALED operated at a forward current of 2945 milliamps.
Forward current 295 mALED operated at a forward current of 295 milliamps.
Forward current 2950 mALED operated at a forward current of 2950 milliamps.
Forward current 2955 mALED operated at a forward current of 2955 milliamps.
Forward current 2960 mALED operated at a forward current of 2960 milliamps.
Forward current 2965 mALED operated at a forward current of 2965 milliamps.
Forward current 2970 mALED operated at a forward current of 2970 milliamps.
Forward current 2975 mALED operated at a forward current of 2975 milliamps.
Forward current 2980 mALED operated at a forward current of 2980 milliamps.
Forward current 2985 mALED operated at a forward current of 2985 milliamps.
Forward current 2990 mALED operated at a forward current of 2990 milliamps.
Forward current 2995 mALED operated at a forward current of 2995 milliamps.
Forward current 30 mALED operated at a forward current of 30 milliamps.
Forward current 300 mALED operated at a forward current of 300 milliamps.
Forward current 3000 mALED operated at a forward current of 3000 milliamps.
Forward current 3005 mALED operated at a forward current of 3005 milliamps.
Forward current 3010 mALED operated at a forward current of 3010 milliamps.
Forward current 3015 mALED operated at a forward current of 3015 milliamps.
Forward current 3020 mALED operated at a forward current of 3020 milliamps.
Forward current 3025 mALED operated at a forward current of 3025 milliamps.
Forward current 3030 mALED operated at a forward current of 3030 milliamps.
Forward current 3035 mALED operated at a forward current of 3035 milliamps.
Forward current 3040 mALED operated at a forward current of 3040 milliamps.
Forward current 3045 mALED operated at a forward current of 3045 milliamps.
Forward current 305 mALED operated at a forward current of 305 milliamps.
Forward current 3050 mALED operated at a forward current of 3050 milliamps.
Forward current 3055 mALED operated at a forward current of 3055 milliamps.
Forward current 3060 mALED operated at a forward current of 3060 milliamps.
Forward current 3065 mALED operated at a forward current of 3065 milliamps.
Forward current 3070 mALED operated at a forward current of 3070 milliamps.
Forward current 3075 mALED operated at a forward current of 3075 milliamps.
Forward current 3080 mALED operated at a forward current of 3080 milliamps.
Forward current 3085 mALED operated at a forward current of 3085 milliamps.
Forward current 3090 mALED operated at a forward current of 3090 milliamps.
Forward current 3095 mALED operated at a forward current of 3095 milliamps.
Forward current 310 mALED operated at a forward current of 310 milliamps.
Forward current 3100 mALED operated at a forward current of 3100 milliamps.
Forward current 3105 mALED operated at a forward current of 3105 milliamps.
Forward current 3110 mALED operated at a forward current of 3110 milliamps.
Forward current 3115 mALED operated at a forward current of 3115 milliamps.
Forward current 3120 mALED operated at a forward current of 3120 milliamps.
Forward current 3125 mALED operated at a forward current of 3125 milliamps.
Forward current 3130 mALED operated at a forward current of 3130 milliamps.
Forward current 3135 mALED operated at a forward current of 3135 milliamps.
Forward current 3140 mALED operated at a forward current of 3140 milliamps.
Forward current 3145 mALED operated at a forward current of 3145 milliamps.
Forward current 315 mALED operated at a forward current of 315 milliamps.
Forward current 3150 mALED operated at a forward current of 3150 milliamps.
Forward current 3155 mALED operated at a forward current of 3155 milliamps.
Forward current 3160 mALED operated at a forward current of 3160 milliamps.
Forward current 3165 mALED operated at a forward current of 3165 milliamps.
Forward current 3170 mALED operated at a forward current of 3170 milliamps.
Forward current 3175 mALED operated at a forward current of 3175 milliamps.
Forward current 3180 mALED operated at a forward current of 3180 milliamps.
Forward current 3185 mALED operated at a forward current of 3185 milliamps.
Forward current 3190 mALED operated at a forward current of 3190 milliamps.
Forward current 3195 mALED operated at a forward current of 3195 milliamps.
Forward current 320 mALED operated at a forward current of 320 milliamps.
Forward current 3200 mALED operated at a forward current of 3200 milliamps.
Forward current 3205 mALED operated at a forward current of 3205 milliamps.
Forward current 3210 mALED operated at a forward current of 3210 milliamps.
Forward current 3215 mALED operated at a forward current of 3215 milliamps.
Forward current 3220 mALED operated at a forward current of 3220 milliamps.
Forward current 3225 mALED operated at a forward current of 3225 milliamps.
Forward current 3230 mALED operated at a forward current of 3230 milliamps.
Forward current 3235 mALED operated at a forward current of 3235 milliamps.
Forward current 3240 mALED operated at a forward current of 3240 milliamps.
Forward current 3245 mALED operated at a forward current of 3245 milliamps.
Forward current 325 mALED operated at a forward current of 325 milliamps.
Forward current 3250 mALED operated at a forward current of 3250 milliamps.
Forward current 3255 mALED operated at a forward current of 3255 milliamps.
Forward current 3260 mALED operated at a forward current of 3260 milliamps.
Forward current 3265 mALED operated at a forward current of 3265 milliamps.
Forward current 3270 mALED operated at a forward current of 3270 milliamps.
Forward current 3275 mALED operated at a forward current of 3275 milliamps.
Forward current 3280 mALED operated at a forward current of 3280 milliamps.
Forward current 3285 mALED operated at a forward current of 3285 milliamps.
Forward current 3290 mALED operated at a forward current of 3290 milliamps.
Forward current 3295 mALED operated at a forward current of 3295 milliamps.
Forward current 330 mALED operated at a forward current of 330 milliamps.
Forward current 3300 mALED operated at a forward current of 3300 milliamps.
Forward current 3305 mALED operated at a forward current of 3305 milliamps.
Forward current 3310 mALED operated at a forward current of 3310 milliamps.
Forward current 3315 mALED operated at a forward current of 3315 milliamps.
Forward current 3320 mALED operated at a forward current of 3320 milliamps.
Forward current 3325 mALED operated at a forward current of 3325 milliamps.
Forward current 3330 mALED operated at a forward current of 3330 milliamps.
Forward current 3335 mALED operated at a forward current of 3335 milliamps.
Forward current 3340 mALED operated at a forward current of 3340 milliamps.
Forward current 3345 mALED operated at a forward current of 3345 milliamps.
Forward current 335 mALED operated at a forward current of 335 milliamps.
Forward current 3350 mALED operated at a forward current of 3350 milliamps.
Forward current 3355 mALED operated at a forward current of 3355 milliamps.
Forward current 3360 mALED operated at a forward current of 3360 milliamps.
Forward current 3365 mALED operated at a forward current of 3365 milliamps.
Forward current 3370 mALED operated at a forward current of 3370 milliamps.
Forward current 3375 mALED operated at a forward current of 3375 milliamps.
Forward current 3380 mALED operated at a forward current of 3380 milliamps.
Forward current 3385 mALED operated at a forward current of 3385 milliamps.
Forward current 3390 mALED operated at a forward current of 3390 milliamps.
Forward current 3395 mALED operated at a forward current of 3395 milliamps.
Forward current 340 mALED operated at a forward current of 340 milliamps.
Forward current 3400 mALED operated at a forward current of 3400 milliamps.
Forward current 3405 mALED operated at a forward current of 3405 milliamps.
Forward current 3410 mALED operated at a forward current of 3410 milliamps.
Forward current 3415 mALED operated at a forward current of 3415 milliamps.
Forward current 3420 mALED operated at a forward current of 3420 milliamps.
Forward current 3425 mALED operated at a forward current of 3425 milliamps.
Forward current 3430 mALED operated at a forward current of 3430 milliamps.
Forward current 3435 mALED operated at a forward current of 3435 milliamps.
Forward current 3440 mALED operated at a forward current of 3440 milliamps.
Forward current 3445 mALED operated at a forward current of 3445 milliamps.
Forward current 345 mALED operated at a forward current of 345 milliamps.
Forward current 3450 mALED operated at a forward current of 3450 milliamps.
Forward current 3455 mALED operated at a forward current of 3455 milliamps.
Forward current 3460 mALED operated at a forward current of 3460 milliamps.
Forward current 3465 mALED operated at a forward current of 3465 milliamps.
Forward current 3470 mALED operated at a forward current of 3470 milliamps.
Forward current 3475 mALED operated at a forward current of 3475 milliamps.
Forward current 3480 mALED operated at a forward current of 3480 milliamps.
Forward current 3485 mALED operated at a forward current of 3485 milliamps.
Forward current 3490 mALED operated at a forward current of 3490 milliamps.
Forward current 3495 mALED operated at a forward current of 3495 milliamps.
Forward current 35 mALED operated at a forward current of 35 milliamps.
Forward current 350 mALED operated at a forward current of 350 milliamps.
Forward current 3500 mALED operated at a forward current of 3500 milliamps.
Forward current 3505 mALED operated at a forward current of 3505 milliamps.
Forward current 3510 mALED operated at a forward current of 3510 milliamps.
Forward current 3515 mALED operated at a forward current of 3515 milliamps.
Forward current 3520 mALED operated at a forward current of 3520 milliamps.
Forward current 3525 mALED operated at a forward current of 3525 milliamps.
Forward current 3530 mALED operated at a forward current of 3530 milliamps.
Forward current 3535 mALED operated at a forward current of 3535 milliamps.
Forward current 3540 mALED operated at a forward current of 3540 milliamps.
Forward current 3545 mALED operated at a forward current of 3545 milliamps.
Forward current 355 mALED operated at a forward current of 355 milliamps.
Forward current 3550 mALED operated at a forward current of 3550 milliamps.
Forward current 3555 mALED operated at a forward current of 3555 milliamps.
Forward current 3560 mALED operated at a forward current of 3560 milliamps.
Forward current 3565 mALED operated at a forward current of 3565 milliamps.
Forward current 3570 mALED operated at a forward current of 3570 milliamps.
Forward current 3575 mALED operated at a forward current of 3575 milliamps.
Forward current 3580 mALED operated at a forward current of 3580 milliamps.
Forward current 3585 mALED operated at a forward current of 3585 milliamps.
Forward current 3590 mALED operated at a forward current of 3590 milliamps.
Forward current 3595 mALED operated at a forward current of 3595 milliamps.
Forward current 360 mALED operated at a forward current of 360 milliamps.
Forward current 3600 mALED operated at a forward current of 3600 milliamps.
Forward current 3605 mALED operated at a forward current of 3605 milliamps.
Forward current 3610 mALED operated at a forward current of 3610 milliamps.
Forward current 3615 mALED operated at a forward current of 3615 milliamps.
Forward current 3620 mALED operated at a forward current of 3620 milliamps.
Forward current 3625 mALED operated at a forward current of 3625 milliamps.
Forward current 3630 mALED operated at a forward current of 3630 milliamps.
Forward current 3635 mALED operated at a forward current of 3635 milliamps.
Forward current 3640 mALED operated at a forward current of 3640 milliamps.
Forward current 3645 mALED operated at a forward current of 3645 milliamps.
Forward current 365 mALED operated at a forward current of 365 milliamps.
Forward current 3650 mALED operated at a forward current of 3650 milliamps.
Forward current 3655 mALED operated at a forward current of 3655 milliamps.
Forward current 3660 mALED operated at a forward current of 3660 milliamps.
Forward current 3665 mALED operated at a forward current of 3665 milliamps.
Forward current 3670 mALED operated at a forward current of 3670 milliamps.
Forward current 3675 mALED operated at a forward current of 3675 milliamps.
Forward current 3680 mALED operated at a forward current of 3680 milliamps.
Forward current 3685 mALED operated at a forward current of 3685 milliamps.
Forward current 3690 mALED operated at a forward current of 3690 milliamps.
Forward current 3695 mALED operated at a forward current of 3695 milliamps.
Forward current 370 mALED operated at a forward current of 370 milliamps.
Forward current 3700 mALED operated at a forward current of 3700 milliamps.
Forward current 3705 mALED operated at a forward current of 3705 milliamps.
Forward current 3710 mALED operated at a forward current of 3710 milliamps.
Forward current 3715 mALED operated at a forward current of 3715 milliamps.
Forward current 3720 mALED operated at a forward current of 3720 milliamps.
Forward current 3725 mALED operated at a forward current of 3725 milliamps.
Forward current 3730 mALED operated at a forward current of 3730 milliamps.
Forward current 3735 mALED operated at a forward current of 3735 milliamps.
Forward current 3740 mALED operated at a forward current of 3740 milliamps.
Forward current 3745 mALED operated at a forward current of 3745 milliamps.
Forward current 375 mALED operated at a forward current of 375 milliamps.
Forward current 3750 mALED operated at a forward current of 3750 milliamps.
Forward current 3755 mALED operated at a forward current of 3755 milliamps.
Forward current 3760 mALED operated at a forward current of 3760 milliamps.
Forward current 3765 mALED operated at a forward current of 3765 milliamps.
Forward current 3770 mALED operated at a forward current of 3770 milliamps.
Forward current 3775 mALED operated at a forward current of 3775 milliamps.
Forward current 3780 mALED operated at a forward current of 3780 milliamps.
Forward current 3785 mALED operated at a forward current of 3785 milliamps.
Forward current 3790 mALED operated at a forward current of 3790 milliamps.
Forward current 3795 mALED operated at a forward current of 3795 milliamps.
Forward current 380 mALED operated at a forward current of 380 milliamps.
Forward current 3800 mALED operated at a forward current of 3800 milliamps.
Forward current 3805 mALED operated at a forward current of 3805 milliamps.
Forward current 3810 mALED operated at a forward current of 3810 milliamps.
Forward current 3815 mALED operated at a forward current of 3815 milliamps.
Forward current 3820 mALED operated at a forward current of 3820 milliamps.
Forward current 3825 mALED operated at a forward current of 3825 milliamps.
Forward current 3830 mALED operated at a forward current of 3830 milliamps.
Forward current 3835 mALED operated at a forward current of 3835 milliamps.
Forward current 3840 mALED operated at a forward current of 3840 milliamps.
Forward current 3845 mALED operated at a forward current of 3845 milliamps.
Forward current 385 mALED operated at a forward current of 385 milliamps.
Forward current 3850 mALED operated at a forward current of 3850 milliamps.
Forward current 3855 mALED operated at a forward current of 3855 milliamps.
Forward current 3860 mALED operated at a forward current of 3860 milliamps.
Forward current 3865 mALED operated at a forward current of 3865 milliamps.
Forward current 3870 mALED operated at a forward current of 3870 milliamps.
Forward current 3875 mALED operated at a forward current of 3875 milliamps.
Forward current 3880 mALED operated at a forward current of 3880 milliamps.
Forward current 3885 mALED operated at a forward current of 3885 milliamps.
Forward current 3890 mALED operated at a forward current of 3890 milliamps.
Forward current 3895 mALED operated at a forward current of 3895 milliamps.
Forward current 390 mALED operated at a forward current of 390 milliamps.
Forward current 3900 mALED operated at a forward current of 3900 milliamps.
Forward current 3905 mALED operated at a forward current of 3905 milliamps.
Forward current 3910 mALED operated at a forward current of 3910 milliamps.
Forward current 3915 mALED operated at a forward current of 3915 milliamps.
Forward current 3920 mALED operated at a forward current of 3920 milliamps.
Forward current 3925 mALED operated at a forward current of 3925 milliamps.
Forward current 3930 mALED operated at a forward current of 3930 milliamps.
Forward current 3935 mALED operated at a forward current of 3935 milliamps.
Forward current 3940 mALED operated at a forward current of 3940 milliamps.
Forward current 3945 mALED operated at a forward current of 3945 milliamps.
Forward current 395 mALED operated at a forward current of 395 milliamps.
Forward current 3950 mALED operated at a forward current of 3950 milliamps.
Forward current 3955 mALED operated at a forward current of 3955 milliamps.
Forward current 3960 mALED operated at a forward current of 3960 milliamps.
Forward current 3965 mALED operated at a forward current of 3965 milliamps.
Forward current 3970 mALED operated at a forward current of 3970 milliamps.
Forward current 3975 mALED operated at a forward current of 3975 milliamps.
Forward current 3980 mALED operated at a forward current of 3980 milliamps.
Forward current 3985 mALED operated at a forward current of 3985 milliamps.
Forward current 3990 mALED operated at a forward current of 3990 milliamps.
Forward current 3995 mALED operated at a forward current of 3995 milliamps.
Forward current 40 mALED operated at a forward current of 40 milliamps.
Forward current 400 mALED operated at a forward current of 400 milliamps.
Forward current 4000 mALED operated at a forward current of 4000 milliamps.
Forward current 4005 mALED operated at a forward current of 4005 milliamps.
Forward current 4010 mALED operated at a forward current of 4010 milliamps.
Forward current 4015 mALED operated at a forward current of 4015 milliamps.
Forward current 4020 mALED operated at a forward current of 4020 milliamps.
Forward current 4025 mALED operated at a forward current of 4025 milliamps.
Forward current 4030 mALED operated at a forward current of 4030 milliamps.
Forward current 4035 mALED operated at a forward current of 4035 milliamps.
Forward current 4040 mALED operated at a forward current of 4040 milliamps.
Forward current 4045 mALED operated at a forward current of 4045 milliamps.
Forward current 405 mALED operated at a forward current of 405 milliamps.
Forward current 4050 mALED operated at a forward current of 4050 milliamps.
Forward current 4055 mALED operated at a forward current of 4055 milliamps.
Forward current 4060 mALED operated at a forward current of 4060 milliamps.
Forward current 4065 mALED operated at a forward current of 4065 milliamps.
Forward current 4070 mALED operated at a forward current of 4070 milliamps.
Forward current 4075 mALED operated at a forward current of 4075 milliamps.
Forward current 4080 mALED operated at a forward current of 4080 milliamps.
Forward current 4085 mALED operated at a forward current of 4085 milliamps.
Forward current 4090 mALED operated at a forward current of 4090 milliamps.
Forward current 4095 mALED operated at a forward current of 4095 milliamps.
Forward current 410 mALED operated at a forward current of 410 milliamps.
Forward current 4100 mALED operated at a forward current of 4100 milliamps.
Forward current 4105 mALED operated at a forward current of 4105 milliamps.
Forward current 4110 mALED operated at a forward current of 4110 milliamps.
Forward current 4115 mALED operated at a forward current of 4115 milliamps.
Forward current 4120 mALED operated at a forward current of 4120 milliamps.
Forward current 4125 mALED operated at a forward current of 4125 milliamps.
Forward current 4130 mALED operated at a forward current of 4130 milliamps.
Forward current 4135 mALED operated at a forward current of 4135 milliamps.
Forward current 4140 mALED operated at a forward current of 4140 milliamps.
Forward current 4145 mALED operated at a forward current of 4145 milliamps.
Forward current 415 mALED operated at a forward current of 415 milliamps.
Forward current 4150 mALED operated at a forward current of 4150 milliamps.
Forward current 4155 mALED operated at a forward current of 4155 milliamps.
Forward current 4160 mALED operated at a forward current of 4160 milliamps.
Forward current 4165 mALED operated at a forward current of 4165 milliamps.
Forward current 4170 mALED operated at a forward current of 4170 milliamps.
Forward current 4175 mALED operated at a forward current of 4175 milliamps.
Forward current 4180 mALED operated at a forward current of 4180 milliamps.
Forward current 4185 mALED operated at a forward current of 4185 milliamps.
Forward current 4190 mALED operated at a forward current of 4190 milliamps.
Forward current 4195 mALED operated at a forward current of 4195 milliamps.
Forward current 420 mALED operated at a forward current of 420 milliamps.
Forward current 4200 mALED operated at a forward current of 4200 milliamps.
Forward current 4205 mALED operated at a forward current of 4205 milliamps.
Forward current 4210 mALED operated at a forward current of 4210 milliamps.
Forward current 4215 mALED operated at a forward current of 4215 milliamps.
Forward current 4220 mALED operated at a forward current of 4220 milliamps.
Forward current 4225 mALED operated at a forward current of 4225 milliamps.
Forward current 4230 mALED operated at a forward current of 4230 milliamps.
Forward current 4235 mALED operated at a forward current of 4235 milliamps.
Forward current 4240 mALED operated at a forward current of 4240 milliamps.
Forward current 4245 mALED operated at a forward current of 4245 milliamps.
Forward current 425 mALED operated at a forward current of 425 milliamps.
Forward current 4250 mALED operated at a forward current of 4250 milliamps.
Forward current 4255 mALED operated at a forward current of 4255 milliamps.
Forward current 4260 mALED operated at a forward current of 4260 milliamps.
Forward current 4265 mALED operated at a forward current of 4265 milliamps.
Forward current 4270 mALED operated at a forward current of 4270 milliamps.
Forward current 4275 mALED operated at a forward current of 4275 milliamps.
Forward current 4280 mALED operated at a forward current of 4280 milliamps.
Forward current 4285 mALED operated at a forward current of 4285 milliamps.
Forward current 4290 mALED operated at a forward current of 4290 milliamps.
Forward current 4295 mALED operated at a forward current of 4295 milliamps.
Forward current 430 mALED operated at a forward current of 430 milliamps.
Forward current 4300 mALED operated at a forward current of 4300 milliamps.
Forward current 4305 mALED operated at a forward current of 4305 milliamps.
Forward current 4310 mALED operated at a forward current of 4310 milliamps.
Forward current 4315 mALED operated at a forward current of 4315 milliamps.
Forward current 4320 mALED operated at a forward current of 4320 milliamps.
Forward current 4325 mALED operated at a forward current of 4325 milliamps.
Forward current 4330 mALED operated at a forward current of 4330 milliamps.
Forward current 4335 mALED operated at a forward current of 4335 milliamps.
Forward current 4340 mALED operated at a forward current of 4340 milliamps.
Forward current 4345 mALED operated at a forward current of 4345 milliamps.
Forward current 435 mALED operated at a forward current of 435 milliamps.
Forward current 4350 mALED operated at a forward current of 4350 milliamps.
Forward current 4355 mALED operated at a forward current of 4355 milliamps.
Forward current 4360 mALED operated at a forward current of 4360 milliamps.
Forward current 4365 mALED operated at a forward current of 4365 milliamps.
Forward current 4370 mALED operated at a forward current of 4370 milliamps.
Forward current 4375 mALED operated at a forward current of 4375 milliamps.
Forward current 4380 mALED operated at a forward current of 4380 milliamps.
Forward current 4385 mALED operated at a forward current of 4385 milliamps.
Forward current 4390 mALED operated at a forward current of 4390 milliamps.
Forward current 4395 mALED operated at a forward current of 4395 milliamps.
Forward current 440 mALED operated at a forward current of 440 milliamps.
Forward current 4400 mALED operated at a forward current of 4400 milliamps.
Forward current 4405 mALED operated at a forward current of 4405 milliamps.
Forward current 4410 mALED operated at a forward current of 4410 milliamps.
Forward current 4415 mALED operated at a forward current of 4415 milliamps.
Forward current 4420 mALED operated at a forward current of 4420 milliamps.
Forward current 4425 mALED operated at a forward current of 4425 milliamps.
Forward current 4430 mALED operated at a forward current of 4430 milliamps.
Forward current 4435 mALED operated at a forward current of 4435 milliamps.
Forward current 4440 mALED operated at a forward current of 4440 milliamps.
Forward current 4445 mALED operated at a forward current of 4445 milliamps.
Forward current 445 mALED operated at a forward current of 445 milliamps.
Forward current 4450 mALED operated at a forward current of 4450 milliamps.
Forward current 4455 mALED operated at a forward current of 4455 milliamps.
Forward current 4460 mALED operated at a forward current of 4460 milliamps.
Forward current 4465 mALED operated at a forward current of 4465 milliamps.
Forward current 4470 mALED operated at a forward current of 4470 milliamps.
Forward current 4475 mALED operated at a forward current of 4475 milliamps.
Forward current 4480 mALED operated at a forward current of 4480 milliamps.
Forward current 4485 mALED operated at a forward current of 4485 milliamps.
Forward current 4490 mALED operated at a forward current of 4490 milliamps.
Forward current 4495 mALED operated at a forward current of 4495 milliamps.
Forward current 45 mALED operated at a forward current of 45 milliamps.
Forward current 450 mALED operated at a forward current of 450 milliamps.
Forward current 4500 mALED operated at a forward current of 4500 milliamps.
Forward current 4505 mALED operated at a forward current of 4505 milliamps.
Forward current 4510 mALED operated at a forward current of 4510 milliamps.
Forward current 4515 mALED operated at a forward current of 4515 milliamps.
Forward current 4520 mALED operated at a forward current of 4520 milliamps.
Forward current 4525 mALED operated at a forward current of 4525 milliamps.
Forward current 4530 mALED operated at a forward current of 4530 milliamps.
Forward current 4535 mALED operated at a forward current of 4535 milliamps.
Forward current 4540 mALED operated at a forward current of 4540 milliamps.
Forward current 4545 mALED operated at a forward current of 4545 milliamps.
Forward current 455 mALED operated at a forward current of 455 milliamps.
Forward current 4550 mALED operated at a forward current of 4550 milliamps.
Forward current 4555 mALED operated at a forward current of 4555 milliamps.
Forward current 4560 mALED operated at a forward current of 4560 milliamps.
Forward current 4565 mALED operated at a forward current of 4565 milliamps.
Forward current 4570 mALED operated at a forward current of 4570 milliamps.
Forward current 4575 mALED operated at a forward current of 4575 milliamps.
Forward current 4580 mALED operated at a forward current of 4580 milliamps.
Forward current 4585 mALED operated at a forward current of 4585 milliamps.
Forward current 4590 mALED operated at a forward current of 4590 milliamps.
Forward current 4595 mALED operated at a forward current of 4595 milliamps.
Forward current 460 mALED operated at a forward current of 460 milliamps.
Forward current 4600 mALED operated at a forward current of 4600 milliamps.
Forward current 4605 mALED operated at a forward current of 4605 milliamps.
Forward current 4610 mALED operated at a forward current of 4610 milliamps.
Forward current 4615 mALED operated at a forward current of 4615 milliamps.
Forward current 4620 mALED operated at a forward current of 4620 milliamps.
Forward current 4625 mALED operated at a forward current of 4625 milliamps.
Forward current 4630 mALED operated at a forward current of 4630 milliamps.
Forward current 4635 mALED operated at a forward current of 4635 milliamps.
Forward current 4640 mALED operated at a forward current of 4640 milliamps.
Forward current 4645 mALED operated at a forward current of 4645 milliamps.
Forward current 465 mALED operated at a forward current of 465 milliamps.
Forward current 4650 mALED operated at a forward current of 4650 milliamps.
Forward current 4655 mALED operated at a forward current of 4655 milliamps.
Forward current 4660 mALED operated at a forward current of 4660 milliamps.
Forward current 4665 mALED operated at a forward current of 4665 milliamps.
Forward current 4670 mALED operated at a forward current of 4670 milliamps.
Forward current 4675 mALED operated at a forward current of 4675 milliamps.
Forward current 4680 mALED operated at a forward current of 4680 milliamps.
Forward current 4685 mALED operated at a forward current of 4685 milliamps.
Forward current 4690 mALED operated at a forward current of 4690 milliamps.
Forward current 4695 mALED operated at a forward current of 4695 milliamps.
Forward current 470 mALED operated at a forward current of 470 milliamps.
Forward current 4700 mALED operated at a forward current of 4700 milliamps.
Forward current 4705 mALED operated at a forward current of 4705 milliamps.
Forward current 4710 mALED operated at a forward current of 4710 milliamps.
Forward current 4715 mALED operated at a forward current of 4715 milliamps.
Forward current 4720 mALED operated at a forward current of 4720 milliamps.
Forward current 4725 mALED operated at a forward current of 4725 milliamps.
Forward current 4730 mALED operated at a forward current of 4730 milliamps.
Forward current 4735 mALED operated at a forward current of 4735 milliamps.
Forward current 4740 mALED operated at a forward current of 4740 milliamps.
Forward current 4745 mALED operated at a forward current of 4745 milliamps.
Forward current 475 mALED operated at a forward current of 475 milliamps.
Forward current 4750 mALED operated at a forward current of 4750 milliamps.
Forward current 4755 mALED operated at a forward current of 4755 milliamps.
Forward current 4760 mALED operated at a forward current of 4760 milliamps.
Forward current 4765 mALED operated at a forward current of 4765 milliamps.
Forward current 4770 mALED operated at a forward current of 4770 milliamps.
Forward current 4775 mALED operated at a forward current of 4775 milliamps.
Forward current 4780 mALED operated at a forward current of 4780 milliamps.
Forward current 4785 mALED operated at a forward current of 4785 milliamps.
Forward current 4790 mALED operated at a forward current of 4790 milliamps.
Forward current 4795 mALED operated at a forward current of 4795 milliamps.
Forward current 480 mALED operated at a forward current of 480 milliamps.
Forward current 4800 mALED operated at a forward current of 4800 milliamps.
Forward current 4805 mALED operated at a forward current of 4805 milliamps.
Forward current 4810 mALED operated at a forward current of 4810 milliamps.
Forward current 4815 mALED operated at a forward current of 4815 milliamps.
Forward current 4820 mALED operated at a forward current of 4820 milliamps.
Forward current 4825 mALED operated at a forward current of 4825 milliamps.
Forward current 4830 mALED operated at a forward current of 4830 milliamps.
Forward current 4835 mALED operated at a forward current of 4835 milliamps.
Forward current 4840 mALED operated at a forward current of 4840 milliamps.
Forward current 4845 mALED operated at a forward current of 4845 milliamps.
Forward current 485 mALED operated at a forward current of 485 milliamps.
Forward current 4850 mALED operated at a forward current of 4850 milliamps.
Forward current 4855 mALED operated at a forward current of 4855 milliamps.
Forward current 4860 mALED operated at a forward current of 4860 milliamps.
Forward current 4865 mALED operated at a forward current of 4865 milliamps.
Forward current 4870 mALED operated at a forward current of 4870 milliamps.
Forward current 4875 mALED operated at a forward current of 4875 milliamps.
Forward current 4880 mALED operated at a forward current of 4880 milliamps.
Forward current 4885 mALED operated at a forward current of 4885 milliamps.
Forward current 4890 mALED operated at a forward current of 4890 milliamps.
Forward current 4895 mALED operated at a forward current of 4895 milliamps.
Forward current 490 mALED operated at a forward current of 490 milliamps.
Forward current 4900 mALED operated at a forward current of 4900 milliamps.
Forward current 4905 mALED operated at a forward current of 4905 milliamps.
Forward current 4910 mALED operated at a forward current of 4910 milliamps.
Forward current 4915 mALED operated at a forward current of 4915 milliamps.
Forward current 4920 mALED operated at a forward current of 4920 milliamps.
Forward current 4925 mALED operated at a forward current of 4925 milliamps.
Forward current 4930 mALED operated at a forward current of 4930 milliamps.
Forward current 4935 mALED operated at a forward current of 4935 milliamps.
Forward current 4940 mALED operated at a forward current of 4940 milliamps.
Forward current 4945 mALED operated at a forward current of 4945 milliamps.
Forward current 495 mALED operated at a forward current of 495 milliamps.
Forward current 4950 mALED operated at a forward current of 4950 milliamps.
Forward current 4955 mALED operated at a forward current of 4955 milliamps.
Forward current 4960 mALED operated at a forward current of 4960 milliamps.
Forward current 4965 mALED operated at a forward current of 4965 milliamps.
Forward current 4970 mALED operated at a forward current of 4970 milliamps.
Forward current 4975 mALED operated at a forward current of 4975 milliamps.
Forward current 4980 mALED operated at a forward current of 4980 milliamps.
Forward current 4985 mALED operated at a forward current of 4985 milliamps.
Forward current 4990 mALED operated at a forward current of 4990 milliamps.
Forward current 4995 mALED operated at a forward current of 4995 milliamps.
Forward current 50 mALED operated at a forward current of 50 milliamps.
Forward current 500 mALED operated at a forward current of 500 milliamps.
Forward current 5000 mALED operated at a forward current of 5000 milliamps.
Forward current 505 mALED operated at a forward current of 505 milliamps.
Forward current 510 mALED operated at a forward current of 510 milliamps.
Forward current 515 mALED operated at a forward current of 515 milliamps.
Forward current 520 mALED operated at a forward current of 520 milliamps.
Forward current 525 mALED operated at a forward current of 525 milliamps.
Forward current 530 mALED operated at a forward current of 530 milliamps.
Forward current 535 mALED operated at a forward current of 535 milliamps.
Forward current 540 mALED operated at a forward current of 540 milliamps.
Forward current 545 mALED operated at a forward current of 545 milliamps.
Forward current 55 mALED operated at a forward current of 55 milliamps.
Forward current 550 mALED operated at a forward current of 550 milliamps.
Forward current 555 mALED operated at a forward current of 555 milliamps.
Forward current 560 mALED operated at a forward current of 560 milliamps.
Forward current 565 mALED operated at a forward current of 565 milliamps.
Forward current 570 mALED operated at a forward current of 570 milliamps.
Forward current 575 mALED operated at a forward current of 575 milliamps.
Forward current 580 mALED operated at a forward current of 580 milliamps.
Forward current 585 mALED operated at a forward current of 585 milliamps.
Forward current 590 mALED operated at a forward current of 590 milliamps.
Forward current 595 mALED operated at a forward current of 595 milliamps.
Forward current 60 mALED operated at a forward current of 60 milliamps.
Forward current 600 mALED operated at a forward current of 600 milliamps.
Forward current 605 mALED operated at a forward current of 605 milliamps.
Forward current 610 mALED operated at a forward current of 610 milliamps.
Forward current 615 mALED operated at a forward current of 615 milliamps.
Forward current 620 mALED operated at a forward current of 620 milliamps.
Forward current 625 mALED operated at a forward current of 625 milliamps.
Forward current 630 mALED operated at a forward current of 630 milliamps.
Forward current 635 mALED operated at a forward current of 635 milliamps.
Forward current 640 mALED operated at a forward current of 640 milliamps.
Forward current 645 mALED operated at a forward current of 645 milliamps.
Forward current 65 mALED operated at a forward current of 65 milliamps.
Forward current 650 mALED operated at a forward current of 650 milliamps.
Forward current 655 mALED operated at a forward current of 655 milliamps.
Forward current 660 mALED operated at a forward current of 660 milliamps.
Forward current 665 mALED operated at a forward current of 665 milliamps.
Forward current 670 mALED operated at a forward current of 670 milliamps.
Forward current 675 mALED operated at a forward current of 675 milliamps.
Forward current 680 mALED operated at a forward current of 680 milliamps.
Forward current 685 mALED operated at a forward current of 685 milliamps.
Forward current 690 mALED operated at a forward current of 690 milliamps.
Forward current 695 mALED operated at a forward current of 695 milliamps.
Forward current 70 mALED operated at a forward current of 70 milliamps.
Forward current 700 mALED operated at a forward current of 700 milliamps.
Forward current 705 mALED operated at a forward current of 705 milliamps.
Forward current 710 mALED operated at a forward current of 710 milliamps.
Forward current 715 mALED operated at a forward current of 715 milliamps.
Forward current 720 mALED operated at a forward current of 720 milliamps.
Forward current 725 mALED operated at a forward current of 725 milliamps.
Forward current 730 mALED operated at a forward current of 730 milliamps.
Forward current 735 mALED operated at a forward current of 735 milliamps.
Forward current 740 mALED operated at a forward current of 740 milliamps.
Forward current 745 mALED operated at a forward current of 745 milliamps.
Forward current 75 mALED operated at a forward current of 75 milliamps.
Forward current 750 mALED operated at a forward current of 750 milliamps.
Forward current 755 mALED operated at a forward current of 755 milliamps.
Forward current 760 mALED operated at a forward current of 760 milliamps.
Forward current 765 mALED operated at a forward current of 765 milliamps.
Forward current 770 mALED operated at a forward current of 770 milliamps.
Forward current 775 mALED operated at a forward current of 775 milliamps.
Forward current 780 mALED operated at a forward current of 780 milliamps.
Forward current 785 mALED operated at a forward current of 785 milliamps.
Forward current 790 mALED operated at a forward current of 790 milliamps.
Forward current 795 mALED operated at a forward current of 795 milliamps.
Forward current 80 mALED operated at a forward current of 80 milliamps.
Forward current 800 mALED operated at a forward current of 800 milliamps.
Forward current 805 mALED operated at a forward current of 805 milliamps.
Forward current 810 mALED operated at a forward current of 810 milliamps.
Forward current 815 mALED operated at a forward current of 815 milliamps.
Forward current 820 mALED operated at a forward current of 820 milliamps.
Forward current 825 mALED operated at a forward current of 825 milliamps.
Forward current 830 mALED operated at a forward current of 830 milliamps.
Forward current 835 mALED operated at a forward current of 835 milliamps.
Forward current 840 mALED operated at a forward current of 840 milliamps.
Forward current 845 mALED operated at a forward current of 845 milliamps.
Forward current 85 mALED operated at a forward current of 85 milliamps.
Forward current 850 mALED operated at a forward current of 850 milliamps.
Forward current 855 mALED operated at a forward current of 855 milliamps.
Forward current 860 mALED operated at a forward current of 860 milliamps.
Forward current 865 mALED operated at a forward current of 865 milliamps.
Forward current 870 mALED operated at a forward current of 870 milliamps.
Forward current 875 mALED operated at a forward current of 875 milliamps.
Forward current 880 mALED operated at a forward current of 880 milliamps.
Forward current 885 mALED operated at a forward current of 885 milliamps.
Forward current 890 mALED operated at a forward current of 890 milliamps.
Forward current 895 mALED operated at a forward current of 895 milliamps.
Forward current 90 mALED operated at a forward current of 90 milliamps.
Forward current 900 mALED operated at a forward current of 900 milliamps.
Forward current 905 mALED operated at a forward current of 905 milliamps.
Forward current 910 mALED operated at a forward current of 910 milliamps.
Forward current 915 mALED operated at a forward current of 915 milliamps.
Forward current 920 mALED operated at a forward current of 920 milliamps.
Forward current 925 mALED operated at a forward current of 925 milliamps.
Forward current 930 mALED operated at a forward current of 930 milliamps.
Forward current 935 mALED operated at a forward current of 935 milliamps.
Forward current 940 mALED operated at a forward current of 940 milliamps.
Forward current 945 mALED operated at a forward current of 945 milliamps.
Forward current 95 mALED operated at a forward current of 95 milliamps.
Forward current 950 mALED operated at a forward current of 950 milliamps.
Forward current 955 mALED operated at a forward current of 955 milliamps.
Forward current 960 mALED operated at a forward current of 960 milliamps.
Forward current 965 mALED operated at a forward current of 965 milliamps.
Forward current 970 mALED operated at a forward current of 970 milliamps.
Forward current 975 mALED operated at a forward current of 975 milliamps.
Forward current 980 mALED operated at a forward current of 980 milliamps.
Forward current 985 mALED operated at a forward current of 985 milliamps.
Forward current 990 mALED operated at a forward current of 990 milliamps.
Forward current 995 mALED operated at a forward current of 995 milliamps.
Forward voltage (Vf)Voltage drop across an LED under forward-bias conditions.
Foundation boltAnchor bolt cast into concrete for securing outdoor lighting poles.
FPCB (Flexible Printed Circuit Board)Flexible substrate on which strip LEDs are mounted.
FR4Composite PCB material used in standard rigid LED light bars.
Frame (luminaire)Structural housing of a luminaire that holds all components.
Frame (trim)Decorative border around a recessed luminaire visible from below.
Free-issue materialComponents supplied by the client to the installer for inclusion in the project.
Frequency (PWM)Rate of the PWM pulse train; must exceed 400 Hz for flicker-free operation.
Frequency (switching)Driver’s internal switching rate, typically 50–200 kHz.
Frequency responseRange of control-signal frequencies a driver or sensor can process.
Fresnel lensThin stepped lens with concentric rings for focusing or spreading a beam.
Front glassProtective transparent or diffusing element on the front of a luminaire.
Front-of-house lightingIllumination of the audience-facing areas in a theatre or venue.
Frostbite diffuserHeavily frosted cover providing maximum LED dot concealment.
Frostbite finishHeavily frosted diffuser producing maximum dot-free diffusion.
Frosted lensTextured glass or plastic diffusing the beam and softening shadows.
Full cut-off luminaireLuminaire emitting zero light at or above the horizontal plane.
Full moon effectGentle cool-white LED wash replicating moonlight in landscape settings.
Full-colourLED system reproducing the entire chromatic gamut via RGB or RGBW.
Full-spectrum LEDLED with a continuous spectrum similar to natural light and high CRI.
Function (emergency)Capability of operating during mains power failure.
Function (maintained)Emergency luminaire that operates both on mains and on battery power.
Function (non-maintained)Emergency luminaire that lights only when mains power fails.
Functional lightingIllumination primarily serving a practical purpose (task, safety, wayfinding).
Furniture power feedLow-voltage cable supplying LED strips inside desks, shelves or cabinets.
FuseOvercurrent protection device breaking the circuit when current is exceeded.
Fuse (glass)Small glass-body fuse used in low-voltage LED circuits.
Fuse (resettable / PTC)Self-resetting polymer fuse for LED overcurrent protection.
Fuse holder (inline)Cable-mounted fuse carrier for individual LED circuit protection.
Future-proofingDesigning an installation to accommodate technology upgrades without re-wiring.

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G

G-clampAdjustable clamp for temporary mounting of LED fixtures on edges or pipes.
G4 baseBi-pin lamp base with 4 mm pin spacing, common in 12 V LED capsules.
G9 baseBi-pin lamp base with 9 mm pin spacing for mains-voltage LED capsules.
Galvanic isolationElectrical separation between mains and LED sides inside a driver.
Gamut (chromatic)Range of colours an LED system can reproduce, plotted in the CIE diagram.
GaN-on-SiLED die technology growing gallium-nitride layers on a silicon substrate.
GaN-on-SiCLED die technology growing gallium-nitride on a silicon-carbide substrate.
Ganged dimmerMultiple dimmer modules mechanically linked for side-by-side wall mounting.
Gantt chart (project)Timeline chart for scheduling LED installation project tasks.
Gap (luminous)Dark zone between two strip or profile segments, to be avoided.
Gap filler (thermal)Compressible pad filling uneven gaps between LED strip and heat-sink surface.
Garden spikeGround-mounted spike base for outdoor LED spotlights.
GasketSealing element in silicone or EPDM providing IP protection.
Gasket (compression)Gasket that seals when the cover or lens is tightened down.
Gasket (intumescent)Gasket expanding under heat to maintain fire-compartment integrity.
GatewayDevice translating between protocols (DALI-KNX, DMX-Ethernet, Zigbee-IP).
Gateway (BACnet)Bridge connecting DALI or KNX lighting to a BACnet BMS.
Gateway (cloud)Device linking a local lighting network to a cloud management platform.
Gateway (IP)Device bridging a field bus (DALI, KNX) to an IP network.
Gateway (Zigbee-to-Ethernet)Bridge translating Zigbee mesh traffic to IP packets.
Gaussian distributionBell-curve intensity profile sometimes seen in LED beam patterns.
Gel (colour)Thin coloured plastic sheet placed over a luminaire to alter beam colour.
Gel frameMetal holder clipping a colour-gel sheet onto a luminaire.
General lightingUniform illumination across an entire room, not focused on any task.
Geometric factorRoom geometry parameter used in lighting-calculation methods.
Ghosting (LED)Faint unwanted glow when LEDs are supposed to be off, caused by leakage current.
Gimbal ringPivoting inner ring allowing a recessed downlight to be aimed off-axis.
GlareVisual discomfort or impaired vision caused by excessive luminance.
Glare (direct)Glare from the luminaire itself when viewed from the observer’s position.
Glare (disability)Glare that measurably reduces visual performance.
Glare (discomfort)Glare causing annoyance without reducing visual acuity.
Glare (reflected / veiling)Glare from specular reflections on shiny surfaces.
Glare limit car park UGR25Maximum Unified Glare Rating of 25 for car park environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit classroom UGR19Maximum Unified Glare Rating of 19 for classroom environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit computer room UGR16Maximum Unified Glare Rating of 16 for computer room environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit corridor UGR25Maximum Unified Glare Rating of 25 for corridor environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit drawing office UGR16Maximum Unified Glare Rating of 16 for drawing office environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit factory fine UGR19Maximum Unified Glare Rating of 19 for factory fine environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit general office UGR19Maximum Unified Glare Rating of 19 for general office environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit jewellery shop UGR16Maximum Unified Glare Rating of 16 for jewellery shop environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit museum UGR19Maximum Unified Glare Rating of 19 for museum environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit restaurant UGR22Maximum Unified Glare Rating of 22 for restaurant environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit retail UGR22Maximum Unified Glare Rating of 22 for retail environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit screen work UGR19Maximum Unified Glare Rating of 19 for screen work environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit sports hall UGR22Maximum Unified Glare Rating of 22 for sports hall environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glare limit warehouse UGR25Maximum Unified Glare Rating of 25 for warehouse environments. Achieving this target requires appropriate luminaire optics, spacing and mounting height to ensure visual comfort for occupants.
Glass (borosilicate)Heat-resistant glass used in high-temperature luminaire lenses.
Glass (tempered)Heat-treated glass with high impact resistance for luminaire covers.
Glass-fibre reinforced plastic (GRP)Lightweight corrosion-resistant material for outdoor luminaire housings.
Glazing (diffuser)Translucent or textured glass or plastic panel in front of the LED source.
Globe (luminaire)Spherical or near-spherical enclosure surrounding an LED source.
Glow wire testStandardised test assessing the fire resistance of luminaire plastics.
Glow-wire temperatureMinimum temperature a luminaire plastic must withstand in the glow-wire test.
GN (Gallium Nitride)Semiconductor material used in blue, green and white LED dies.
GNSS (GPS) time syncSatellite-based time synchronisation for astronomical lighting clocks.
GoboMetal or glass template inserted into a projector to cast a shaped light pattern.
Gold wire bondFine gold wire connecting the LED die to the lead frame inside the package.
Goniometer / GoniophotometerInstrument measuring luminous intensity distribution in space.
Grade (lighting)Quality tier of an LED product (economy, standard, professional, premium).
Grading (light)Gradual transition between illuminated and non-illuminated areas.
Gradual startSlowly increasing brightness over a set ramp time after switch-on.
Graphic equaliser (lighting)Multi-channel fader bank for adjusting individual DMX channel levels.
Grazer lightingGrazing light technique accentuating surface textures.
Grazing incidenceLight striking a surface at a very low angle to emphasise texture.
Green building certificationLEED, BREEAM or WELL rating incorporating energy-efficient LED lighting.
Grid (anti-glare)Louvre or honeycomb limiting emission angle to reduce glare.
Grid (ceiling / T-bar)Metal framework supporting modular ceiling tiles and LED panels.
Grid patternRegular arrangement of luminaires on a ceiling for uniform general lighting.
Ground faultUnintended current path to earth, detected by RCDs/GFCIs.
Ground plane (thermal)Large copper area on a PCB spreading heat under high-power LEDs.
Ground spike luminaireOutdoor LED spotlight with an integral pointed stake for garden installation.
Ground-recessed luminaireLuminaire installed flush with the ground surface for uplighting.
Group (DALI)Logical DALI grouping for simultaneous control of multiple luminaires.
Group (KNX)Logical KNX address linking multiple actuators and sensors.
Group address (KNX)Logical address linking KNX actuators and sensors for coordinated action.
GU10 baseTwist-lock bi-pin lamp base for mains-voltage LED spotlights.
GU5.3 / MR16 baseBi-pin base for 12 V LED spotlights, 5.3 mm pin spacing.
Guard (luminaire)Wire cage protecting a luminaire from mechanical impact.
Guide (light)Transparent element transporting and distributing LED light along its length.
Guide (optical)PMMA or PC component directing the beam via total internal reflection.
Guide numberMeasure of flash illumination distance, rarely used for LED but common in photography.
Gutter (cable)Dedicated channel at the rear of a profile for concealed cable routing.
Gutter (wiring)Channel in the back of a profile for routing power and signal cables.

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H

H-connector (profile)Double-ended connector joining two profiles with a short gap between them.
Half-life (LED)Operating hours at which the LED reaches 50 percent of initial flux (L50).
Halide perovskite LEDEmerging LED technology using perovskite crystals for narrow-band emission.
Hallway sensorLong-range PIR or microwave sensor optimised for narrow corridor detection.
Halo (light)Luminous ring around the main beam from diffusion or reflection.
Halo profileCircular LED profile forming a complete ring for pendant or ceiling feature.
Halogen-freeMaterial free of halogens, required for cables in public spaces.
Handheld DMX testerPortable device for verifying DMX signals and diagnosing wiring faults.
Handrail profileLED profile integrated into a staircase or balustrade handrail.
Hanger (chain)Chain suspension hardware for heavy LED luminaires.
Hanger (rod)Rigid rod suspension for LED profiles, adjustable in length.
Hanger (wire / cable)Thin steel cable for suspending LED profiles from the ceiling.
Hardwired connectionPermanent electrical connection with no plug, made in a junction box.
Harmonic distortion (THD)Measure of current-waveform distortion drawn by the driver.
Harmonic filterPassive or active circuit reducing harmonic currents generated by LED drivers.
HarmonicsInteger multiples of the mains frequency generated by non-linear LED drivers.
Haze (optical)Percentage of transmitted light that is scattered more than 2.5° from the incident beam.
HCL (Human Centric Lighting)Lighting designed for human wellbeing with dynamic intensity and colour.
HDMI-to-LED converterInterface translating video signals into LED pixel data for display walls.
Header connectorMulti-pin PCB connector providing power and data to an LED module.
Heat bridgeUnintended thermal path bypassing insulation, relevant for recessed luminaire placement.
Heat dissipationProcess of transferring heat from the LED junction to the environment.
Heat pipeEvaporative tube for rapid heat transfer in high-performance heat sinks.
Heat sinkMetal component absorbing and dissipating heat generated by LEDs.
Heat sink (active)Heat sink with a fan or other active cooling mechanism.
Heat sink (extruded)Aluminium heat sink produced by extrusion, with parallel fins.
Heat sink (passive)Heat sink relying solely on natural convection and radiation.
Heat-resistant cableCable rated for continuous operation above 90 °C, used near LED heat sinks.
Heat-shrink tubingPlastic tube that shrinks when heated, insulating and protecting wire joints.
Heat-sink compoundThermally conductive paste filling micro-gaps between surfaces for efficient heat transfer.
Height 1.5m mountLuminaire at 1.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 10.0m mountLuminaire at 10.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 10.5m mountLuminaire at 10.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 11.0m mountLuminaire at 11.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 11.5m mountLuminaire at 11.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 12.0m mountLuminaire at 12.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 12.5m mountLuminaire at 12.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 13.0m mountLuminaire at 13.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 13.5m mountLuminaire at 13.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 14.0m mountLuminaire at 14.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 14.5m mountLuminaire at 14.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 15.0m mountLuminaire at 15.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 15.5m mountLuminaire at 15.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 16.0m mountLuminaire at 16.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 16.5m mountLuminaire at 16.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 17.0m mountLuminaire at 17.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 17.5m mountLuminaire at 17.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 18.0m mountLuminaire at 18.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 18.5m mountLuminaire at 18.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 19.0m mountLuminaire at 19.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 19.5m mountLuminaire at 19.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 2.0m mountLuminaire at 2.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 2.5m mountLuminaire at 2.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 3.0m mountLuminaire at 3.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 3.5m mountLuminaire at 3.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 4.0m mountLuminaire at 4.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 4.5m mountLuminaire at 4.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 5.0m mountLuminaire at 5.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 5.5m mountLuminaire at 5.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 6.0m mountLuminaire at 6.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 6.5m mountLuminaire at 6.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 7.0m mountLuminaire at 7.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 7.5m mountLuminaire at 7.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 8.0m mountLuminaire at 8.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 8.5m mountLuminaire at 8.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 9.0m mountLuminaire at 9.0m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height 9.5m mountLuminaire at 9.5m above finished floor level. Mounting height is a primary variable in lighting calculations, directly affecting illuminance (inverse-square law), uniformity and glare rating.
Height-adjustable pendantSuspension system allowing the hanging height of a luminaire to be changed.
Helical baffleSpiral-shaped internal element in a cylindrical luminaire for glare control.
Hermetic sealAirtight and watertight closure of a luminaire, achieving IP67 or IP68.
Hertz (Hz)Unit of frequency for PWM frequency and LED flicker rates.
Hi-pot testHigh-potential (dielectric) test verifying insulation integrity of a driver or luminaire.
Hidden fixingsMounting hardware concealed from view for a clean installation appearance.
High BayLED luminaire for heights above 6 m, warehouses and factories.
High CRILED with Colour Rendering Index of 90 or above.
High-bay sensorOccupancy sensor designed for mounting heights above 6 m.
High-definition pixel stripAddressable strip with very small pitch (≤ 10 mm) for detailed effects.
High-density stripStrip with a high LED count per metre for a continuous line of light.
High-flux LEDLED die producing more than 200 lumens at rated current.
High-mast lightingLuminaires mounted on poles above 20 m for large-area outdoor illumination.
High-output (HO)Strip or LED with above-average luminous output.
High-output driverDriver exceeding 200 W, intended for long strip runs or multiple luminaires.
High-power LEDLED exceeding 1 W per die for high-flux applications.
High-pressure sodium (HPS)Legacy yellow street-lamp technology now replaced by LED.
Hold time (dimming)Duration a sensor keeps lights on after the last detected movement.
Holddown clipSpring clip pressing a profile firmly against the mounting surface.
Holder (fuse)Socket or clip holding a replaceable fuse in a circuit.
Hollow cathode lampSpectroscopic reference source, unrelated to LED but sometimes confused in terminology.
Home run cableSingle dedicated cable from a luminaire directly back to the distribution board.
Honeycomb louvreHoneycomb anti-glare grid for LED profiles and luminaires.
Hook (suspension)Accessory for hanging LED profiles from the ceiling.
Horizontal lamp orientationLED tube installed horizontally, the default for ceiling troffers.
Hospitality dimmingSmooth, silent dimming curve specifically tuned for hotel and restaurant ambiance.
Hot aisleData-centre corridor where servers exhaust heat, requiring robust LED luminaires.
Hot spotPoint of excessive brightness, to be avoided with proper optical design.
Hot-cathode fluorescentLegacy lamp technology superseded by LED linear tubes.
Hot-pluggable moduleLED module that can be inserted or removed without powering down the system.
Hour counterBuilt-in meter logging cumulative operating hours of a luminaire.
HousingBody or enclosure of a profile or luminaire containing components.
HSB / HSVColour model: Hue, Saturation, Brightness/Value; used for LED control.
HSLColour model: Hue, Saturation, Lightness; an alternative representation for LED control.
HueChromatic attribute distinguishing one colour from another.
Hue shiftColour change when an LED is dimmed, measured in degrees on the hue wheel.
Human Centric Lighting (HCL)Lighting approach considering circadian rhythm and occupant wellbeing.
Humidity (relative)Proportion of moisture in the air, affecting IP requirements for luminaires.
Hybrid driverDriver combining constant-current and constant-voltage outputs.
Hybrid lightingSystem combining LED with natural daylight through skylights or light pipes.
Hydraulic damperMechanism controlling the speed of an adjustable luminaire arm.
Hydrophobic coatingWater-repelling surface treatment on outdoor luminaire lenses.
Hygroscopic materialMaterial absorbing moisture from the air, requiring sealed luminaire construction.
Hysteresis (dimming)Brightness difference between increasing and decreasing dimming paths.
Hysteresis (sensor)Difference between switch-on and switch-off thresholds of a daylight sensor.

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I

IC driver (integrated)LED driver circuitry embedded on the same PCB as the LEDs.
IC rating (insulation contact)Ceiling rating allowing a recessed luminaire to be covered by insulation.
Ice rating (IC)Ceiling insulation contact rating allowing a recessed luminaire to be covered with insulation.
Ice-proof luminaireOutdoor LED fixture designed to withstand ice loading and freeze-thaw cycles.
IEC 60529International IP codes.
IEC 60598-1International luminaire safety.
IEC 62386International standard defining the DALI protocol for lighting control.
IEC 62386-101DALI general requirements.
IEC 62386-102DALI control gear.
IEC 62386-103DALI control devices.
IEC 62386-301DALI push-button input.
IEC 62386-303DALI occupancy/light sensors.
IEC plugInternational standard mains inlet connector on LED power supplies.
IESIlluminating Engineering Society, publishing lighting standards and recommendations.
IES file (.ies)Standard photometric file describing a luminaire’s light distribution.
IES LM-79Luminaire output testing.
IES LM-80LED lumen depreciation testing.
IES LM-84Luminaire lumen maintenance testing.
IES TM-15BUG luminaire classification.
IES TM-21LED lifetime projection.
IES TM-28LED colour maintenance projection.
IES TM-30-20Colour rendition evaluation.
Ignition voltageMinimum voltage to start a gas-discharge lamp; not applicable to LEDs.
Ignition-proof luminaireLED fixture certified for environments with flammable gases or vapours.
IK ratingMechanical impact-resistance classification (IK00 to IK10).
IlluminanceLuminous flux incident on a surface, in lux (lx).
Illuminance (cylindrical)Average lux on a vertical cylindrical surface, relevant for facial recognition.
Illuminance (horizontal)Lux measured on a horizontal plane, e.g. a desk or floor.
Illuminance (maintained)Minimum lux guaranteed throughout the installation’s service life.
Illuminance (mean)Average lux across a surface, the primary design parameter.
Illuminance (semi-cylindrical)Lux on a half-cylinder, used for assessing visibility of faces.
Illuminance (vertical)Lux on a vertical plane, important for walls and faces.
Illumination (accent)Concentrated light creating contrast and drawing attention.
Illumination (ambient)General room lighting for visibility and comfort.
Illumination (architectural)Using light to enhance architectural elements.
Illumination (cove)Indirect light from a concealed ledge or recess.
Illumination (decorative)Light used primarily for aesthetic purposes.
Illumination (diffused)Uniform light without a preferred direction or hard shadows.
Illumination (direct)Light reaching the surface without intermediate reflections.
Illumination (dynamic)System varying intensity, colour or distribution over time.
Illumination (emergency)Autonomous system providing light during mains failure.
Illumination (exterior / outdoor)LED systems for outdoor spaces.
Illumination (furniture-integrated)LEDs built into cabinetry and furnishings.
Illumination (indirect)Light after ceiling or wall reflection.
Illumination (integrated)LEDs incorporated into architecture, invisible as separate fixtures.
Illumination (linear)Continuous light solution using profiles and strips.
Illumination (museum)High-CRI, low-UV/IR lighting for artwork conservation.
Illumination (perimeter)Light along room edges defining spatial boundaries.
Illumination (professional)High-quality LED systems for commercial and architectural use.
Illumination (retail)Solutions for shops focused on product presentation.
Illumination (scenographic)Light creating evocative atmospheres.
Illumination (smart)Connected LEDs controllable remotely with automatic features.
Illumination (step-marker)Low-intensity wall or floor light guiding movement.
Illumination (suspended / pendant)Luminaire hanging from the ceiling via cables or rods.
Illumination (task)Focused light on work areas meeting required lux levels.
Illumination (under-cabinet)Strip mounted beneath wall units lighting the worktop.
Illumination (wall-wash)Even illumination of an entire wall.
Image renderingPhotorealistic 3D visualisation of a proposed lighting design.
Image-based lighting designUsing photorealistic renders to evaluate a proposed LED scheme.
Immersion testIP68 verification by submerging a luminaire for a defined period and depth.
Immersion-rated stripLED strip tested and certified for prolonged underwater operation (IP68).
Impact rating IK00Mechanical impact resistance IK00 (0 joules impact energy).
Impact rating IK01Mechanical impact resistance IK01 (0.15 joules impact energy).
Impact rating IK02Mechanical impact resistance IK02 (0.2 joules impact energy).
Impact rating IK03Mechanical impact resistance IK03 (0.35 joules impact energy).
Impact rating IK04Mechanical impact resistance IK04 (0.5 joules impact energy).
Impact rating IK05Mechanical impact resistance IK05 (0.7 joules impact energy).
Impact rating IK06Mechanical impact resistance IK06 (1.0 joules impact energy).
Impact rating IK07Mechanical impact resistance IK07 (2.0 joules impact energy).
Impact rating IK08Mechanical impact resistance IK08 (5.0 joules impact energy).
Impact rating IK09Mechanical impact resistance IK09 (10.0 joules impact energy).
Impact rating IK10Mechanical impact resistance IK10 (20.0 joules impact energy).
Impact test (IK)Standardised pendulum or spring-hammer strike test for luminaire housings.
Impact-resistant coverPolycarbonate or tempered-glass cover rated to a specific IK class.
ImpedanceTotal opposition to AC flow in a circuit.
Impedance (characteristic)Nominal impedance of a cable, e.g. 120 Ω for DMX.
Import dutyCustoms tariff affecting the landed cost of LED components from overseas.
Import specificationProject document defining LED product requirements for procurement.
Impulse withstand voltageMaximum transient voltage a driver can survive without damage.
In-ceiling driverLED power supply mounted within the ceiling void above the luminaire.
In-furniture driverMiniature LED driver concealed inside a cabinet or piece of furniture.
In-grade luminaireGround-recessed uplight for landscape or facade illumination.
In-ground transformerBuried waterproof power supply for landscape LED lighting.
In-line dimmerSmall dimming module spliced into the cable between driver and strip.
In-line fuse holderCable-mounted fuse carrier protecting an individual LED circuit.
In-line switchCompact toggle or rocker switch inserted into the LED cable run.
In-rush current limiterNTC thermistor reducing switch-on current surge in LED driver banks.
Incandescent equivalentWattage of a traditional bulb producing similar lumens to an LED product.
Incandescent equivalent wattageTraditional-lamp wattage producing similar lumens to the LED replacement.
Incident lightLight arriving at a surface before reflection, absorption or transmission.
Incident light meterMeter measuring illuminance at the subject position rather than reflected light.
Index of refractionRatio of light speed in vacuum to speed in a material.
Indicator LEDSmall signal LED showing device status (power, fault, communication).
Indirect coveConcealed LED strip bouncing light off a ceiling from a recessed ledge.
Indirect pendantSuspended luminaire directing most of its output upward.
Indirect wall bracketWall luminaire reflecting light off the ceiling for ambient illumination.
Indoor air quality (IAQ)Air purity standard influencing material choices for LED luminaires.
Inductance (cable)Inductive property of a long cable run that can affect high-frequency PWM signals.
Induction chargingWireless power transfer for LED luminaires, eliminating wired connections.
Induction lampElectrodeless lamp technology now largely superseded by LED.
Induction loopAudio loop sometimes sharing ceiling space with LED luminaires.
Inductive loadLoad with significant inductance, relevant for relay and dimmer selection.
infinity mirror techniqueLED strip sandwiched between a regular and a one-way mirror creates an endless tunnel of light that adds visual depth to bars, bathrooms and retail installations.
Infrared (IR)Radiation above 780 nm, negligible in modern white LEDs.
Infrared cut filterOptical element blocking IR radiation from the LED beam.
Infrared photography lightingSpecialised IR LED illumination for night-vision cameras.
Infrared remoteHandheld IR controller for line-of-sight LED switching and dimming.
Ingress protection (IP)Two-digit code for solid and liquid resistance.
Initial light outputLuminous flux at the start of life after the 100-hour stabilisation period.
Initial lumensLuminous flux measured after the LED has stabilised (typically 100 hours).
Input connector (driver)Terminal or socket on the mains side of an LED power supply.
Input currentAmperage drawn from the mains by an LED driver.
Input powerTotal watts consumed by the driver from the mains supply.
Input protection (EMC filter)Filter at the driver mains input suppressing conducted interference.
Input voltage rangeMains voltage span (e.g. 100–240 V AC) the driver can accept.
Inrush currentSwitch-on peak current in switching supplies, requiring adequate protection.
Inrush current limiter (NTC)Thermistor reducing inrush current at switch-on.
Inspection camera (borescope)Fibre-optic camera checking LED installations in confined spaces.
Inspection hatchOpenable panel in a ceiling or wall providing access to concealed LED wiring.
Installation guideManufacturer document with step-by-step mounting and wiring instructions.
Installation heightDistance from the floor to the luminaire mounting point.
Instant restartLED driver capability to re-light immediately after a brief power interruption.
Insulated-gate bipolar transistor (IGBT)Power semiconductor occasionally used in high-power LED dimmers.
Insulation (class)Electrical protection classification (I, II, III).
Insulation (galvanic)Electrical separation between mains and LED in a driver.
Insulation (reinforced)Single insulation layer providing protection equivalent to double insulation.
Insulation displacement (IDC)Connector piercing wire insulation for fast field termination.
Insulation monitoringContinuous checking of insulation resistance in safety-critical LED circuits.
Insulation resistance (IR)Measured resistance between live conductors and earth, in megohms.
Insulation-contact rated (IC)Luminaire safe to be directly covered by ceiling insulation.
Integral sensorOccupancy or daylight sensor built into the luminaire housing.
Integrating sphereHollow sphere with a reflective interior for measuring total luminous flux.
Integrating-sphere photometryMeasuring total luminous flux by capturing all emitted light in a coated sphere.
Integration timeMeasurement duration in a spectrophotometer capturing the LED spectrum.
Intelligent buildingStructure with automated lighting, HVAC and security working in concert.
Intelligent driverLED driver with built-in logic for CLO, tunable white or sensor feedback.
Intelligent emergency testingSelf-test module automatically checking emergency battery and lamp.
Intensity (luminous)Flux per unit solid angle, in candelas (cd).
Intensity (peak)Maximum luminous intensity in the beam’s central axis.
Intensity distributionPattern of luminous intensity values in all directions around a luminaire.
Inter-luminaire spacingDistance between adjacent luminaires in a grid layout, affecting uniformity.
Interchangeable optic systemLuminaire accepting different lens modules for field-adjustable beam angles.
InterconnectGeneric term for any connector or cable linking LED system components.
Interconnection cableShort pre-wired cable linking two luminaires in a daisy-chain run.
Interface (user)Physical or app-based control surface for adjusting lighting settings.
Interface moduleElectronic unit bridging two control systems, e.g. DALI to analogue 0-10 V.
Interference (electromagnetic / EMI)Disturbance that may affect other devices.
Interference filterNarrow-band optical filter using thin-film interference to select wavelengths.
Interference suppressorFerrite or capacitor added to a driver to reduce conducted EMI.
Interior design lightingLED solutions coordinated with furniture, materials and colour schemes.
Interior lighting planArchitectural drawing showing all luminaire locations for an indoor project.
Interlock (safety)Switch that disconnects power when a luminaire cover is opened.
Intermediate frequencyFrequency range 10–100 kHz used in some driver switching circuits.
Internal wiring diagramDrawing showing conductor connections inside a luminaire or junction box.
Internet gateway (lighting)Device connecting a local lighting network to the cloud for remote access.
InteroperabilityAbility of products from different manufacturers to work together on a shared protocol.
Interoperability testVerification that products from different brands communicate correctly on a shared protocol.
Interval timerTimer switching lights on and off at repeating fixed intervals.
Intumescent materialSubstance expanding under heat to seal gaps and maintain fire integrity.
Inverse-square calculationPoint-by-point illuminance method using the inverse-square law.
Inverse-square lawIlluminance decreases with the square of the distance from a point source.
IoT (Internet of Things)Network of connected devices including smart-lighting systems.
IP test certificateDocument confirming a luminaire has passed ingress-protection testing.
IP20Basic protection, no water protection; indoor dry use.
IP44Protection against splashes; bathrooms and damp areas.
IP54Partial dust and splash resistance; semi-exposed environments.
IP65Dust-tight and water-jet resistant; sheltered outdoor use.
IP66Dust-tight, powerful water-jet resistant; exposed outdoor use.
IP67Dust-tight, temporary-immersion resistant (30 min at 1 m).
IP68Dust-tight, prolonged-immersion resistant; subaquatic applications.
IP69KDust-tight, high-pressure hot-water-jet resistant; food-industry washdown.
IrradianceRadiant power per unit area, in W/m².
ISO 14001Environmental management.
ISO 8995-1Indoor workplace lighting.
ISO 9001Quality management.
ISO 9227Salt-spray corrosion test.
Isolation (transformer)Electrical separation provided by a transformer winding.
Isolation transformerTransformer providing galvanic separation between mains and LED circuit.
Isolator (optical)Device preventing unwanted optical feedback between LED modules.
Isometric drawing3D projection of a room showing luminaire positions and beam cones.
I²C busInter-Integrated Circuit serial bus used in some LED driver programming interfaces.

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J

J-box (junction box)Enclosed box where electrical connections are made and protected.
J-hook (cable support)J-shaped hook supporting cables above a suspended ceiling.
Jacket (cable)Outer protective sheath of an electrical cable.
Jamb-mounted luminaireLED fixture recessed into a door frame for accent or courtesy light.
Japanese Industrial Standard (JIS)National standards used in Japan for LED product evaluation.
Jelly-filled connectorGel-sealed wire connector providing moisture-proof outdoor joints.
Jet (water) — IP testStandardised water spray used in IP65 and IP66 ingress testing.
Jet-proof (IP65)Luminaire withstanding directed water jets from any angle.
Jig (assembly)Custom fixture holding LED components in position during manufacturing.
Jig (installation)Template guiding the cutting or routing of a profile recess in the field.
Jitter (signal)Small timing variations in a digital control signal affecting LED colour accuracy.
Joiner (in-line)Connector uniting two profile lengths in a straight run.
Joiner (L-shape)90-degree angular connector for perpendicular profiles.
Joiner (T-shape)Three-way connector for branching a profile.
Joiner (variable angle)Connector allowing adjustable angles between profiles.
Joiner (X-shape)Four-way connector for crossing two profile lines.
Joint compound (filler)Plaster filler smoothing the gap around a plaster-in LED profile.
Joint cover (profile)Decorative sleeve concealing the butt joint between two profile lengths.
JouleSI unit of energy; LED heat is expressed in joules.
Joule heatingHeat generated by current flowing through a conductor’s resistance.
JumperShort cable bridging two strip segments to bypass an obstacle or curve.
Jumper cable (long)30-100 cm cable linking remote strip sections.
Jumper cable (short)5-15 cm cable bridging two strip segments across a gap.
Jumper wireShort connection wire on a PCB bridging two circuit points.
Junction (p-n)Interface between p-type and n-type semiconductor where photons are emitted.
Junction boxEnclosed box where electrical connections are made and protected.
Junction temperature (Tj)Temperature of the LED p-n junction, critical for lifetime and performance.
Junction temperature limitMaximum Tj (e.g. 125 °C) specified by the LED manufacturer.
Junction-to-ambient (Rja)Total thermal resistance from junction to surrounding air.
Junction-to-board (Rjb)Thermal resistance from junction to the solder point on the PCB.
Junction-to-case (Rjc)Thermal resistance from junction to the outer LED casing.

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K

K-factor (transformer)Derating factor for transformers feeding non-linear LED driver loads.
Kapton tapePolyimide adhesive tape used for masking during LED reflow soldering.
Kelvin (K)Unit of colour temperature (e.g. 2 700 K warm, 6 500 K cool).
Kelvin shiftGradual CCT change in an LED over its operating lifetime.
Key lightPrimary directional light source in a lighting scheme.
Keying (connector)Mechanical feature preventing a connector from being plugged in the wrong orientation.
Keypad (lighting)Wall-mounted panel with multiple buttons for scene recall and dimming.
Keystone correctionDigital adjustment of a projected LED image to compensate for off-axis mounting.
Kick lightSmall accent light adding highlights or rim lighting to a subject.
Kick-board LEDStrip or profile at floor level beneath kitchen cabinets for low-level glow.
Kick-plate lightLED strip mounted at the base of a door kick plate for decorative accent.
kickboard glow techniqueLED strip at floor level beneath cabinets produces a floating-furniture illusion and gentle wayfinding glow, useful in kitchens, bathrooms and hotel corridors.
Kill switchEmergency switch cutting all power to a lighting installation.
Kinetic chandelierMotorised pendant with moving LED elements creating dynamic visual effects.
Kinetic lightingLED installation with physically moving elements creating dynamic visual effects.
Kit (installation)Package of accessories for complete profile installation.
Kit (retrofit)Complete set of LED components for converting a conventional luminaire to LED.
Kit (suspension)Set of cables, roses and hooks for pendant profile installation.
Kit of partsAll components needed for a luminaire assembly, supplied as a single package.
Klieg lightHistorical high-power studio lamp, now replaced by LED Fresnel spotlights.
Knife-edge diffuserUltra-thin diffuser edge creating a crisp transition between lit and unlit zones.
Knob dimmerRotary dimmer with a twist knob for simple analogue brightness control.
Knock-down luminaireFlat-packed luminaire assembled on site to reduce shipping volume.
Knurled nutTextured nut for hand-tightening luminaire adjustments without tools.
KNXInternational building-automation standard including lighting control.
KNX actuatorOutput device on a KNX bus switching or dimming LED luminaires.
KNX binary inputModule detecting switch or sensor states and publishing them on the KNX bus.
KNX commissioning (ETS)Programming KNX devices using the ETS (Engineering Tool Software).
KNX IP routerDevice linking KNX twisted-pair lines to an IP backbone.
KNX push-button interfaceModule converting physical button presses into KNX telegrams.
KNX sensor (brightness)Light-level sensor communicating on the KNX bus for daylight harvesting.
KNX sensor (presence)Occupancy sensor communicating on the KNX bus.
KNX-DALI gatewayInterface bridging KNX bus and DALI lighting line.

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L

L70Lifetime point at which flux drops to 70 percent of initial output.
L70B10Lifetime at which 10 percent of a sample population has dropped below 70 percent flux.
L70B50Median lifetime at which half the population has dropped below 70 percent flux.
L80Lifetime point at which flux drops to 80 percent of initial output.
L90Lifetime point at which flux drops to 90 percent of initial output.
Label (cable)Identification tag on a cable marking its circuit number and destination.
Label (CE)Conformity marking declaring compliance with EU product directives.
Label (energy — EU)EU regulation label showing the energy class of a lighting product.
Label (UKCA)United Kingdom Conformity Assessed marking, the post-Brexit equivalent of CE.
Labelling (circuit)Identifying each circuit with a unique reference in the distribution board.
Labour rate (installation)Cost per hour for professional LED luminaire installation.
Lacquer (clear)Transparent protective coating applied over anodised or painted aluminium.
Ladder trayOpen rung-style cable tray for heavy cable runs above ceilings.
Lag screwHeavy-duty wood screw for fixing LED profiles to timber structures.
Lambertian emitterSource with intensity proportional to cos θ from the normal.
Lambertian sourceEmitter with intensity proportional to cos θ; many SMD LEDs approximate this.
Lamp (LED replacement)LED product with a standard base designed to replace a conventional lamp.
Lamp life (B50)Median hours at which 50 percent of a lamp population has failed.
Lamp life (rated)Median time to failure in hours under standard test conditions.
Lamp lumen depreciation (LLD)Factor for the decrease in lamp output over time, used in MF calculations.
Lamp survival factor (LSF)Fraction of lamps still operating at a given time, used in MF calculations.
Landscape bollardLow outdoor post with integrated LED for pathway illumination.
Landscape controllerOutdoor-rated multi-channel controller for garden LED lighting zones.
Landscape lightingLED illumination of gardens, parks and green spaces.
Landscape spike lightOutdoor LED spotlight with a pointed ground stake for garden beds.
Landscape transformerLow-voltage power supply housed outdoors for garden LED strip runs.
Language (multi-language app)Lighting control app supporting multiple user-interface languages.
Large-area sourceLuminaire with a big luminous surface producing soft, low-glare light.
Large-scale installationProject with hundreds or thousands of LED luminaires requiring phased commissioning.
Laser diodeSemiconductor emitting coherent light, used in specialised high-intensity applications.
Laser-cut louvrePrecision-manufactured anti-glare louvre produced by laser cutting metal sheet.
Laser-engraved diffuserCover with laser-etched patterns for decorative light effects.
Latch (cover)Mechanical catch holding a profile cover in the closed position.
Latching push-buttonButton that alternates between on and off states with each press.
Latching relayRelay maintaining its switched state without continuous coil power.
Lateral colour shiftColour variation across the width of a strip, caused by LED binning differences.
Lateral spacingHorizontal distance between parallel rows of linear LED profiles.
Latitude (design)Margin of flexibility allowed in lighting-design parameters before standards are breached.
Lattice girderStructural truss from which LED luminaires can be suspended in industrial settings.
Layer (copper)Conductive copper sheet in a PCB providing electrical paths and thermal spreading.
Layer (phosphor)Thin coating of phosphor material applied to the LED die or a remote plate.
Layered lightingDesign approach combining ambient, task and accent LED sources.
Layout (lighting)Plan showing luminaire positions, types and aiming on an architectural drawing.
Layout drawingPlan showing luminaire positions on the architectural floor plan.
LCA LED productLife Cycle Assessment per ISO 14040 evaluating environmental impacts from cradle to grave, identifying hotspots such as aluminium production and driver electronics.
LCD backlightLED edge-lit or direct-lit module providing illumination behind an LCD screen.
LDT file (.ldt)European photometric file format (EULUMDAT) for luminous-distribution data.
Lead frameMetal structure inside an LED package providing electrical and thermal paths.
Lead timeManufacturing and delivery duration from order to site arrival.
Lead time (custom extrusion)Weeks required to manufacture a bespoke aluminium profile die.
Lead-free solder (SAC305)RoHS-compliant tin-silver-copper solder alloy for LED assembly.
Leading-edge dimmingPhase-cut dimming clipping the start of the AC waveform, TRIAC compatible.
Leak test (IP)Water or air-pressure test verifying the seal integrity of a luminaire.
Leakage (light)Unwanted light escaping from gaps in a profile or luminaire.
Leakage currentSmall unintended current flowing through insulation.
Lean manufacturingEfficiency-focused production methodology applied to LED luminaire assembly.
LED (addressable)LED with integrated driver IC enabling per-pixel control.
LED (amber)590 nm emission for warm atmospheres.
LED (blue)450–470 nm emission, base for phosphor conversion to white.
LED (chip)Semiconductor die inside the package generating light.
LED (COB)Chip-on-Board: multiple dies on a single substrate.
LED (CSP)Chip Scale Package: die-sized miniaturised LED.
LED (deep red)660 nm emission for horticultural and phototherapy applications.
LED (far red)730 nm emission used in plant-growth applications.
LED (flip-chip)Die mounted upside-down for improved thermal dissipation.
LED (green)520–530 nm emission, the green component in RGB systems.
LED (high-power)LED exceeding 1 W per die for high-flux applications.
LED (infrared / IR)LED emitting above 780 nm for remote controls and sensing.
LED (Light Emitting Diode)Semiconductor generating light through electroluminescence.
LED (lime)Yellowish-green LED used in RGBA systems for wider gamut coverage.
LED (mid-power)LED rated 0.1–0.5 W, most widely used in professional strips.
LED (mini)Very small LED package for ultra-thin strip designs.
LED (module)Pre-assembled unit with LEDs, PCB and optional optics.
LED (OLED)Organic LED on a thin film emitting diffused surface light.
LED (package)Enclosure with die, lead frame, phosphor and primary lens.
LED (phosphor-converted)LED producing white light via a blue die plus a phosphor layer.
LED (pixel)Single controllable LED point in an addressable system.
LED (red)620–630 nm emission, the red component in RGB systems.
LED (RGB)Three-die package (red, green, blue) for additive colour mixing.
LED (RGBA)Four-die package adding amber to RGB for extended colour gamut.
LED (RGBW)RGB plus dedicated white die for purer whites.
LED (RGBWW)RGB, warm white and cool white for maximum versatility.
LED (SMD)Surface-mount device LED, most common in professional strips.
LED (through-hole / DIP)Older LED format with wire leads, now mainly for indicator use.
LED (tunable white)Dual-CCT LED system for dynamic colour-temperature adjustment.
LED (UV-A)LED emitting 365–395 nm for curing and inspection applications.
LED (UV-C)LED emitting 265–280 nm for disinfection applications.
LED (white)LED producing white light via phosphor conversion of a blue die.
LED 380 nmLight-emitting diode with dominant emission at 380 nanometres.
LED 381 nmLight-emitting diode with dominant emission at 381 nanometres.
LED 382 nmLight-emitting diode with dominant emission at 382 nanometres.
LED 383 nmLight-emitting diode with dominant emission at 383 nanometres.
LED 384 nmLight-emitting diode with dominant emission at 384 nanometres.
LED 385 nmLight-emitting diode with dominant emission at 385 nanometres.
LED 386 nmLight-emitting diode with dominant emission at 386 nanometres.
LED 387 nmLight-emitting diode with dominant emission at 387 nanometres.
LED 388 nmLight-emitting diode with dominant emission at 388 nanometres.
LED 389 nmLight-emitting diode with dominant emission at 389 nanometres.
LED 390 nmLight-emitting diode with dominant emission at 390 nanometres.
LED 391 nmLight-emitting diode with dominant emission at 391 nanometres.
LED 392 nmLight-emitting diode with dominant emission at 392 nanometres.
LED 393 nmLight-emitting diode with dominant emission at 393 nanometres.
LED 394 nmLight-emitting diode with dominant emission at 394 nanometres.
LED 395 nmLight-emitting diode with dominant emission at 395 nanometres.
LED 396 nmLight-emitting diode with dominant emission at 396 nanometres.
LED 397 nmLight-emitting diode with dominant emission at 397 nanometres.
LED 398 nmLight-emitting diode with dominant emission at 398 nanometres.
LED 399 nmLight-emitting diode with dominant emission at 399 nanometres.
LED 400 nmLight-emitting diode with dominant emission at 400 nanometres.
LED 401 nmLight-emitting diode with dominant emission at 401 nanometres.
LED 402 nmLight-emitting diode with dominant emission at 402 nanometres.
LED 403 nmLight-emitting diode with dominant emission at 403 nanometres.
LED 404 nmLight-emitting diode with dominant emission at 404 nanometres.
LED 405 nmLight-emitting diode with dominant emission at 405 nanometres.
LED 406 nmLight-emitting diode with dominant emission at 406 nanometres.
LED 407 nmLight-emitting diode with dominant emission at 407 nanometres.
LED 408 nmLight-emitting diode with dominant emission at 408 nanometres.
LED 409 nmLight-emitting diode with dominant emission at 409 nanometres.
LED 410 nmLight-emitting diode with dominant emission at 410 nanometres.
LED 411 nmLight-emitting diode with dominant emission at 411 nanometres.
LED 412 nmLight-emitting diode with dominant emission at 412 nanometres.
LED 413 nmLight-emitting diode with dominant emission at 413 nanometres.
LED 414 nmLight-emitting diode with dominant emission at 414 nanometres.
LED 415 nmLight-emitting diode with dominant emission at 415 nanometres.
LED 416 nmLight-emitting diode with dominant emission at 416 nanometres.
LED 417 nmLight-emitting diode with dominant emission at 417 nanometres.
LED 418 nmLight-emitting diode with dominant emission at 418 nanometres.
LED 419 nmLight-emitting diode with dominant emission at 419 nanometres.
LED 420 nmLight-emitting diode with dominant emission at 420 nanometres.
LED 421 nmLight-emitting diode with dominant emission at 421 nanometres.
LED 422 nmLight-emitting diode with dominant emission at 422 nanometres.
LED 423 nmLight-emitting diode with dominant emission at 423 nanometres.
LED 424 nmLight-emitting diode with dominant emission at 424 nanometres.
LED 425 nmLight-emitting diode with dominant emission at 425 nanometres.
LED 426 nmLight-emitting diode with dominant emission at 426 nanometres.
LED 427 nmLight-emitting diode with dominant emission at 427 nanometres.
LED 428 nmLight-emitting diode with dominant emission at 428 nanometres.
LED 429 nmLight-emitting diode with dominant emission at 429 nanometres.
LED 430 nmLight-emitting diode with dominant emission at 430 nanometres.
LED 431 nmLight-emitting diode with dominant emission at 431 nanometres.
LED 432 nmLight-emitting diode with dominant emission at 432 nanometres.
LED 433 nmLight-emitting diode with dominant emission at 433 nanometres.
LED 434 nmLight-emitting diode with dominant emission at 434 nanometres.
LED 435 nmLight-emitting diode with dominant emission at 435 nanometres.
LED 436 nmLight-emitting diode with dominant emission at 436 nanometres.
LED 437 nmLight-emitting diode with dominant emission at 437 nanometres.
LED 438 nmLight-emitting diode with dominant emission at 438 nanometres.
LED 439 nmLight-emitting diode with dominant emission at 439 nanometres.
LED 440 nmLight-emitting diode with dominant emission at 440 nanometres.
LED 441 nmLight-emitting diode with dominant emission at 441 nanometres.
LED 442 nmLight-emitting diode with dominant emission at 442 nanometres.
LED 443 nmLight-emitting diode with dominant emission at 443 nanometres.
LED 444 nmLight-emitting diode with dominant emission at 444 nanometres.
LED 445 nmLight-emitting diode with dominant emission at 445 nanometres.
LED 446 nmLight-emitting diode with dominant emission at 446 nanometres.
LED 447 nmLight-emitting diode with dominant emission at 447 nanometres.
LED 448 nmLight-emitting diode with dominant emission at 448 nanometres.
LED 449 nmLight-emitting diode with dominant emission at 449 nanometres.
LED 450 nmLight-emitting diode with dominant emission at 450 nanometres.
LED 451 nmLight-emitting diode with dominant emission at 451 nanometres.
LED 452 nmLight-emitting diode with dominant emission at 452 nanometres.
LED 453 nmLight-emitting diode with dominant emission at 453 nanometres.
LED 454 nmLight-emitting diode with dominant emission at 454 nanometres.
LED 455 nmLight-emitting diode with dominant emission at 455 nanometres.
LED 456 nmLight-emitting diode with dominant emission at 456 nanometres.
LED 457 nmLight-emitting diode with dominant emission at 457 nanometres.
LED 458 nmLight-emitting diode with dominant emission at 458 nanometres.
LED 459 nmLight-emitting diode with dominant emission at 459 nanometres.
LED 460 nmLight-emitting diode with dominant emission at 460 nanometres.
LED 461 nmLight-emitting diode with dominant emission at 461 nanometres.
LED 462 nmLight-emitting diode with dominant emission at 462 nanometres.
LED 463 nmLight-emitting diode with dominant emission at 463 nanometres.
LED 464 nmLight-emitting diode with dominant emission at 464 nanometres.
LED 465 nmLight-emitting diode with dominant emission at 465 nanometres.
LED 466 nmLight-emitting diode with dominant emission at 466 nanometres.
LED 467 nmLight-emitting diode with dominant emission at 467 nanometres.
LED 468 nmLight-emitting diode with dominant emission at 468 nanometres.
LED 469 nmLight-emitting diode with dominant emission at 469 nanometres.
LED 470 nmLight-emitting diode with dominant emission at 470 nanometres.
LED 471 nmLight-emitting diode with dominant emission at 471 nanometres.
LED 472 nmLight-emitting diode with dominant emission at 472 nanometres.
LED 473 nmLight-emitting diode with dominant emission at 473 nanometres.
LED 474 nmLight-emitting diode with dominant emission at 474 nanometres.
LED 475 nmLight-emitting diode with dominant emission at 475 nanometres.
LED 476 nmLight-emitting diode with dominant emission at 476 nanometres.
LED 477 nmLight-emitting diode with dominant emission at 477 nanometres.
LED 478 nmLight-emitting diode with dominant emission at 478 nanometres.
LED 479 nmLight-emitting diode with dominant emission at 479 nanometres.
LED 480 nmLight-emitting diode with dominant emission at 480 nanometres.
LED 481 nmLight-emitting diode with dominant emission at 481 nanometres.
LED 482 nmLight-emitting diode with dominant emission at 482 nanometres.
LED 483 nmLight-emitting diode with dominant emission at 483 nanometres.
LED 484 nmLight-emitting diode with dominant emission at 484 nanometres.
LED 485 nmLight-emitting diode with dominant emission at 485 nanometres.
LED 486 nmLight-emitting diode with dominant emission at 486 nanometres.
LED 487 nmLight-emitting diode with dominant emission at 487 nanometres.
LED 488 nmLight-emitting diode with dominant emission at 488 nanometres.
LED 489 nmLight-emitting diode with dominant emission at 489 nanometres.
LED 490 nmLight-emitting diode with dominant emission at 490 nanometres.
LED 491 nmLight-emitting diode with dominant emission at 491 nanometres.
LED 492 nmLight-emitting diode with dominant emission at 492 nanometres.
LED 493 nmLight-emitting diode with dominant emission at 493 nanometres.
LED 494 nmLight-emitting diode with dominant emission at 494 nanometres.
LED 495 nmLight-emitting diode with dominant emission at 495 nanometres.
LED 496 nmLight-emitting diode with dominant emission at 496 nanometres.
LED 497 nmLight-emitting diode with dominant emission at 497 nanometres.
LED 498 nmLight-emitting diode with dominant emission at 498 nanometres.
LED 499 nmLight-emitting diode with dominant emission at 499 nanometres.
LED 500 nmLight-emitting diode with dominant emission at 500 nanometres.
LED 501 nmLight-emitting diode with dominant emission at 501 nanometres.
LED 502 nmLight-emitting diode with dominant emission at 502 nanometres.
LED 503 nmLight-emitting diode with dominant emission at 503 nanometres.
LED 504 nmLight-emitting diode with dominant emission at 504 nanometres.
LED 505 nmLight-emitting diode with dominant emission at 505 nanometres.
LED 506 nmLight-emitting diode with dominant emission at 506 nanometres.
LED 507 nmLight-emitting diode with dominant emission at 507 nanometres.
LED 508 nmLight-emitting diode with dominant emission at 508 nanometres.
LED 509 nmLight-emitting diode with dominant emission at 509 nanometres.
LED 510 nmLight-emitting diode with dominant emission at 510 nanometres.
LED 511 nmLight-emitting diode with dominant emission at 511 nanometres.
LED 512 nmLight-emitting diode with dominant emission at 512 nanometres.
LED 513 nmLight-emitting diode with dominant emission at 513 nanometres.
LED 514 nmLight-emitting diode with dominant emission at 514 nanometres.
LED 515 nmLight-emitting diode with dominant emission at 515 nanometres.
LED 516 nmLight-emitting diode with dominant emission at 516 nanometres.
LED 517 nmLight-emitting diode with dominant emission at 517 nanometres.
LED 518 nmLight-emitting diode with dominant emission at 518 nanometres.
LED 519 nmLight-emitting diode with dominant emission at 519 nanometres.
LED 520 nmLight-emitting diode with dominant emission at 520 nanometres.
LED 521 nmLight-emitting diode with dominant emission at 521 nanometres.
LED 522 nmLight-emitting diode with dominant emission at 522 nanometres.
LED 523 nmLight-emitting diode with dominant emission at 523 nanometres.
LED 524 nmLight-emitting diode with dominant emission at 524 nanometres.
LED 525 nmLight-emitting diode with dominant emission at 525 nanometres.
LED 526 nmLight-emitting diode with dominant emission at 526 nanometres.
LED 527 nmLight-emitting diode with dominant emission at 527 nanometres.
LED 528 nmLight-emitting diode with dominant emission at 528 nanometres.
LED 529 nmLight-emitting diode with dominant emission at 529 nanometres.
LED 530 nmLight-emitting diode with dominant emission at 530 nanometres.
LED 531 nmLight-emitting diode with dominant emission at 531 nanometres.
LED 532 nmLight-emitting diode with dominant emission at 532 nanometres.
LED 533 nmLight-emitting diode with dominant emission at 533 nanometres.
LED 534 nmLight-emitting diode with dominant emission at 534 nanometres.
LED 535 nmLight-emitting diode with dominant emission at 535 nanometres.
LED 536 nmLight-emitting diode with dominant emission at 536 nanometres.
LED 537 nmLight-emitting diode with dominant emission at 537 nanometres.
LED 538 nmLight-emitting diode with dominant emission at 538 nanometres.
LED 539 nmLight-emitting diode with dominant emission at 539 nanometres.
LED 540 nmLight-emitting diode with dominant emission at 540 nanometres.
LED 541 nmLight-emitting diode with dominant emission at 541 nanometres.
LED 542 nmLight-emitting diode with dominant emission at 542 nanometres.
LED 543 nmLight-emitting diode with dominant emission at 543 nanometres.
LED 544 nmLight-emitting diode with dominant emission at 544 nanometres.
LED 545 nmLight-emitting diode with dominant emission at 545 nanometres.
LED 546 nmLight-emitting diode with dominant emission at 546 nanometres.
LED 547 nmLight-emitting diode with dominant emission at 547 nanometres.
LED 548 nmLight-emitting diode with dominant emission at 548 nanometres.
LED 549 nmLight-emitting diode with dominant emission at 549 nanometres.
LED 550 nmLight-emitting diode with dominant emission at 550 nanometres.
LED 551 nmLight-emitting diode with dominant emission at 551 nanometres.
LED 552 nmLight-emitting diode with dominant emission at 552 nanometres.
LED 553 nmLight-emitting diode with dominant emission at 553 nanometres.
LED 554 nmLight-emitting diode with dominant emission at 554 nanometres.
LED 555 nmLight-emitting diode with dominant emission at 555 nanometres.
LED 556 nmLight-emitting diode with dominant emission at 556 nanometres.
LED 557 nmLight-emitting diode with dominant emission at 557 nanometres.
LED 558 nmLight-emitting diode with dominant emission at 558 nanometres.
LED 559 nmLight-emitting diode with dominant emission at 559 nanometres.
LED 560 nmLight-emitting diode with dominant emission at 560 nanometres.
LED 561 nmLight-emitting diode with dominant emission at 561 nanometres.
LED 562 nmLight-emitting diode with dominant emission at 562 nanometres.
LED 563 nmLight-emitting diode with dominant emission at 563 nanometres.
LED 564 nmLight-emitting diode with dominant emission at 564 nanometres.
LED 565 nmLight-emitting diode with dominant emission at 565 nanometres.
LED 566 nmLight-emitting diode with dominant emission at 566 nanometres.
LED 567 nmLight-emitting diode with dominant emission at 567 nanometres.
LED 568 nmLight-emitting diode with dominant emission at 568 nanometres.
LED 569 nmLight-emitting diode with dominant emission at 569 nanometres.
LED 570 nmLight-emitting diode with dominant emission at 570 nanometres.
LED 571 nmLight-emitting diode with dominant emission at 571 nanometres.
LED 572 nmLight-emitting diode with dominant emission at 572 nanometres.
LED 573 nmLight-emitting diode with dominant emission at 573 nanometres.
LED 574 nmLight-emitting diode with dominant emission at 574 nanometres.
LED 575 nmLight-emitting diode with dominant emission at 575 nanometres.
LED 576 nmLight-emitting diode with dominant emission at 576 nanometres.
LED 577 nmLight-emitting diode with dominant emission at 577 nanometres.
LED 578 nmLight-emitting diode with dominant emission at 578 nanometres.
LED 579 nmLight-emitting diode with dominant emission at 579 nanometres.
LED 580 nmLight-emitting diode with dominant emission at 580 nanometres.
LED 581 nmLight-emitting diode with dominant emission at 581 nanometres.
LED 582 nmLight-emitting diode with dominant emission at 582 nanometres.
LED 583 nmLight-emitting diode with dominant emission at 583 nanometres.
LED 584 nmLight-emitting diode with dominant emission at 584 nanometres.
LED 585 nmLight-emitting diode with dominant emission at 585 nanometres.
LED 586 nmLight-emitting diode with dominant emission at 586 nanometres.
LED 587 nmLight-emitting diode with dominant emission at 587 nanometres.
LED 588 nmLight-emitting diode with dominant emission at 588 nanometres.
LED 589 nmLight-emitting diode with dominant emission at 589 nanometres.
LED 590 nmLight-emitting diode with dominant emission at 590 nanometres.
LED 591 nmLight-emitting diode with dominant emission at 591 nanometres.
LED 592 nmLight-emitting diode with dominant emission at 592 nanometres.
LED 593 nmLight-emitting diode with dominant emission at 593 nanometres.
LED 594 nmLight-emitting diode with dominant emission at 594 nanometres.
LED 595 nmLight-emitting diode with dominant emission at 595 nanometres.
LED 596 nmLight-emitting diode with dominant emission at 596 nanometres.
LED 597 nmLight-emitting diode with dominant emission at 597 nanometres.
LED 598 nmLight-emitting diode with dominant emission at 598 nanometres.
LED 599 nmLight-emitting diode with dominant emission at 599 nanometres.
LED 600 nmLight-emitting diode with dominant emission at 600 nanometres.
LED 601 nmLight-emitting diode with dominant emission at 601 nanometres.
LED 602 nmLight-emitting diode with dominant emission at 602 nanometres.
LED 603 nmLight-emitting diode with dominant emission at 603 nanometres.
LED 604 nmLight-emitting diode with dominant emission at 604 nanometres.
LED 605 nmLight-emitting diode with dominant emission at 605 nanometres.
LED 606 nmLight-emitting diode with dominant emission at 606 nanometres.
LED 607 nmLight-emitting diode with dominant emission at 607 nanometres.
LED 608 nmLight-emitting diode with dominant emission at 608 nanometres.
LED 609 nmLight-emitting diode with dominant emission at 609 nanometres.
LED 610 nmLight-emitting diode with dominant emission at 610 nanometres.
LED 611 nmLight-emitting diode with dominant emission at 611 nanometres.
LED 612 nmLight-emitting diode with dominant emission at 612 nanometres.
LED 613 nmLight-emitting diode with dominant emission at 613 nanometres.
LED 614 nmLight-emitting diode with dominant emission at 614 nanometres.
LED 615 nmLight-emitting diode with dominant emission at 615 nanometres.
LED 616 nmLight-emitting diode with dominant emission at 616 nanometres.
LED 617 nmLight-emitting diode with dominant emission at 617 nanometres.
LED 618 nmLight-emitting diode with dominant emission at 618 nanometres.
LED 619 nmLight-emitting diode with dominant emission at 619 nanometres.
LED 620 nmLight-emitting diode with dominant emission at 620 nanometres.
LED 621 nmLight-emitting diode with dominant emission at 621 nanometres.
LED 622 nmLight-emitting diode with dominant emission at 622 nanometres.
LED 623 nmLight-emitting diode with dominant emission at 623 nanometres.
LED 624 nmLight-emitting diode with dominant emission at 624 nanometres.
LED 625 nmLight-emitting diode with dominant emission at 625 nanometres.
LED 626 nmLight-emitting diode with dominant emission at 626 nanometres.
LED 627 nmLight-emitting diode with dominant emission at 627 nanometres.
LED 628 nmLight-emitting diode with dominant emission at 628 nanometres.
LED 629 nmLight-emitting diode with dominant emission at 629 nanometres.
LED 630 nmLight-emitting diode with dominant emission at 630 nanometres.
LED 631 nmLight-emitting diode with dominant emission at 631 nanometres.
LED 632 nmLight-emitting diode with dominant emission at 632 nanometres.
LED 633 nmLight-emitting diode with dominant emission at 633 nanometres.
LED 634 nmLight-emitting diode with dominant emission at 634 nanometres.
LED 635 nmLight-emitting diode with dominant emission at 635 nanometres.
LED 636 nmLight-emitting diode with dominant emission at 636 nanometres.
LED 637 nmLight-emitting diode with dominant emission at 637 nanometres.
LED 638 nmLight-emitting diode with dominant emission at 638 nanometres.
LED 639 nmLight-emitting diode with dominant emission at 639 nanometres.
LED 640 nmLight-emitting diode with dominant emission at 640 nanometres.
LED 641 nmLight-emitting diode with dominant emission at 641 nanometres.
LED 642 nmLight-emitting diode with dominant emission at 642 nanometres.
LED 643 nmLight-emitting diode with dominant emission at 643 nanometres.
LED 644 nmLight-emitting diode with dominant emission at 644 nanometres.
LED 645 nmLight-emitting diode with dominant emission at 645 nanometres.
LED 646 nmLight-emitting diode with dominant emission at 646 nanometres.
LED 647 nmLight-emitting diode with dominant emission at 647 nanometres.
LED 648 nmLight-emitting diode with dominant emission at 648 nanometres.
LED 649 nmLight-emitting diode with dominant emission at 649 nanometres.
LED 650 nmLight-emitting diode with dominant emission at 650 nanometres.
LED 651 nmLight-emitting diode with dominant emission at 651 nanometres.
LED 652 nmLight-emitting diode with dominant emission at 652 nanometres.
LED 653 nmLight-emitting diode with dominant emission at 653 nanometres.
LED 654 nmLight-emitting diode with dominant emission at 654 nanometres.
LED 655 nmLight-emitting diode with dominant emission at 655 nanometres.
LED 656 nmLight-emitting diode with dominant emission at 656 nanometres.
LED 657 nmLight-emitting diode with dominant emission at 657 nanometres.
LED 658 nmLight-emitting diode with dominant emission at 658 nanometres.
LED 659 nmLight-emitting diode with dominant emission at 659 nanometres.
LED 660 nmLight-emitting diode with dominant emission at 660 nanometres.
LED 661 nmLight-emitting diode with dominant emission at 661 nanometres.
LED 662 nmLight-emitting diode with dominant emission at 662 nanometres.
LED 663 nmLight-emitting diode with dominant emission at 663 nanometres.
LED 664 nmLight-emitting diode with dominant emission at 664 nanometres.
LED 665 nmLight-emitting diode with dominant emission at 665 nanometres.
LED 666 nmLight-emitting diode with dominant emission at 666 nanometres.
LED 667 nmLight-emitting diode with dominant emission at 667 nanometres.
LED 668 nmLight-emitting diode with dominant emission at 668 nanometres.
LED 669 nmLight-emitting diode with dominant emission at 669 nanometres.
LED 670 nmLight-emitting diode with dominant emission at 670 nanometres.
LED 671 nmLight-emitting diode with dominant emission at 671 nanometres.
LED 672 nmLight-emitting diode with dominant emission at 672 nanometres.
LED 673 nmLight-emitting diode with dominant emission at 673 nanometres.
LED 674 nmLight-emitting diode with dominant emission at 674 nanometres.
LED 675 nmLight-emitting diode with dominant emission at 675 nanometres.
LED 676 nmLight-emitting diode with dominant emission at 676 nanometres.
LED 677 nmLight-emitting diode with dominant emission at 677 nanometres.
LED 678 nmLight-emitting diode with dominant emission at 678 nanometres.
LED 679 nmLight-emitting diode with dominant emission at 679 nanometres.
LED 680 nmLight-emitting diode with dominant emission at 680 nanometres.
LED 681 nmLight-emitting diode with dominant emission at 681 nanometres.
LED 682 nmLight-emitting diode with dominant emission at 682 nanometres.
LED 683 nmLight-emitting diode with dominant emission at 683 nanometres.
LED 684 nmLight-emitting diode with dominant emission at 684 nanometres.
LED 685 nmLight-emitting diode with dominant emission at 685 nanometres.
LED 686 nmLight-emitting diode with dominant emission at 686 nanometres.
LED 687 nmLight-emitting diode with dominant emission at 687 nanometres.
LED 688 nmLight-emitting diode with dominant emission at 688 nanometres.
LED 689 nmLight-emitting diode with dominant emission at 689 nanometres.
LED 690 nmLight-emitting diode with dominant emission at 690 nanometres.
LED 691 nmLight-emitting diode with dominant emission at 691 nanometres.
LED 692 nmLight-emitting diode with dominant emission at 692 nanometres.
LED 693 nmLight-emitting diode with dominant emission at 693 nanometres.
LED 694 nmLight-emitting diode with dominant emission at 694 nanometres.
LED 695 nmLight-emitting diode with dominant emission at 695 nanometres.
LED 696 nmLight-emitting diode with dominant emission at 696 nanometres.
LED 697 nmLight-emitting diode with dominant emission at 697 nanometres.
LED 698 nmLight-emitting diode with dominant emission at 698 nanometres.
LED 699 nmLight-emitting diode with dominant emission at 699 nanometres.
LED 700 nmLight-emitting diode with dominant emission at 700 nanometres.
LED 701 nmLight-emitting diode with dominant emission at 701 nanometres.
LED 702 nmLight-emitting diode with dominant emission at 702 nanometres.
LED 703 nmLight-emitting diode with dominant emission at 703 nanometres.
LED 704 nmLight-emitting diode with dominant emission at 704 nanometres.
LED 705 nmLight-emitting diode with dominant emission at 705 nanometres.
LED 706 nmLight-emitting diode with dominant emission at 706 nanometres.
LED 707 nmLight-emitting diode with dominant emission at 707 nanometres.
LED 708 nmLight-emitting diode with dominant emission at 708 nanometres.
LED 709 nmLight-emitting diode with dominant emission at 709 nanometres.
LED 710 nmLight-emitting diode with dominant emission at 710 nanometres.
LED 711 nmLight-emitting diode with dominant emission at 711 nanometres.
LED 712 nmLight-emitting diode with dominant emission at 712 nanometres.
LED 713 nmLight-emitting diode with dominant emission at 713 nanometres.
LED 714 nmLight-emitting diode with dominant emission at 714 nanometres.
LED 715 nmLight-emitting diode with dominant emission at 715 nanometres.
LED 716 nmLight-emitting diode with dominant emission at 716 nanometres.
LED 717 nmLight-emitting diode with dominant emission at 717 nanometres.
LED 718 nmLight-emitting diode with dominant emission at 718 nanometres.
LED 719 nmLight-emitting diode with dominant emission at 719 nanometres.
LED 720 nmLight-emitting diode with dominant emission at 720 nanometres.
LED 721 nmLight-emitting diode with dominant emission at 721 nanometres.
LED 722 nmLight-emitting diode with dominant emission at 722 nanometres.
LED 723 nmLight-emitting diode with dominant emission at 723 nanometres.
LED 724 nmLight-emitting diode with dominant emission at 724 nanometres.
LED 725 nmLight-emitting diode with dominant emission at 725 nanometres.
LED 726 nmLight-emitting diode with dominant emission at 726 nanometres.
LED 727 nmLight-emitting diode with dominant emission at 727 nanometres.
LED 728 nmLight-emitting diode with dominant emission at 728 nanometres.
LED 729 nmLight-emitting diode with dominant emission at 729 nanometres.
LED 730 nmLight-emitting diode with dominant emission at 730 nanometres.
LED 731 nmLight-emitting diode with dominant emission at 731 nanometres.
LED 732 nmLight-emitting diode with dominant emission at 732 nanometres.
LED 733 nmLight-emitting diode with dominant emission at 733 nanometres.
LED 734 nmLight-emitting diode with dominant emission at 734 nanometres.
LED 735 nmLight-emitting diode with dominant emission at 735 nanometres.
LED 736 nmLight-emitting diode with dominant emission at 736 nanometres.
LED 737 nmLight-emitting diode with dominant emission at 737 nanometres.
LED 738 nmLight-emitting diode with dominant emission at 738 nanometres.
LED 739 nmLight-emitting diode with dominant emission at 739 nanometres.
LED 740 nmLight-emitting diode with dominant emission at 740 nanometres.
LED 741 nmLight-emitting diode with dominant emission at 741 nanometres.
LED 742 nmLight-emitting diode with dominant emission at 742 nanometres.
LED 743 nmLight-emitting diode with dominant emission at 743 nanometres.
LED 744 nmLight-emitting diode with dominant emission at 744 nanometres.
LED 745 nmLight-emitting diode with dominant emission at 745 nanometres.
LED 746 nmLight-emitting diode with dominant emission at 746 nanometres.
LED 747 nmLight-emitting diode with dominant emission at 747 nanometres.
LED 748 nmLight-emitting diode with dominant emission at 748 nanometres.
LED 749 nmLight-emitting diode with dominant emission at 749 nanometres.
LED 750 nmLight-emitting diode with dominant emission at 750 nanometres.
LED 751 nmLight-emitting diode with dominant emission at 751 nanometres.
LED 752 nmLight-emitting diode with dominant emission at 752 nanometres.
LED 753 nmLight-emitting diode with dominant emission at 753 nanometres.
LED 754 nmLight-emitting diode with dominant emission at 754 nanometres.
LED 755 nmLight-emitting diode with dominant emission at 755 nanometres.
LED 756 nmLight-emitting diode with dominant emission at 756 nanometres.
LED 757 nmLight-emitting diode with dominant emission at 757 nanometres.
LED 758 nmLight-emitting diode with dominant emission at 758 nanometres.
LED 759 nmLight-emitting diode with dominant emission at 759 nanometres.
LED 760 nmLight-emitting diode with dominant emission at 760 nanometres.
LED 761 nmLight-emitting diode with dominant emission at 761 nanometres.
LED 762 nmLight-emitting diode with dominant emission at 762 nanometres.
LED 763 nmLight-emitting diode with dominant emission at 763 nanometres.
LED 764 nmLight-emitting diode with dominant emission at 764 nanometres.
LED 765 nmLight-emitting diode with dominant emission at 765 nanometres.
LED 766 nmLight-emitting diode with dominant emission at 766 nanometres.
LED 767 nmLight-emitting diode with dominant emission at 767 nanometres.
LED 768 nmLight-emitting diode with dominant emission at 768 nanometres.
LED 769 nmLight-emitting diode with dominant emission at 769 nanometres.
LED 770 nmLight-emitting diode with dominant emission at 770 nanometres.
LED 771 nmLight-emitting diode with dominant emission at 771 nanometres.
LED 772 nmLight-emitting diode with dominant emission at 772 nanometres.
LED 773 nmLight-emitting diode with dominant emission at 773 nanometres.
LED 774 nmLight-emitting diode with dominant emission at 774 nanometres.
LED 775 nmLight-emitting diode with dominant emission at 775 nanometres.
LED 776 nmLight-emitting diode with dominant emission at 776 nanometres.
LED 777 nmLight-emitting diode with dominant emission at 777 nanometres.
LED 778 nmLight-emitting diode with dominant emission at 778 nanometres.
LED 779 nmLight-emitting diode with dominant emission at 779 nanometres.
LED 780 nmLight-emitting diode with dominant emission at 780 nanometres.
LED chip (ams-OSRAM)ams-OSRAM LED chip or chip series for professional lighting applications.
LED chip (Bridgelux Thrive)Bridgelux Thrive LED chip or chip series for professional lighting applications.
LED chip (Bridgelux)Bridgelux LED chip or chip series for professional lighting applications.
LED chip (Citizen COB CLU)Citizen COB CLU LED chip or chip series for professional lighting applications.
LED chip (Citizen)Citizen LED chip or chip series for professional lighting applications.
LED chip (Cree XHP)Cree XHP LED chip or chip series for professional lighting applications.
LED chip (CREE XLamp)CREE XLamp LED chip or chip series for professional lighting applications.
LED chip (Cree XP-G3)Cree XP-G3 LED chip or chip series for professional lighting applications.
LED chip (Cree XP-L2)Cree XP-L2 LED chip or chip series for professional lighting applications.
LED chip (Cree)Cree LED chip or chip series for professional lighting applications.
LED chip (Dominant)Dominant LED chip or chip series for professional lighting applications.
LED chip (Edison Opto)Edison Opto LED chip or chip series for professional lighting applications.
LED chip (Epistar)Epistar LED chip or chip series for professional lighting applications.
LED chip (Everlight)Everlight LED chip or chip series for professional lighting applications.
LED chip (Honglitronic)Honglitronic LED chip or chip series for professional lighting applications.
LED chip (Kingbright)Kingbright LED chip or chip series for professional lighting applications.
LED chip (Lextar)Lextar LED chip or chip series for professional lighting applications.
LED chip (Lumileds LUXEON)Lumileds LUXEON LED chip or chip series for professional lighting applications.
LED chip (Lumileds)Lumileds LED chip or chip series for professional lighting applications.
LED chip (Luminus CXM)Luminus CXM LED chip or chip series for professional lighting applications.
LED chip (Luminus SBT)Luminus SBT LED chip or chip series for professional lighting applications.
LED chip (Luminus)Luminus LED chip or chip series for professional lighting applications.
LED chip (MLS)MLS LED chip or chip series for professional lighting applications.
LED chip (Nationstar)Nationstar LED chip or chip series for professional lighting applications.
LED chip (Nichia 219C)Nichia 219C LED chip or chip series for professional lighting applications.
LED chip (Nichia 757)Nichia 757 LED chip or chip series for professional lighting applications.
LED chip (Nichia)Nichia LED chip or chip series for professional lighting applications.
LED chip (OSRAM Duris)OSRAM Duris LED chip or chip series for professional lighting applications.
LED chip (ProLight)ProLight LED chip or chip series for professional lighting applications.
LED chip (Refond)Refond LED chip or chip series for professional lighting applications.
LED chip (Samsung LM281B+)Samsung LM281B+ LED chip or chip series for professional lighting applications.
LED chip (Samsung LM301B)Samsung LM301B LED chip or chip series for professional lighting applications.
LED chip (Samsung LM301H)Samsung LM301H LED chip or chip series for professional lighting applications.
LED chip (Samsung)Samsung LED chip or chip series for professional lighting applications.
LED chip (Seoul Semiconductor)Seoul Semiconductor LED chip or chip series for professional lighting applications.
LED chip (Seoul SunLike TRI-R)Seoul SunLike TRI-R LED chip or chip series for professional lighting applications.
LED chip (Sharp)Sharp LED chip or chip series for professional lighting applications.
LED chip (Soraa)Soraa LED chip or chip series for professional lighting applications.
LED chip (SunLike Seoul)SunLike Seoul LED chip or chip series for professional lighting applications.
LED chip (Toyoda Gosei)Toyoda Gosei LED chip or chip series for professional lighting applications.
LED chip (Yuji International)Yuji International LED chip or chip series for professional lighting applications.
LED current 1000mALED operated at 1000mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1001mALED operated at 1001mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1002mALED operated at 1002mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1003mALED operated at 1003mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1004mALED operated at 1004mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1005mALED operated at 1005mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1006mALED operated at 1006mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1007mALED operated at 1007mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1008mALED operated at 1008mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1009mALED operated at 1009mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 100mALED operated at 100mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1010mALED operated at 1010mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1011mALED operated at 1011mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1012mALED operated at 1012mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1013mALED operated at 1013mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1014mALED operated at 1014mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1015mALED operated at 1015mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1016mALED operated at 1016mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1017mALED operated at 1017mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1018mALED operated at 1018mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1019mALED operated at 1019mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 101mALED operated at 101mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1020mALED operated at 1020mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1021mALED operated at 1021mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1022mALED operated at 1022mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1023mALED operated at 1023mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1024mALED operated at 1024mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1025mALED operated at 1025mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1026mALED operated at 1026mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1027mALED operated at 1027mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1028mALED operated at 1028mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1029mALED operated at 1029mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 102mALED operated at 102mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1030mALED operated at 1030mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1031mALED operated at 1031mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1032mALED operated at 1032mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1033mALED operated at 1033mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1034mALED operated at 1034mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1035mALED operated at 1035mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1036mALED operated at 1036mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1037mALED operated at 1037mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1038mALED operated at 1038mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1039mALED operated at 1039mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 103mALED operated at 103mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1040mALED operated at 1040mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1041mALED operated at 1041mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1042mALED operated at 1042mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1043mALED operated at 1043mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1044mALED operated at 1044mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1045mALED operated at 1045mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1046mALED operated at 1046mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1047mALED operated at 1047mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1048mALED operated at 1048mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1049mALED operated at 1049mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 104mALED operated at 104mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1050mALED operated at 1050mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1051mALED operated at 1051mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1052mALED operated at 1052mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1053mALED operated at 1053mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1054mALED operated at 1054mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1055mALED operated at 1055mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1056mALED operated at 1056mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1057mALED operated at 1057mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1058mALED operated at 1058mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1059mALED operated at 1059mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 105mALED operated at 105mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1060mALED operated at 1060mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1061mALED operated at 1061mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1062mALED operated at 1062mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1063mALED operated at 1063mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1064mALED operated at 1064mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1065mALED operated at 1065mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1066mALED operated at 1066mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1067mALED operated at 1067mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1068mALED operated at 1068mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1069mALED operated at 1069mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 106mALED operated at 106mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1070mALED operated at 1070mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1071mALED operated at 1071mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1072mALED operated at 1072mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1073mALED operated at 1073mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1074mALED operated at 1074mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1075mALED operated at 1075mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1076mALED operated at 1076mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1077mALED operated at 1077mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1078mALED operated at 1078mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1079mALED operated at 1079mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 107mALED operated at 107mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1080mALED operated at 1080mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1081mALED operated at 1081mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1082mALED operated at 1082mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1083mALED operated at 1083mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1084mALED operated at 1084mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1085mALED operated at 1085mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1086mALED operated at 1086mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1087mALED operated at 1087mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1088mALED operated at 1088mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1089mALED operated at 1089mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 108mALED operated at 108mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1090mALED operated at 1090mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1091mALED operated at 1091mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1092mALED operated at 1092mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1093mALED operated at 1093mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1094mALED operated at 1094mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1095mALED operated at 1095mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1096mALED operated at 1096mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1097mALED operated at 1097mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1098mALED operated at 1098mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1099mALED operated at 1099mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 109mALED operated at 109mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 10mALED operated at 10mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1100mALED operated at 1100mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1101mALED operated at 1101mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1102mALED operated at 1102mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1103mALED operated at 1103mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1104mALED operated at 1104mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1105mALED operated at 1105mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1106mALED operated at 1106mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1107mALED operated at 1107mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1108mALED operated at 1108mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1109mALED operated at 1109mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 110mALED operated at 110mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1110mALED operated at 1110mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1111mALED operated at 1111mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1112mALED operated at 1112mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1113mALED operated at 1113mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1114mALED operated at 1114mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1115mALED operated at 1115mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1116mALED operated at 1116mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1117mALED operated at 1117mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1118mALED operated at 1118mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1119mALED operated at 1119mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 111mALED operated at 111mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1120mALED operated at 1120mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1121mALED operated at 1121mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1122mALED operated at 1122mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1123mALED operated at 1123mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1124mALED operated at 1124mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1125mALED operated at 1125mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1126mALED operated at 1126mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1127mALED operated at 1127mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1128mALED operated at 1128mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1129mALED operated at 1129mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 112mALED operated at 112mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1130mALED operated at 1130mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1131mALED operated at 1131mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1132mALED operated at 1132mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1133mALED operated at 1133mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1134mALED operated at 1134mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1135mALED operated at 1135mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1136mALED operated at 1136mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1137mALED operated at 1137mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1138mALED operated at 1138mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1139mALED operated at 1139mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 113mALED operated at 113mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1140mALED operated at 1140mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1141mALED operated at 1141mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1142mALED operated at 1142mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1143mALED operated at 1143mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1144mALED operated at 1144mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1145mALED operated at 1145mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1146mALED operated at 1146mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1147mALED operated at 1147mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1148mALED operated at 1148mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1149mALED operated at 1149mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 114mALED operated at 114mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1150mALED operated at 1150mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1151mALED operated at 1151mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1152mALED operated at 1152mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1153mALED operated at 1153mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1154mALED operated at 1154mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1155mALED operated at 1155mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1156mALED operated at 1156mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1157mALED operated at 1157mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1158mALED operated at 1158mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1159mALED operated at 1159mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 115mALED operated at 115mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1160mALED operated at 1160mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1161mALED operated at 1161mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1162mALED operated at 1162mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1163mALED operated at 1163mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1164mALED operated at 1164mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1165mALED operated at 1165mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1166mALED operated at 1166mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1167mALED operated at 1167mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1168mALED operated at 1168mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1169mALED operated at 1169mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 116mALED operated at 116mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1170mALED operated at 1170mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1171mALED operated at 1171mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1172mALED operated at 1172mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1173mALED operated at 1173mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1174mALED operated at 1174mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1175mALED operated at 1175mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1176mALED operated at 1176mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1177mALED operated at 1177mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1178mALED operated at 1178mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1179mALED operated at 1179mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 117mALED operated at 117mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1180mALED operated at 1180mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1181mALED operated at 1181mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1182mALED operated at 1182mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1183mALED operated at 1183mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1184mALED operated at 1184mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1185mALED operated at 1185mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1186mALED operated at 1186mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1187mALED operated at 1187mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1188mALED operated at 1188mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1189mALED operated at 1189mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 118mALED operated at 118mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1190mALED operated at 1190mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1191mALED operated at 1191mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1192mALED operated at 1192mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1193mALED operated at 1193mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1194mALED operated at 1194mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1195mALED operated at 1195mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1196mALED operated at 1196mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1197mALED operated at 1197mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1198mALED operated at 1198mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1199mALED operated at 1199mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 119mALED operated at 119mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 11mALED operated at 11mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1200mALED operated at 1200mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1201mALED operated at 1201mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1202mALED operated at 1202mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1203mALED operated at 1203mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1204mALED operated at 1204mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1205mALED operated at 1205mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1206mALED operated at 1206mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1207mALED operated at 1207mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1208mALED operated at 1208mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1209mALED operated at 1209mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 120mALED operated at 120mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1210mALED operated at 1210mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1211mALED operated at 1211mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1212mALED operated at 1212mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1213mALED operated at 1213mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1214mALED operated at 1214mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1215mALED operated at 1215mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1216mALED operated at 1216mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1217mALED operated at 1217mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1218mALED operated at 1218mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1219mALED operated at 1219mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 121mALED operated at 121mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1220mALED operated at 1220mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1221mALED operated at 1221mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1222mALED operated at 1222mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1223mALED operated at 1223mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1224mALED operated at 1224mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1225mALED operated at 1225mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1226mALED operated at 1226mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1227mALED operated at 1227mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1228mALED operated at 1228mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1229mALED operated at 1229mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 122mALED operated at 122mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1230mALED operated at 1230mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1231mALED operated at 1231mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1232mALED operated at 1232mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1233mALED operated at 1233mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1234mALED operated at 1234mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1235mALED operated at 1235mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1236mALED operated at 1236mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1237mALED operated at 1237mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1238mALED operated at 1238mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1239mALED operated at 1239mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 123mALED operated at 123mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1240mALED operated at 1240mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1241mALED operated at 1241mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1242mALED operated at 1242mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1243mALED operated at 1243mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1244mALED operated at 1244mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1245mALED operated at 1245mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1246mALED operated at 1246mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1247mALED operated at 1247mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1248mALED operated at 1248mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1249mALED operated at 1249mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 124mALED operated at 124mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1250mALED operated at 1250mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1251mALED operated at 1251mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1252mALED operated at 1252mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1253mALED operated at 1253mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1254mALED operated at 1254mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1255mALED operated at 1255mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1256mALED operated at 1256mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1257mALED operated at 1257mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1258mALED operated at 1258mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1259mALED operated at 1259mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 125mALED operated at 125mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1260mALED operated at 1260mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1261mALED operated at 1261mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1262mALED operated at 1262mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1263mALED operated at 1263mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1264mALED operated at 1264mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1265mALED operated at 1265mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1266mALED operated at 1266mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1267mALED operated at 1267mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1268mALED operated at 1268mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1269mALED operated at 1269mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 126mALED operated at 126mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1270mALED operated at 1270mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1271mALED operated at 1271mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1272mALED operated at 1272mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1273mALED operated at 1273mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1274mALED operated at 1274mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1275mALED operated at 1275mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1276mALED operated at 1276mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1277mALED operated at 1277mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1278mALED operated at 1278mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1279mALED operated at 1279mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 127mALED operated at 127mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1280mALED operated at 1280mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1281mALED operated at 1281mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1282mALED operated at 1282mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1283mALED operated at 1283mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1284mALED operated at 1284mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1285mALED operated at 1285mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1286mALED operated at 1286mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1287mALED operated at 1287mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1288mALED operated at 1288mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1289mALED operated at 1289mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 128mALED operated at 128mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1290mALED operated at 1290mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1291mALED operated at 1291mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1292mALED operated at 1292mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1293mALED operated at 1293mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1294mALED operated at 1294mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1295mALED operated at 1295mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1296mALED operated at 1296mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1297mALED operated at 1297mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1298mALED operated at 1298mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1299mALED operated at 1299mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 129mALED operated at 129mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 12mALED operated at 12mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1300mALED operated at 1300mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1301mALED operated at 1301mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1302mALED operated at 1302mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1303mALED operated at 1303mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1304mALED operated at 1304mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1305mALED operated at 1305mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1306mALED operated at 1306mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1307mALED operated at 1307mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1308mALED operated at 1308mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1309mALED operated at 1309mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 130mALED operated at 130mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1310mALED operated at 1310mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1311mALED operated at 1311mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1312mALED operated at 1312mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1313mALED operated at 1313mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1314mALED operated at 1314mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1315mALED operated at 1315mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1316mALED operated at 1316mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1317mALED operated at 1317mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1318mALED operated at 1318mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1319mALED operated at 1319mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 131mALED operated at 131mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1320mALED operated at 1320mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1321mALED operated at 1321mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1322mALED operated at 1322mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1323mALED operated at 1323mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1324mALED operated at 1324mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1325mALED operated at 1325mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1326mALED operated at 1326mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1327mALED operated at 1327mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1328mALED operated at 1328mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1329mALED operated at 1329mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 132mALED operated at 132mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1330mALED operated at 1330mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1331mALED operated at 1331mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1332mALED operated at 1332mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1333mALED operated at 1333mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1334mALED operated at 1334mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1335mALED operated at 1335mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1336mALED operated at 1336mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1337mALED operated at 1337mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1338mALED operated at 1338mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1339mALED operated at 1339mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 133mALED operated at 133mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1340mALED operated at 1340mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1341mALED operated at 1341mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1342mALED operated at 1342mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1343mALED operated at 1343mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1344mALED operated at 1344mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1345mALED operated at 1345mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1346mALED operated at 1346mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1347mALED operated at 1347mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1348mALED operated at 1348mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1349mALED operated at 1349mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 134mALED operated at 134mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1350mALED operated at 1350mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1351mALED operated at 1351mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1352mALED operated at 1352mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1353mALED operated at 1353mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1354mALED operated at 1354mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1355mALED operated at 1355mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1356mALED operated at 1356mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1357mALED operated at 1357mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1358mALED operated at 1358mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1359mALED operated at 1359mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 135mALED operated at 135mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1360mALED operated at 1360mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1361mALED operated at 1361mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1362mALED operated at 1362mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1363mALED operated at 1363mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1364mALED operated at 1364mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1365mALED operated at 1365mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1366mALED operated at 1366mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1367mALED operated at 1367mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1368mALED operated at 1368mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1369mALED operated at 1369mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 136mALED operated at 136mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1370mALED operated at 1370mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1371mALED operated at 1371mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1372mALED operated at 1372mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1373mALED operated at 1373mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1374mALED operated at 1374mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1375mALED operated at 1375mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1376mALED operated at 1376mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1377mALED operated at 1377mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1378mALED operated at 1378mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1379mALED operated at 1379mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 137mALED operated at 137mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1380mALED operated at 1380mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1381mALED operated at 1381mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1382mALED operated at 1382mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1383mALED operated at 1383mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1384mALED operated at 1384mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1385mALED operated at 1385mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1386mALED operated at 1386mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1387mALED operated at 1387mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1388mALED operated at 1388mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1389mALED operated at 1389mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 138mALED operated at 138mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1390mALED operated at 1390mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1391mALED operated at 1391mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1392mALED operated at 1392mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1393mALED operated at 1393mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1394mALED operated at 1394mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1395mALED operated at 1395mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1396mALED operated at 1396mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1397mALED operated at 1397mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1398mALED operated at 1398mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1399mALED operated at 1399mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 139mALED operated at 139mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 13mALED operated at 13mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1400mALED operated at 1400mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1401mALED operated at 1401mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1402mALED operated at 1402mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1403mALED operated at 1403mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1404mALED operated at 1404mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1405mALED operated at 1405mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1406mALED operated at 1406mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1407mALED operated at 1407mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1408mALED operated at 1408mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1409mALED operated at 1409mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 140mALED operated at 140mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1410mALED operated at 1410mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1411mALED operated at 1411mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1412mALED operated at 1412mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1413mALED operated at 1413mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1414mALED operated at 1414mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1415mALED operated at 1415mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1416mALED operated at 1416mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1417mALED operated at 1417mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1418mALED operated at 1418mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1419mALED operated at 1419mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 141mALED operated at 141mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1420mALED operated at 1420mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1421mALED operated at 1421mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1422mALED operated at 1422mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1423mALED operated at 1423mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1424mALED operated at 1424mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1425mALED operated at 1425mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1426mALED operated at 1426mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1427mALED operated at 1427mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1428mALED operated at 1428mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1429mALED operated at 1429mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 142mALED operated at 142mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1430mALED operated at 1430mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1431mALED operated at 1431mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1432mALED operated at 1432mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1433mALED operated at 1433mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1434mALED operated at 1434mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1435mALED operated at 1435mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1436mALED operated at 1436mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1437mALED operated at 1437mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1438mALED operated at 1438mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1439mALED operated at 1439mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 143mALED operated at 143mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1440mALED operated at 1440mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1441mALED operated at 1441mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1442mALED operated at 1442mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1443mALED operated at 1443mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1444mALED operated at 1444mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1445mALED operated at 1445mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1446mALED operated at 1446mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1447mALED operated at 1447mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1448mALED operated at 1448mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1449mALED operated at 1449mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 144mALED operated at 144mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1450mALED operated at 1450mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1451mALED operated at 1451mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1452mALED operated at 1452mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1453mALED operated at 1453mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1454mALED operated at 1454mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1455mALED operated at 1455mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1456mALED operated at 1456mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1457mALED operated at 1457mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1458mALED operated at 1458mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1459mALED operated at 1459mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 145mALED operated at 145mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1460mALED operated at 1460mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1461mALED operated at 1461mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1462mALED operated at 1462mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1463mALED operated at 1463mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1464mALED operated at 1464mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1465mALED operated at 1465mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1466mALED operated at 1466mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1467mALED operated at 1467mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1468mALED operated at 1468mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1469mALED operated at 1469mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 146mALED operated at 146mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1470mALED operated at 1470mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1471mALED operated at 1471mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1472mALED operated at 1472mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1473mALED operated at 1473mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1474mALED operated at 1474mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1475mALED operated at 1475mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1476mALED operated at 1476mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1477mALED operated at 1477mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1478mALED operated at 1478mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1479mALED operated at 1479mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 147mALED operated at 147mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1480mALED operated at 1480mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1481mALED operated at 1481mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1482mALED operated at 1482mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1483mALED operated at 1483mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1484mALED operated at 1484mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1485mALED operated at 1485mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1486mALED operated at 1486mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1487mALED operated at 1487mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1488mALED operated at 1488mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1489mALED operated at 1489mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 148mALED operated at 148mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1490mALED operated at 1490mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1491mALED operated at 1491mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1492mALED operated at 1492mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1493mALED operated at 1493mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1494mALED operated at 1494mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1495mALED operated at 1495mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1496mALED operated at 1496mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1497mALED operated at 1497mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1498mALED operated at 1498mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1499mALED operated at 1499mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 149mALED operated at 149mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 14mALED operated at 14mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1500mALED operated at 1500mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1501mALED operated at 1501mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1502mALED operated at 1502mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1503mALED operated at 1503mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1504mALED operated at 1504mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1505mALED operated at 1505mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1506mALED operated at 1506mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1507mALED operated at 1507mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1508mALED operated at 1508mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1509mALED operated at 1509mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 150mALED operated at 150mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1510mALED operated at 1510mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1511mALED operated at 1511mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1512mALED operated at 1512mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1513mALED operated at 1513mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1514mALED operated at 1514mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1515mALED operated at 1515mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1516mALED operated at 1516mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1517mALED operated at 1517mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1518mALED operated at 1518mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1519mALED operated at 1519mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 151mALED operated at 151mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1520mALED operated at 1520mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1521mALED operated at 1521mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1522mALED operated at 1522mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1523mALED operated at 1523mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1524mALED operated at 1524mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1525mALED operated at 1525mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1526mALED operated at 1526mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1527mALED operated at 1527mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1528mALED operated at 1528mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1529mALED operated at 1529mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 152mALED operated at 152mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1530mALED operated at 1530mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1531mALED operated at 1531mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1532mALED operated at 1532mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1533mALED operated at 1533mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1534mALED operated at 1534mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1535mALED operated at 1535mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1536mALED operated at 1536mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1537mALED operated at 1537mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1538mALED operated at 1538mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1539mALED operated at 1539mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 153mALED operated at 153mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1540mALED operated at 1540mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1541mALED operated at 1541mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1542mALED operated at 1542mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1543mALED operated at 1543mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1544mALED operated at 1544mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1545mALED operated at 1545mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1546mALED operated at 1546mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1547mALED operated at 1547mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1548mALED operated at 1548mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1549mALED operated at 1549mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 154mALED operated at 154mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1550mALED operated at 1550mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1551mALED operated at 1551mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1552mALED operated at 1552mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1553mALED operated at 1553mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1554mALED operated at 1554mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1555mALED operated at 1555mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1556mALED operated at 1556mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1557mALED operated at 1557mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1558mALED operated at 1558mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1559mALED operated at 1559mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 155mALED operated at 155mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1560mALED operated at 1560mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1561mALED operated at 1561mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1562mALED operated at 1562mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1563mALED operated at 1563mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1564mALED operated at 1564mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1565mALED operated at 1565mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1566mALED operated at 1566mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1567mALED operated at 1567mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1568mALED operated at 1568mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1569mALED operated at 1569mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 156mALED operated at 156mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1570mALED operated at 1570mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1571mALED operated at 1571mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1572mALED operated at 1572mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1573mALED operated at 1573mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1574mALED operated at 1574mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1575mALED operated at 1575mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1576mALED operated at 1576mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1577mALED operated at 1577mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1578mALED operated at 1578mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1579mALED operated at 1579mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 157mALED operated at 157mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1580mALED operated at 1580mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1581mALED operated at 1581mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1582mALED operated at 1582mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1583mALED operated at 1583mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1584mALED operated at 1584mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1585mALED operated at 1585mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1586mALED operated at 1586mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1587mALED operated at 1587mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1588mALED operated at 1588mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1589mALED operated at 1589mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 158mALED operated at 158mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1590mALED operated at 1590mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1591mALED operated at 1591mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1592mALED operated at 1592mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1593mALED operated at 1593mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1594mALED operated at 1594mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1595mALED operated at 1595mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1596mALED operated at 1596mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1597mALED operated at 1597mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1598mALED operated at 1598mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1599mALED operated at 1599mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 159mALED operated at 159mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 15mALED operated at 15mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1600mALED operated at 1600mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1601mALED operated at 1601mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1602mALED operated at 1602mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1603mALED operated at 1603mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1604mALED operated at 1604mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1605mALED operated at 1605mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1606mALED operated at 1606mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1607mALED operated at 1607mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1608mALED operated at 1608mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1609mALED operated at 1609mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 160mALED operated at 160mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1610mALED operated at 1610mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1611mALED operated at 1611mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1612mALED operated at 1612mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1613mALED operated at 1613mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1614mALED operated at 1614mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1615mALED operated at 1615mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1616mALED operated at 1616mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1617mALED operated at 1617mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1618mALED operated at 1618mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1619mALED operated at 1619mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 161mALED operated at 161mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1620mALED operated at 1620mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1621mALED operated at 1621mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1622mALED operated at 1622mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1623mALED operated at 1623mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1624mALED operated at 1624mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1625mALED operated at 1625mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1626mALED operated at 1626mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1627mALED operated at 1627mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1628mALED operated at 1628mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1629mALED operated at 1629mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 162mALED operated at 162mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1630mALED operated at 1630mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1631mALED operated at 1631mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1632mALED operated at 1632mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1633mALED operated at 1633mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1634mALED operated at 1634mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1635mALED operated at 1635mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1636mALED operated at 1636mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1637mALED operated at 1637mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1638mALED operated at 1638mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1639mALED operated at 1639mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 163mALED operated at 163mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1640mALED operated at 1640mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1641mALED operated at 1641mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1642mALED operated at 1642mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1643mALED operated at 1643mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1644mALED operated at 1644mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1645mALED operated at 1645mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1646mALED operated at 1646mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1647mALED operated at 1647mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1648mALED operated at 1648mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1649mALED operated at 1649mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 164mALED operated at 164mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1650mALED operated at 1650mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1651mALED operated at 1651mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1652mALED operated at 1652mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1653mALED operated at 1653mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1654mALED operated at 1654mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1655mALED operated at 1655mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1656mALED operated at 1656mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1657mALED operated at 1657mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1658mALED operated at 1658mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1659mALED operated at 1659mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 165mALED operated at 165mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1660mALED operated at 1660mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1661mALED operated at 1661mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1662mALED operated at 1662mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1663mALED operated at 1663mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1664mALED operated at 1664mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1665mALED operated at 1665mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1666mALED operated at 1666mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1667mALED operated at 1667mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1668mALED operated at 1668mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1669mALED operated at 1669mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 166mALED operated at 166mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1670mALED operated at 1670mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1671mALED operated at 1671mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1672mALED operated at 1672mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1673mALED operated at 1673mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1674mALED operated at 1674mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1675mALED operated at 1675mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1676mALED operated at 1676mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1677mALED operated at 1677mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1678mALED operated at 1678mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1679mALED operated at 1679mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 167mALED operated at 167mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1680mALED operated at 1680mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1681mALED operated at 1681mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1682mALED operated at 1682mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1683mALED operated at 1683mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1684mALED operated at 1684mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1685mALED operated at 1685mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1686mALED operated at 1686mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1687mALED operated at 1687mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1688mALED operated at 1688mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1689mALED operated at 1689mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 168mALED operated at 168mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1690mALED operated at 1690mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1691mALED operated at 1691mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1692mALED operated at 1692mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1693mALED operated at 1693mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1694mALED operated at 1694mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1695mALED operated at 1695mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1696mALED operated at 1696mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1697mALED operated at 1697mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1698mALED operated at 1698mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1699mALED operated at 1699mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 169mALED operated at 169mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 16mALED operated at 16mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1700mALED operated at 1700mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1701mALED operated at 1701mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1702mALED operated at 1702mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1703mALED operated at 1703mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1704mALED operated at 1704mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1705mALED operated at 1705mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1706mALED operated at 1706mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1707mALED operated at 1707mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1708mALED operated at 1708mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1709mALED operated at 1709mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 170mALED operated at 170mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1710mALED operated at 1710mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1711mALED operated at 1711mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1712mALED operated at 1712mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1713mALED operated at 1713mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1714mALED operated at 1714mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1715mALED operated at 1715mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1716mALED operated at 1716mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1717mALED operated at 1717mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1718mALED operated at 1718mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1719mALED operated at 1719mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 171mALED operated at 171mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1720mALED operated at 1720mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1721mALED operated at 1721mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1722mALED operated at 1722mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1723mALED operated at 1723mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1724mALED operated at 1724mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1725mALED operated at 1725mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1726mALED operated at 1726mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1727mALED operated at 1727mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1728mALED operated at 1728mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1729mALED operated at 1729mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 172mALED operated at 172mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1730mALED operated at 1730mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1731mALED operated at 1731mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1732mALED operated at 1732mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1733mALED operated at 1733mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1734mALED operated at 1734mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1735mALED operated at 1735mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1736mALED operated at 1736mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1737mALED operated at 1737mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1738mALED operated at 1738mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1739mALED operated at 1739mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 173mALED operated at 173mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1740mALED operated at 1740mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1741mALED operated at 1741mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1742mALED operated at 1742mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1743mALED operated at 1743mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1744mALED operated at 1744mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1745mALED operated at 1745mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1746mALED operated at 1746mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1747mALED operated at 1747mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1748mALED operated at 1748mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1749mALED operated at 1749mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 174mALED operated at 174mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1750mALED operated at 1750mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1751mALED operated at 1751mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1752mALED operated at 1752mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1753mALED operated at 1753mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1754mALED operated at 1754mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1755mALED operated at 1755mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1756mALED operated at 1756mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1757mALED operated at 1757mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1758mALED operated at 1758mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1759mALED operated at 1759mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 175mALED operated at 175mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1760mALED operated at 1760mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1761mALED operated at 1761mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1762mALED operated at 1762mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1763mALED operated at 1763mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1764mALED operated at 1764mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1765mALED operated at 1765mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1766mALED operated at 1766mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1767mALED operated at 1767mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1768mALED operated at 1768mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1769mALED operated at 1769mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 176mALED operated at 176mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1770mALED operated at 1770mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1771mALED operated at 1771mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1772mALED operated at 1772mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1773mALED operated at 1773mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1774mALED operated at 1774mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1775mALED operated at 1775mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1776mALED operated at 1776mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1777mALED operated at 1777mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1778mALED operated at 1778mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1779mALED operated at 1779mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 177mALED operated at 177mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1780mALED operated at 1780mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1781mALED operated at 1781mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1782mALED operated at 1782mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1783mALED operated at 1783mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1784mALED operated at 1784mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1785mALED operated at 1785mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1786mALED operated at 1786mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1787mALED operated at 1787mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1788mALED operated at 1788mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1789mALED operated at 1789mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 178mALED operated at 178mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1790mALED operated at 1790mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1791mALED operated at 1791mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1792mALED operated at 1792mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1793mALED operated at 1793mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1794mALED operated at 1794mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1795mALED operated at 1795mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1796mALED operated at 1796mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1797mALED operated at 1797mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1798mALED operated at 1798mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1799mALED operated at 1799mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 179mALED operated at 179mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 17mALED operated at 17mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1800mALED operated at 1800mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1801mALED operated at 1801mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1802mALED operated at 1802mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1803mALED operated at 1803mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1804mALED operated at 1804mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1805mALED operated at 1805mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1806mALED operated at 1806mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1807mALED operated at 1807mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1808mALED operated at 1808mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1809mALED operated at 1809mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 180mALED operated at 180mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1810mALED operated at 1810mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1811mALED operated at 1811mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1812mALED operated at 1812mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1813mALED operated at 1813mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1814mALED operated at 1814mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1815mALED operated at 1815mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1816mALED operated at 1816mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1817mALED operated at 1817mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1818mALED operated at 1818mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1819mALED operated at 1819mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 181mALED operated at 181mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1820mALED operated at 1820mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1821mALED operated at 1821mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1822mALED operated at 1822mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1823mALED operated at 1823mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1824mALED operated at 1824mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1825mALED operated at 1825mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1826mALED operated at 1826mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1827mALED operated at 1827mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1828mALED operated at 1828mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1829mALED operated at 1829mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 182mALED operated at 182mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1830mALED operated at 1830mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1831mALED operated at 1831mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1832mALED operated at 1832mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1833mALED operated at 1833mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1834mALED operated at 1834mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1835mALED operated at 1835mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1836mALED operated at 1836mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1837mALED operated at 1837mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1838mALED operated at 1838mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1839mALED operated at 1839mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 183mALED operated at 183mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1840mALED operated at 1840mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1841mALED operated at 1841mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1842mALED operated at 1842mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1843mALED operated at 1843mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1844mALED operated at 1844mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1845mALED operated at 1845mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1846mALED operated at 1846mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1847mALED operated at 1847mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1848mALED operated at 1848mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1849mALED operated at 1849mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 184mALED operated at 184mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1850mALED operated at 1850mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1851mALED operated at 1851mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1852mALED operated at 1852mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1853mALED operated at 1853mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1854mALED operated at 1854mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1855mALED operated at 1855mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1856mALED operated at 1856mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1857mALED operated at 1857mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1858mALED operated at 1858mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1859mALED operated at 1859mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 185mALED operated at 185mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1860mALED operated at 1860mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1861mALED operated at 1861mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1862mALED operated at 1862mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1863mALED operated at 1863mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1864mALED operated at 1864mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1865mALED operated at 1865mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1866mALED operated at 1866mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1867mALED operated at 1867mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1868mALED operated at 1868mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1869mALED operated at 1869mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 186mALED operated at 186mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1870mALED operated at 1870mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1871mALED operated at 1871mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1872mALED operated at 1872mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1873mALED operated at 1873mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1874mALED operated at 1874mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1875mALED operated at 1875mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1876mALED operated at 1876mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1877mALED operated at 1877mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1878mALED operated at 1878mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1879mALED operated at 1879mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 187mALED operated at 187mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1880mALED operated at 1880mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1881mALED operated at 1881mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1882mALED operated at 1882mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1883mALED operated at 1883mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1884mALED operated at 1884mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1885mALED operated at 1885mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1886mALED operated at 1886mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1887mALED operated at 1887mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1888mALED operated at 1888mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1889mALED operated at 1889mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 188mALED operated at 188mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1890mALED operated at 1890mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1891mALED operated at 1891mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1892mALED operated at 1892mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1893mALED operated at 1893mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1894mALED operated at 1894mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1895mALED operated at 1895mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1896mALED operated at 1896mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1897mALED operated at 1897mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1898mALED operated at 1898mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1899mALED operated at 1899mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 189mALED operated at 189mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 18mALED operated at 18mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1900mALED operated at 1900mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1901mALED operated at 1901mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1902mALED operated at 1902mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1903mALED operated at 1903mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1904mALED operated at 1904mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1905mALED operated at 1905mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1906mALED operated at 1906mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1907mALED operated at 1907mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1908mALED operated at 1908mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1909mALED operated at 1909mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 190mALED operated at 190mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1910mALED operated at 1910mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1911mALED operated at 1911mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1912mALED operated at 1912mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1913mALED operated at 1913mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1914mALED operated at 1914mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1915mALED operated at 1915mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1916mALED operated at 1916mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1917mALED operated at 1917mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1918mALED operated at 1918mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1919mALED operated at 1919mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 191mALED operated at 191mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1920mALED operated at 1920mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1921mALED operated at 1921mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1922mALED operated at 1922mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1923mALED operated at 1923mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1924mALED operated at 1924mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1925mALED operated at 1925mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1926mALED operated at 1926mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1927mALED operated at 1927mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1928mALED operated at 1928mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1929mALED operated at 1929mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 192mALED operated at 192mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1930mALED operated at 1930mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1931mALED operated at 1931mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1932mALED operated at 1932mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1933mALED operated at 1933mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1934mALED operated at 1934mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1935mALED operated at 1935mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1936mALED operated at 1936mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1937mALED operated at 1937mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1938mALED operated at 1938mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1939mALED operated at 1939mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 193mALED operated at 193mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1940mALED operated at 1940mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1941mALED operated at 1941mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1942mALED operated at 1942mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1943mALED operated at 1943mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1944mALED operated at 1944mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1945mALED operated at 1945mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1946mALED operated at 1946mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1947mALED operated at 1947mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1948mALED operated at 1948mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1949mALED operated at 1949mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 194mALED operated at 194mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1950mALED operated at 1950mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1951mALED operated at 1951mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1952mALED operated at 1952mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1953mALED operated at 1953mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1954mALED operated at 1954mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1955mALED operated at 1955mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1956mALED operated at 1956mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1957mALED operated at 1957mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1958mALED operated at 1958mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1959mALED operated at 1959mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 195mALED operated at 195mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1960mALED operated at 1960mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1961mALED operated at 1961mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1962mALED operated at 1962mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1963mALED operated at 1963mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1964mALED operated at 1964mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1965mALED operated at 1965mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1966mALED operated at 1966mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1967mALED operated at 1967mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1968mALED operated at 1968mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1969mALED operated at 1969mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 196mALED operated at 196mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1970mALED operated at 1970mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1971mALED operated at 1971mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1972mALED operated at 1972mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1973mALED operated at 1973mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1974mALED operated at 1974mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1975mALED operated at 1975mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1976mALED operated at 1976mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1977mALED operated at 1977mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1978mALED operated at 1978mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1979mALED operated at 1979mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 197mALED operated at 197mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1980mALED operated at 1980mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1981mALED operated at 1981mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1982mALED operated at 1982mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1983mALED operated at 1983mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1984mALED operated at 1984mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1985mALED operated at 1985mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1986mALED operated at 1986mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1987mALED operated at 1987mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1988mALED operated at 1988mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1989mALED operated at 1989mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 198mALED operated at 198mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1990mALED operated at 1990mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1991mALED operated at 1991mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1992mALED operated at 1992mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1993mALED operated at 1993mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1994mALED operated at 1994mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1995mALED operated at 1995mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1996mALED operated at 1996mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1997mALED operated at 1997mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1998mALED operated at 1998mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1999mALED operated at 1999mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 199mALED operated at 199mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 19mALED operated at 19mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 1mALED operated at 1mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2000mALED operated at 2000mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2001mALED operated at 2001mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2002mALED operated at 2002mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2003mALED operated at 2003mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2004mALED operated at 2004mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2005mALED operated at 2005mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2006mALED operated at 2006mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2007mALED operated at 2007mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2008mALED operated at 2008mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2009mALED operated at 2009mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 200mALED operated at 200mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2010mALED operated at 2010mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2011mALED operated at 2011mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2012mALED operated at 2012mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2013mALED operated at 2013mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2014mALED operated at 2014mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2015mALED operated at 2015mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2016mALED operated at 2016mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2017mALED operated at 2017mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2018mALED operated at 2018mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2019mALED operated at 2019mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 201mALED operated at 201mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2020mALED operated at 2020mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2021mALED operated at 2021mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2022mALED operated at 2022mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2023mALED operated at 2023mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2024mALED operated at 2024mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2025mALED operated at 2025mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2026mALED operated at 2026mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2027mALED operated at 2027mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2028mALED operated at 2028mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2029mALED operated at 2029mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 202mALED operated at 202mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2030mALED operated at 2030mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2031mALED operated at 2031mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2032mALED operated at 2032mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2033mALED operated at 2033mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2034mALED operated at 2034mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2035mALED operated at 2035mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2036mALED operated at 2036mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2037mALED operated at 2037mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2038mALED operated at 2038mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2039mALED operated at 2039mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 203mALED operated at 203mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2040mALED operated at 2040mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2041mALED operated at 2041mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2042mALED operated at 2042mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2043mALED operated at 2043mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2044mALED operated at 2044mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2045mALED operated at 2045mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2046mALED operated at 2046mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2047mALED operated at 2047mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2048mALED operated at 2048mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2049mALED operated at 2049mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 204mALED operated at 204mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2050mALED operated at 2050mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2051mALED operated at 2051mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2052mALED operated at 2052mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2053mALED operated at 2053mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2054mALED operated at 2054mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2055mALED operated at 2055mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2056mALED operated at 2056mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2057mALED operated at 2057mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2058mALED operated at 2058mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2059mALED operated at 2059mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 205mALED operated at 205mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2060mALED operated at 2060mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2061mALED operated at 2061mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2062mALED operated at 2062mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2063mALED operated at 2063mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2064mALED operated at 2064mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2065mALED operated at 2065mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2066mALED operated at 2066mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2067mALED operated at 2067mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2068mALED operated at 2068mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2069mALED operated at 2069mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 206mALED operated at 206mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2070mALED operated at 2070mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2071mALED operated at 2071mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2072mALED operated at 2072mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2073mALED operated at 2073mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2074mALED operated at 2074mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2075mALED operated at 2075mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2076mALED operated at 2076mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2077mALED operated at 2077mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2078mALED operated at 2078mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2079mALED operated at 2079mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 207mALED operated at 207mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2080mALED operated at 2080mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2081mALED operated at 2081mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2082mALED operated at 2082mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2083mALED operated at 2083mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2084mALED operated at 2084mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2085mALED operated at 2085mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2086mALED operated at 2086mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2087mALED operated at 2087mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2088mALED operated at 2088mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2089mALED operated at 2089mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 208mALED operated at 208mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2090mALED operated at 2090mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2091mALED operated at 2091mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2092mALED operated at 2092mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2093mALED operated at 2093mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2094mALED operated at 2094mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2095mALED operated at 2095mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2096mALED operated at 2096mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2097mALED operated at 2097mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2098mALED operated at 2098mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2099mALED operated at 2099mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 209mALED operated at 209mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 20mALED operated at 20mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2100mALED operated at 2100mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2101mALED operated at 2101mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2102mALED operated at 2102mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2103mALED operated at 2103mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2104mALED operated at 2104mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2105mALED operated at 2105mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2106mALED operated at 2106mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2107mALED operated at 2107mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2108mALED operated at 2108mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2109mALED operated at 2109mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 210mALED operated at 210mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2110mALED operated at 2110mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2111mALED operated at 2111mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2112mALED operated at 2112mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2113mALED operated at 2113mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2114mALED operated at 2114mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2115mALED operated at 2115mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2116mALED operated at 2116mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2117mALED operated at 2117mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2118mALED operated at 2118mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2119mALED operated at 2119mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 211mALED operated at 211mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2120mALED operated at 2120mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2121mALED operated at 2121mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2122mALED operated at 2122mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2123mALED operated at 2123mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2124mALED operated at 2124mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2125mALED operated at 2125mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2126mALED operated at 2126mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2127mALED operated at 2127mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2128mALED operated at 2128mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2129mALED operated at 2129mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 212mALED operated at 212mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2130mALED operated at 2130mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2131mALED operated at 2131mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2132mALED operated at 2132mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2133mALED operated at 2133mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2134mALED operated at 2134mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2135mALED operated at 2135mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2136mALED operated at 2136mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2137mALED operated at 2137mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2138mALED operated at 2138mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2139mALED operated at 2139mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 213mALED operated at 213mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2140mALED operated at 2140mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2141mALED operated at 2141mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2142mALED operated at 2142mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2143mALED operated at 2143mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2144mALED operated at 2144mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2145mALED operated at 2145mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2146mALED operated at 2146mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2147mALED operated at 2147mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2148mALED operated at 2148mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2149mALED operated at 2149mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 214mALED operated at 214mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2150mALED operated at 2150mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2151mALED operated at 2151mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2152mALED operated at 2152mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2153mALED operated at 2153mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2154mALED operated at 2154mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2155mALED operated at 2155mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2156mALED operated at 2156mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2157mALED operated at 2157mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2158mALED operated at 2158mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2159mALED operated at 2159mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 215mALED operated at 215mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2160mALED operated at 2160mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2161mALED operated at 2161mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2162mALED operated at 2162mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2163mALED operated at 2163mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2164mALED operated at 2164mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2165mALED operated at 2165mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2166mALED operated at 2166mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2167mALED operated at 2167mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2168mALED operated at 2168mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2169mALED operated at 2169mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 216mALED operated at 216mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2170mALED operated at 2170mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2171mALED operated at 2171mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2172mALED operated at 2172mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2173mALED operated at 2173mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2174mALED operated at 2174mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2175mALED operated at 2175mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2176mALED operated at 2176mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2177mALED operated at 2177mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2178mALED operated at 2178mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2179mALED operated at 2179mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 217mALED operated at 217mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2180mALED operated at 2180mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2181mALED operated at 2181mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2182mALED operated at 2182mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2183mALED operated at 2183mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2184mALED operated at 2184mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2185mALED operated at 2185mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2186mALED operated at 2186mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2187mALED operated at 2187mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2188mALED operated at 2188mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2189mALED operated at 2189mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 218mALED operated at 218mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2190mALED operated at 2190mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2191mALED operated at 2191mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2192mALED operated at 2192mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2193mALED operated at 2193mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2194mALED operated at 2194mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2195mALED operated at 2195mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2196mALED operated at 2196mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2197mALED operated at 2197mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2198mALED operated at 2198mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2199mALED operated at 2199mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 219mALED operated at 219mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 21mALED operated at 21mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2200mALED operated at 2200mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2201mALED operated at 2201mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2202mALED operated at 2202mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2203mALED operated at 2203mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2204mALED operated at 2204mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2205mALED operated at 2205mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2206mALED operated at 2206mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2207mALED operated at 2207mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2208mALED operated at 2208mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2209mALED operated at 2209mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 220mALED operated at 220mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2210mALED operated at 2210mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2211mALED operated at 2211mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2212mALED operated at 2212mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2213mALED operated at 2213mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2214mALED operated at 2214mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2215mALED operated at 2215mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2216mALED operated at 2216mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2217mALED operated at 2217mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2218mALED operated at 2218mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2219mALED operated at 2219mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 221mALED operated at 221mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2220mALED operated at 2220mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2221mALED operated at 2221mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2222mALED operated at 2222mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2223mALED operated at 2223mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2224mALED operated at 2224mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2225mALED operated at 2225mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2226mALED operated at 2226mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2227mALED operated at 2227mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2228mALED operated at 2228mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2229mALED operated at 2229mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 222mALED operated at 222mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2230mALED operated at 2230mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2231mALED operated at 2231mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2232mALED operated at 2232mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2233mALED operated at 2233mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2234mALED operated at 2234mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2235mALED operated at 2235mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2236mALED operated at 2236mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2237mALED operated at 2237mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2238mALED operated at 2238mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2239mALED operated at 2239mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 223mALED operated at 223mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2240mALED operated at 2240mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2241mALED operated at 2241mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2242mALED operated at 2242mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2243mALED operated at 2243mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2244mALED operated at 2244mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2245mALED operated at 2245mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2246mALED operated at 2246mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2247mALED operated at 2247mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2248mALED operated at 2248mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2249mALED operated at 2249mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 224mALED operated at 224mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2250mALED operated at 2250mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2251mALED operated at 2251mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2252mALED operated at 2252mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2253mALED operated at 2253mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2254mALED operated at 2254mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2255mALED operated at 2255mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2256mALED operated at 2256mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2257mALED operated at 2257mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2258mALED operated at 2258mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2259mALED operated at 2259mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 225mALED operated at 225mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2260mALED operated at 2260mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2261mALED operated at 2261mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2262mALED operated at 2262mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2263mALED operated at 2263mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2264mALED operated at 2264mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2265mALED operated at 2265mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2266mALED operated at 2266mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2267mALED operated at 2267mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2268mALED operated at 2268mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2269mALED operated at 2269mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 226mALED operated at 226mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2270mALED operated at 2270mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2271mALED operated at 2271mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2272mALED operated at 2272mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2273mALED operated at 2273mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2274mALED operated at 2274mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2275mALED operated at 2275mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2276mALED operated at 2276mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2277mALED operated at 2277mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2278mALED operated at 2278mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2279mALED operated at 2279mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 227mALED operated at 227mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2280mALED operated at 2280mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2281mALED operated at 2281mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2282mALED operated at 2282mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2283mALED operated at 2283mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2284mALED operated at 2284mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2285mALED operated at 2285mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2286mALED operated at 2286mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2287mALED operated at 2287mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2288mALED operated at 2288mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2289mALED operated at 2289mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 228mALED operated at 228mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2290mALED operated at 2290mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2291mALED operated at 2291mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2292mALED operated at 2292mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2293mALED operated at 2293mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2294mALED operated at 2294mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2295mALED operated at 2295mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2296mALED operated at 2296mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2297mALED operated at 2297mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2298mALED operated at 2298mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2299mALED operated at 2299mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 229mALED operated at 229mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 22mALED operated at 22mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2300mALED operated at 2300mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2301mALED operated at 2301mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2302mALED operated at 2302mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2303mALED operated at 2303mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2304mALED operated at 2304mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2305mALED operated at 2305mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2306mALED operated at 2306mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2307mALED operated at 2307mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2308mALED operated at 2308mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2309mALED operated at 2309mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 230mALED operated at 230mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2310mALED operated at 2310mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2311mALED operated at 2311mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2312mALED operated at 2312mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2313mALED operated at 2313mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2314mALED operated at 2314mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2315mALED operated at 2315mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2316mALED operated at 2316mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2317mALED operated at 2317mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2318mALED operated at 2318mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2319mALED operated at 2319mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 231mALED operated at 231mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2320mALED operated at 2320mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2321mALED operated at 2321mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2322mALED operated at 2322mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2323mALED operated at 2323mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2324mALED operated at 2324mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2325mALED operated at 2325mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2326mALED operated at 2326mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2327mALED operated at 2327mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2328mALED operated at 2328mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2329mALED operated at 2329mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 232mALED operated at 232mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2330mALED operated at 2330mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2331mALED operated at 2331mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2332mALED operated at 2332mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2333mALED operated at 2333mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2334mALED operated at 2334mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2335mALED operated at 2335mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2336mALED operated at 2336mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2337mALED operated at 2337mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2338mALED operated at 2338mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2339mALED operated at 2339mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 233mALED operated at 233mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2340mALED operated at 2340mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2341mALED operated at 2341mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2342mALED operated at 2342mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2343mALED operated at 2343mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2344mALED operated at 2344mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2345mALED operated at 2345mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2346mALED operated at 2346mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2347mALED operated at 2347mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2348mALED operated at 2348mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2349mALED operated at 2349mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 234mALED operated at 234mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2350mALED operated at 2350mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2351mALED operated at 2351mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2352mALED operated at 2352mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2353mALED operated at 2353mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2354mALED operated at 2354mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2355mALED operated at 2355mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2356mALED operated at 2356mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2357mALED operated at 2357mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2358mALED operated at 2358mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2359mALED operated at 2359mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 235mALED operated at 235mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2360mALED operated at 2360mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2361mALED operated at 2361mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2362mALED operated at 2362mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2363mALED operated at 2363mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2364mALED operated at 2364mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2365mALED operated at 2365mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2366mALED operated at 2366mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2367mALED operated at 2367mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2368mALED operated at 2368mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2369mALED operated at 2369mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 236mALED operated at 236mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2370mALED operated at 2370mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2371mALED operated at 2371mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2372mALED operated at 2372mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2373mALED operated at 2373mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2374mALED operated at 2374mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2375mALED operated at 2375mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2376mALED operated at 2376mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2377mALED operated at 2377mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2378mALED operated at 2378mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2379mALED operated at 2379mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 237mALED operated at 237mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2380mALED operated at 2380mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2381mALED operated at 2381mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2382mALED operated at 2382mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2383mALED operated at 2383mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2384mALED operated at 2384mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2385mALED operated at 2385mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2386mALED operated at 2386mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2387mALED operated at 2387mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2388mALED operated at 2388mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2389mALED operated at 2389mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 238mALED operated at 238mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2390mALED operated at 2390mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2391mALED operated at 2391mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2392mALED operated at 2392mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2393mALED operated at 2393mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2394mALED operated at 2394mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2395mALED operated at 2395mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2396mALED operated at 2396mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2397mALED operated at 2397mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2398mALED operated at 2398mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2399mALED operated at 2399mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 239mALED operated at 239mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 23mALED operated at 23mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2400mALED operated at 2400mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2401mALED operated at 2401mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2402mALED operated at 2402mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2403mALED operated at 2403mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2404mALED operated at 2404mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2405mALED operated at 2405mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2406mALED operated at 2406mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2407mALED operated at 2407mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2408mALED operated at 2408mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2409mALED operated at 2409mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 240mALED operated at 240mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2410mALED operated at 2410mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2411mALED operated at 2411mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2412mALED operated at 2412mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2413mALED operated at 2413mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2414mALED operated at 2414mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2415mALED operated at 2415mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2416mALED operated at 2416mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2417mALED operated at 2417mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2418mALED operated at 2418mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2419mALED operated at 2419mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 241mALED operated at 241mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2420mALED operated at 2420mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2421mALED operated at 2421mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2422mALED operated at 2422mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2423mALED operated at 2423mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2424mALED operated at 2424mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2425mALED operated at 2425mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2426mALED operated at 2426mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2427mALED operated at 2427mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2428mALED operated at 2428mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2429mALED operated at 2429mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 242mALED operated at 242mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2430mALED operated at 2430mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2431mALED operated at 2431mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2432mALED operated at 2432mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2433mALED operated at 2433mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2434mALED operated at 2434mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2435mALED operated at 2435mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2436mALED operated at 2436mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2437mALED operated at 2437mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2438mALED operated at 2438mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2439mALED operated at 2439mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 243mALED operated at 243mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2440mALED operated at 2440mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2441mALED operated at 2441mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2442mALED operated at 2442mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2443mALED operated at 2443mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2444mALED operated at 2444mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2445mALED operated at 2445mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2446mALED operated at 2446mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2447mALED operated at 2447mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2448mALED operated at 2448mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2449mALED operated at 2449mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 244mALED operated at 244mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2450mALED operated at 2450mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2451mALED operated at 2451mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2452mALED operated at 2452mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2453mALED operated at 2453mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2454mALED operated at 2454mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2455mALED operated at 2455mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2456mALED operated at 2456mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2457mALED operated at 2457mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2458mALED operated at 2458mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2459mALED operated at 2459mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 245mALED operated at 245mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2460mALED operated at 2460mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2461mALED operated at 2461mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2462mALED operated at 2462mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2463mALED operated at 2463mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2464mALED operated at 2464mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2465mALED operated at 2465mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2466mALED operated at 2466mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2467mALED operated at 2467mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2468mALED operated at 2468mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2469mALED operated at 2469mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 246mALED operated at 246mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2470mALED operated at 2470mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2471mALED operated at 2471mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2472mALED operated at 2472mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2473mALED operated at 2473mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2474mALED operated at 2474mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2475mALED operated at 2475mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2476mALED operated at 2476mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2477mALED operated at 2477mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2478mALED operated at 2478mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2479mALED operated at 2479mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 247mALED operated at 247mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2480mALED operated at 2480mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2481mALED operated at 2481mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2482mALED operated at 2482mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2483mALED operated at 2483mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2484mALED operated at 2484mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2485mALED operated at 2485mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2486mALED operated at 2486mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2487mALED operated at 2487mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2488mALED operated at 2488mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2489mALED operated at 2489mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 248mALED operated at 248mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2490mALED operated at 2490mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2491mALED operated at 2491mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2492mALED operated at 2492mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2493mALED operated at 2493mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2494mALED operated at 2494mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2495mALED operated at 2495mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2496mALED operated at 2496mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2497mALED operated at 2497mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2498mALED operated at 2498mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2499mALED operated at 2499mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 249mALED operated at 249mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 24mALED operated at 24mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2500mALED operated at 2500mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2501mALED operated at 2501mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2502mALED operated at 2502mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2503mALED operated at 2503mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2504mALED operated at 2504mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2505mALED operated at 2505mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2506mALED operated at 2506mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2507mALED operated at 2507mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2508mALED operated at 2508mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2509mALED operated at 2509mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 250mALED operated at 250mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2510mALED operated at 2510mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2511mALED operated at 2511mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2512mALED operated at 2512mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2513mALED operated at 2513mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2514mALED operated at 2514mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2515mALED operated at 2515mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2516mALED operated at 2516mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2517mALED operated at 2517mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2518mALED operated at 2518mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2519mALED operated at 2519mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 251mALED operated at 251mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2520mALED operated at 2520mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2521mALED operated at 2521mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2522mALED operated at 2522mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2523mALED operated at 2523mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2524mALED operated at 2524mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2525mALED operated at 2525mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2526mALED operated at 2526mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2527mALED operated at 2527mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2528mALED operated at 2528mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2529mALED operated at 2529mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 252mALED operated at 252mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2530mALED operated at 2530mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2531mALED operated at 2531mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2532mALED operated at 2532mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2533mALED operated at 2533mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2534mALED operated at 2534mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2535mALED operated at 2535mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2536mALED operated at 2536mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2537mALED operated at 2537mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2538mALED operated at 2538mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2539mALED operated at 2539mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 253mALED operated at 253mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2540mALED operated at 2540mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2541mALED operated at 2541mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2542mALED operated at 2542mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2543mALED operated at 2543mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2544mALED operated at 2544mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2545mALED operated at 2545mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2546mALED operated at 2546mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2547mALED operated at 2547mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2548mALED operated at 2548mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2549mALED operated at 2549mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 254mALED operated at 254mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2550mALED operated at 2550mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2551mALED operated at 2551mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2552mALED operated at 2552mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2553mALED operated at 2553mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2554mALED operated at 2554mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2555mALED operated at 2555mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2556mALED operated at 2556mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2557mALED operated at 2557mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2558mALED operated at 2558mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2559mALED operated at 2559mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 255mALED operated at 255mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2560mALED operated at 2560mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2561mALED operated at 2561mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2562mALED operated at 2562mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2563mALED operated at 2563mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2564mALED operated at 2564mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2565mALED operated at 2565mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2566mALED operated at 2566mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2567mALED operated at 2567mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2568mALED operated at 2568mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2569mALED operated at 2569mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 256mALED operated at 256mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2570mALED operated at 2570mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2571mALED operated at 2571mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2572mALED operated at 2572mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2573mALED operated at 2573mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2574mALED operated at 2574mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2575mALED operated at 2575mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2576mALED operated at 2576mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2577mALED operated at 2577mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2578mALED operated at 2578mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2579mALED operated at 2579mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 257mALED operated at 257mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2580mALED operated at 2580mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2581mALED operated at 2581mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2582mALED operated at 2582mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2583mALED operated at 2583mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2584mALED operated at 2584mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2585mALED operated at 2585mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2586mALED operated at 2586mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2587mALED operated at 2587mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2588mALED operated at 2588mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2589mALED operated at 2589mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 258mALED operated at 258mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2590mALED operated at 2590mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2591mALED operated at 2591mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2592mALED operated at 2592mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2593mALED operated at 2593mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2594mALED operated at 2594mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2595mALED operated at 2595mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2596mALED operated at 2596mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2597mALED operated at 2597mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2598mALED operated at 2598mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2599mALED operated at 2599mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 259mALED operated at 259mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 25mALED operated at 25mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2600mALED operated at 2600mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2601mALED operated at 2601mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2602mALED operated at 2602mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2603mALED operated at 2603mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2604mALED operated at 2604mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2605mALED operated at 2605mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2606mALED operated at 2606mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2607mALED operated at 2607mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2608mALED operated at 2608mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2609mALED operated at 2609mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 260mALED operated at 260mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2610mALED operated at 2610mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2611mALED operated at 2611mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2612mALED operated at 2612mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2613mALED operated at 2613mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2614mALED operated at 2614mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2615mALED operated at 2615mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2616mALED operated at 2616mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2617mALED operated at 2617mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2618mALED operated at 2618mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2619mALED operated at 2619mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 261mALED operated at 261mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2620mALED operated at 2620mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2621mALED operated at 2621mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2622mALED operated at 2622mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2623mALED operated at 2623mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2624mALED operated at 2624mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2625mALED operated at 2625mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2626mALED operated at 2626mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2627mALED operated at 2627mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2628mALED operated at 2628mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2629mALED operated at 2629mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 262mALED operated at 262mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2630mALED operated at 2630mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2631mALED operated at 2631mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2632mALED operated at 2632mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2633mALED operated at 2633mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2634mALED operated at 2634mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2635mALED operated at 2635mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2636mALED operated at 2636mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2637mALED operated at 2637mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2638mALED operated at 2638mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2639mALED operated at 2639mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 263mALED operated at 263mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2640mALED operated at 2640mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2641mALED operated at 2641mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2642mALED operated at 2642mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2643mALED operated at 2643mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2644mALED operated at 2644mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2645mALED operated at 2645mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2646mALED operated at 2646mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2647mALED operated at 2647mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2648mALED operated at 2648mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2649mALED operated at 2649mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 264mALED operated at 264mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2650mALED operated at 2650mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2651mALED operated at 2651mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2652mALED operated at 2652mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2653mALED operated at 2653mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2654mALED operated at 2654mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2655mALED operated at 2655mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2656mALED operated at 2656mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2657mALED operated at 2657mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2658mALED operated at 2658mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2659mALED operated at 2659mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 265mALED operated at 265mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2660mALED operated at 2660mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2661mALED operated at 2661mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2662mALED operated at 2662mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2663mALED operated at 2663mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2664mALED operated at 2664mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2665mALED operated at 2665mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2666mALED operated at 2666mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2667mALED operated at 2667mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2668mALED operated at 2668mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2669mALED operated at 2669mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 266mALED operated at 266mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2670mALED operated at 2670mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2671mALED operated at 2671mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2672mALED operated at 2672mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2673mALED operated at 2673mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2674mALED operated at 2674mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2675mALED operated at 2675mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2676mALED operated at 2676mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2677mALED operated at 2677mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2678mALED operated at 2678mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2679mALED operated at 2679mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 267mALED operated at 267mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2680mALED operated at 2680mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2681mALED operated at 2681mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2682mALED operated at 2682mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2683mALED operated at 2683mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2684mALED operated at 2684mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2685mALED operated at 2685mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2686mALED operated at 2686mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2687mALED operated at 2687mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2688mALED operated at 2688mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2689mALED operated at 2689mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 268mALED operated at 268mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2690mALED operated at 2690mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2691mALED operated at 2691mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2692mALED operated at 2692mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2693mALED operated at 2693mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2694mALED operated at 2694mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2695mALED operated at 2695mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2696mALED operated at 2696mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2697mALED operated at 2697mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2698mALED operated at 2698mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2699mALED operated at 2699mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 269mALED operated at 269mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 26mALED operated at 26mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2700mALED operated at 2700mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2701mALED operated at 2701mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2702mALED operated at 2702mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2703mALED operated at 2703mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2704mALED operated at 2704mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2705mALED operated at 2705mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2706mALED operated at 2706mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2707mALED operated at 2707mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2708mALED operated at 2708mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2709mALED operated at 2709mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 270mALED operated at 270mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2710mALED operated at 2710mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2711mALED operated at 2711mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2712mALED operated at 2712mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2713mALED operated at 2713mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2714mALED operated at 2714mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2715mALED operated at 2715mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2716mALED operated at 2716mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2717mALED operated at 2717mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2718mALED operated at 2718mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2719mALED operated at 2719mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 271mALED operated at 271mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2720mALED operated at 2720mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2721mALED operated at 2721mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2722mALED operated at 2722mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2723mALED operated at 2723mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2724mALED operated at 2724mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2725mALED operated at 2725mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2726mALED operated at 2726mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2727mALED operated at 2727mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2728mALED operated at 2728mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2729mALED operated at 2729mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 272mALED operated at 272mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2730mALED operated at 2730mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2731mALED operated at 2731mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2732mALED operated at 2732mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2733mALED operated at 2733mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2734mALED operated at 2734mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2735mALED operated at 2735mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2736mALED operated at 2736mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2737mALED operated at 2737mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2738mALED operated at 2738mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2739mALED operated at 2739mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 273mALED operated at 273mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2740mALED operated at 2740mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2741mALED operated at 2741mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2742mALED operated at 2742mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2743mALED operated at 2743mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2744mALED operated at 2744mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2745mALED operated at 2745mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2746mALED operated at 2746mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2747mALED operated at 2747mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2748mALED operated at 2748mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2749mALED operated at 2749mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 274mALED operated at 274mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2750mALED operated at 2750mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2751mALED operated at 2751mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2752mALED operated at 2752mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2753mALED operated at 2753mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2754mALED operated at 2754mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2755mALED operated at 2755mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2756mALED operated at 2756mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2757mALED operated at 2757mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2758mALED operated at 2758mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2759mALED operated at 2759mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 275mALED operated at 275mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2760mALED operated at 2760mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2761mALED operated at 2761mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2762mALED operated at 2762mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2763mALED operated at 2763mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2764mALED operated at 2764mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2765mALED operated at 2765mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2766mALED operated at 2766mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2767mALED operated at 2767mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2768mALED operated at 2768mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2769mALED operated at 2769mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 276mALED operated at 276mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2770mALED operated at 2770mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2771mALED operated at 2771mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2772mALED operated at 2772mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2773mALED operated at 2773mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2774mALED operated at 2774mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2775mALED operated at 2775mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2776mALED operated at 2776mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2777mALED operated at 2777mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2778mALED operated at 2778mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2779mALED operated at 2779mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 277mALED operated at 277mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2780mALED operated at 2780mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2781mALED operated at 2781mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2782mALED operated at 2782mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2783mALED operated at 2783mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2784mALED operated at 2784mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2785mALED operated at 2785mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2786mALED operated at 2786mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2787mALED operated at 2787mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2788mALED operated at 2788mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2789mALED operated at 2789mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 278mALED operated at 278mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2790mALED operated at 2790mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2791mALED operated at 2791mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2792mALED operated at 2792mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2793mALED operated at 2793mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2794mALED operated at 2794mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2795mALED operated at 2795mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2796mALED operated at 2796mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2797mALED operated at 2797mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2798mALED operated at 2798mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2799mALED operated at 2799mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 279mALED operated at 279mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 27mALED operated at 27mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2800mALED operated at 2800mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2801mALED operated at 2801mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2802mALED operated at 2802mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2803mALED operated at 2803mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2804mALED operated at 2804mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2805mALED operated at 2805mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2806mALED operated at 2806mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2807mALED operated at 2807mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2808mALED operated at 2808mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2809mALED operated at 2809mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 280mALED operated at 280mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2810mALED operated at 2810mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2811mALED operated at 2811mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2812mALED operated at 2812mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2813mALED operated at 2813mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2814mALED operated at 2814mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2815mALED operated at 2815mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2816mALED operated at 2816mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2817mALED operated at 2817mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2818mALED operated at 2818mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2819mALED operated at 2819mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 281mALED operated at 281mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2820mALED operated at 2820mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2821mALED operated at 2821mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2822mALED operated at 2822mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2823mALED operated at 2823mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2824mALED operated at 2824mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2825mALED operated at 2825mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2826mALED operated at 2826mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2827mALED operated at 2827mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2828mALED operated at 2828mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2829mALED operated at 2829mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 282mALED operated at 282mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2830mALED operated at 2830mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2831mALED operated at 2831mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2832mALED operated at 2832mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2833mALED operated at 2833mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2834mALED operated at 2834mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2835mALED operated at 2835mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2836mALED operated at 2836mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2837mALED operated at 2837mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2838mALED operated at 2838mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2839mALED operated at 2839mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 283mALED operated at 283mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2840mALED operated at 2840mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2841mALED operated at 2841mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2842mALED operated at 2842mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2843mALED operated at 2843mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2844mALED operated at 2844mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2845mALED operated at 2845mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2846mALED operated at 2846mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2847mALED operated at 2847mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2848mALED operated at 2848mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2849mALED operated at 2849mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 284mALED operated at 284mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2850mALED operated at 2850mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2851mALED operated at 2851mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2852mALED operated at 2852mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2853mALED operated at 2853mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2854mALED operated at 2854mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2855mALED operated at 2855mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2856mALED operated at 2856mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2857mALED operated at 2857mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2858mALED operated at 2858mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2859mALED operated at 2859mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 285mALED operated at 285mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2860mALED operated at 2860mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2861mALED operated at 2861mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2862mALED operated at 2862mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2863mALED operated at 2863mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2864mALED operated at 2864mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2865mALED operated at 2865mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2866mALED operated at 2866mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2867mALED operated at 2867mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2868mALED operated at 2868mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2869mALED operated at 2869mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 286mALED operated at 286mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2870mALED operated at 2870mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2871mALED operated at 2871mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2872mALED operated at 2872mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2873mALED operated at 2873mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2874mALED operated at 2874mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2875mALED operated at 2875mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2876mALED operated at 2876mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2877mALED operated at 2877mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2878mALED operated at 2878mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2879mALED operated at 2879mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 287mALED operated at 287mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2880mALED operated at 2880mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2881mALED operated at 2881mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2882mALED operated at 2882mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2883mALED operated at 2883mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2884mALED operated at 2884mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2885mALED operated at 2885mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2886mALED operated at 2886mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2887mALED operated at 2887mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2888mALED operated at 2888mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2889mALED operated at 2889mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 288mALED operated at 288mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2890mALED operated at 2890mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2891mALED operated at 2891mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2892mALED operated at 2892mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2893mALED operated at 2893mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2894mALED operated at 2894mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2895mALED operated at 2895mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2896mALED operated at 2896mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2897mALED operated at 2897mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2898mALED operated at 2898mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2899mALED operated at 2899mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 289mALED operated at 289mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 28mALED operated at 28mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2900mALED operated at 2900mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2901mALED operated at 2901mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2902mALED operated at 2902mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2903mALED operated at 2903mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2904mALED operated at 2904mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2905mALED operated at 2905mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2906mALED operated at 2906mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2907mALED operated at 2907mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2908mALED operated at 2908mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2909mALED operated at 2909mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 290mALED operated at 290mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2910mALED operated at 2910mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2911mALED operated at 2911mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2912mALED operated at 2912mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2913mALED operated at 2913mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2914mALED operated at 2914mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2915mALED operated at 2915mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2916mALED operated at 2916mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2917mALED operated at 2917mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2918mALED operated at 2918mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2919mALED operated at 2919mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 291mALED operated at 291mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2920mALED operated at 2920mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2921mALED operated at 2921mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2922mALED operated at 2922mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2923mALED operated at 2923mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2924mALED operated at 2924mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2925mALED operated at 2925mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2926mALED operated at 2926mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2927mALED operated at 2927mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2928mALED operated at 2928mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2929mALED operated at 2929mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 292mALED operated at 292mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2930mALED operated at 2930mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2931mALED operated at 2931mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2932mALED operated at 2932mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2933mALED operated at 2933mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2934mALED operated at 2934mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2935mALED operated at 2935mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2936mALED operated at 2936mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2937mALED operated at 2937mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2938mALED operated at 2938mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2939mALED operated at 2939mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 293mALED operated at 293mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2940mALED operated at 2940mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2941mALED operated at 2941mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2942mALED operated at 2942mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2943mALED operated at 2943mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2944mALED operated at 2944mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2945mALED operated at 2945mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2946mALED operated at 2946mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2947mALED operated at 2947mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2948mALED operated at 2948mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2949mALED operated at 2949mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 294mALED operated at 294mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2950mALED operated at 2950mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2951mALED operated at 2951mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2952mALED operated at 2952mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2953mALED operated at 2953mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2954mALED operated at 2954mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2955mALED operated at 2955mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2956mALED operated at 2956mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2957mALED operated at 2957mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2958mALED operated at 2958mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2959mALED operated at 2959mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 295mALED operated at 295mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2960mALED operated at 2960mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2961mALED operated at 2961mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2962mALED operated at 2962mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2963mALED operated at 2963mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2964mALED operated at 2964mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2965mALED operated at 2965mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2966mALED operated at 2966mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2967mALED operated at 2967mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2968mALED operated at 2968mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2969mALED operated at 2969mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 296mALED operated at 296mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2970mALED operated at 2970mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2971mALED operated at 2971mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2972mALED operated at 2972mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2973mALED operated at 2973mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2974mALED operated at 2974mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2975mALED operated at 2975mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2976mALED operated at 2976mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2977mALED operated at 2977mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2978mALED operated at 2978mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2979mALED operated at 2979mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 297mALED operated at 297mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2980mALED operated at 2980mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2981mALED operated at 2981mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2982mALED operated at 2982mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2983mALED operated at 2983mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2984mALED operated at 2984mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2985mALED operated at 2985mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2986mALED operated at 2986mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2987mALED operated at 2987mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2988mALED operated at 2988mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2989mALED operated at 2989mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 298mALED operated at 298mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2990mALED operated at 2990mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2991mALED operated at 2991mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2992mALED operated at 2992mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2993mALED operated at 2993mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2994mALED operated at 2994mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2995mALED operated at 2995mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2996mALED operated at 2996mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2997mALED operated at 2997mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2998mALED operated at 2998mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2999mALED operated at 2999mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 299mALED operated at 299mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 29mALED operated at 29mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 2mALED operated at 2mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3000mALED operated at 3000mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3001mALED operated at 3001mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3002mALED operated at 3002mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3003mALED operated at 3003mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3004mALED operated at 3004mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3005mALED operated at 3005mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3006mALED operated at 3006mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3007mALED operated at 3007mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3008mALED operated at 3008mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3009mALED operated at 3009mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 300mALED operated at 300mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3010mALED operated at 3010mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3011mALED operated at 3011mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3012mALED operated at 3012mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3013mALED operated at 3013mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3014mALED operated at 3014mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3015mALED operated at 3015mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3016mALED operated at 3016mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3017mALED operated at 3017mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3018mALED operated at 3018mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3019mALED operated at 3019mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 301mALED operated at 301mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3020mALED operated at 3020mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3021mALED operated at 3021mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3022mALED operated at 3022mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3023mALED operated at 3023mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3024mALED operated at 3024mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3025mALED operated at 3025mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3026mALED operated at 3026mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3027mALED operated at 3027mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3028mALED operated at 3028mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3029mALED operated at 3029mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 302mALED operated at 302mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3030mALED operated at 3030mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3031mALED operated at 3031mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3032mALED operated at 3032mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3033mALED operated at 3033mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3034mALED operated at 3034mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3035mALED operated at 3035mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3036mALED operated at 3036mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3037mALED operated at 3037mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3038mALED operated at 3038mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3039mALED operated at 3039mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 303mALED operated at 303mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3040mALED operated at 3040mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3041mALED operated at 3041mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3042mALED operated at 3042mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3043mALED operated at 3043mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3044mALED operated at 3044mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3045mALED operated at 3045mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3046mALED operated at 3046mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3047mALED operated at 3047mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3048mALED operated at 3048mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3049mALED operated at 3049mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 304mALED operated at 304mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3050mALED operated at 3050mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3051mALED operated at 3051mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3052mALED operated at 3052mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3053mALED operated at 3053mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3054mALED operated at 3054mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3055mALED operated at 3055mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3056mALED operated at 3056mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3057mALED operated at 3057mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3058mALED operated at 3058mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3059mALED operated at 3059mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 305mALED operated at 305mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3060mALED operated at 3060mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3061mALED operated at 3061mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3062mALED operated at 3062mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3063mALED operated at 3063mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3064mALED operated at 3064mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3065mALED operated at 3065mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3066mALED operated at 3066mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3067mALED operated at 3067mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3068mALED operated at 3068mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3069mALED operated at 3069mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 306mALED operated at 306mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3070mALED operated at 3070mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3071mALED operated at 3071mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3072mALED operated at 3072mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3073mALED operated at 3073mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3074mALED operated at 3074mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3075mALED operated at 3075mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3076mALED operated at 3076mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3077mALED operated at 3077mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3078mALED operated at 3078mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3079mALED operated at 3079mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 307mALED operated at 307mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3080mALED operated at 3080mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3081mALED operated at 3081mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3082mALED operated at 3082mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3083mALED operated at 3083mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3084mALED operated at 3084mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3085mALED operated at 3085mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3086mALED operated at 3086mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3087mALED operated at 3087mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3088mALED operated at 3088mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3089mALED operated at 3089mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 308mALED operated at 308mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3090mALED operated at 3090mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3091mALED operated at 3091mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3092mALED operated at 3092mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3093mALED operated at 3093mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3094mALED operated at 3094mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3095mALED operated at 3095mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3096mALED operated at 3096mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3097mALED operated at 3097mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3098mALED operated at 3098mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3099mALED operated at 3099mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 309mALED operated at 309mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 30mALED operated at 30mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3100mALED operated at 3100mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3101mALED operated at 3101mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3102mALED operated at 3102mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3103mALED operated at 3103mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3104mALED operated at 3104mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3105mALED operated at 3105mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3106mALED operated at 3106mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3107mALED operated at 3107mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3108mALED operated at 3108mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3109mALED operated at 3109mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 310mALED operated at 310mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3110mALED operated at 3110mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3111mALED operated at 3111mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3112mALED operated at 3112mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3113mALED operated at 3113mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3114mALED operated at 3114mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3115mALED operated at 3115mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3116mALED operated at 3116mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3117mALED operated at 3117mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3118mALED operated at 3118mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3119mALED operated at 3119mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 311mALED operated at 311mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3120mALED operated at 3120mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3121mALED operated at 3121mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3122mALED operated at 3122mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3123mALED operated at 3123mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3124mALED operated at 3124mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3125mALED operated at 3125mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3126mALED operated at 3126mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3127mALED operated at 3127mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3128mALED operated at 3128mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3129mALED operated at 3129mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 312mALED operated at 312mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3130mALED operated at 3130mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3131mALED operated at 3131mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3132mALED operated at 3132mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3133mALED operated at 3133mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3134mALED operated at 3134mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3135mALED operated at 3135mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3136mALED operated at 3136mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3137mALED operated at 3137mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3138mALED operated at 3138mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3139mALED operated at 3139mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 313mALED operated at 313mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3140mALED operated at 3140mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3141mALED operated at 3141mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3142mALED operated at 3142mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3143mALED operated at 3143mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3144mALED operated at 3144mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3145mALED operated at 3145mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3146mALED operated at 3146mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3147mALED operated at 3147mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3148mALED operated at 3148mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3149mALED operated at 3149mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 314mALED operated at 314mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3150mALED operated at 3150mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3151mALED operated at 3151mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3152mALED operated at 3152mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3153mALED operated at 3153mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3154mALED operated at 3154mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3155mALED operated at 3155mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3156mALED operated at 3156mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3157mALED operated at 3157mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3158mALED operated at 3158mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3159mALED operated at 3159mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 315mALED operated at 315mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3160mALED operated at 3160mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3161mALED operated at 3161mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3162mALED operated at 3162mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3163mALED operated at 3163mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3164mALED operated at 3164mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3165mALED operated at 3165mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3166mALED operated at 3166mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3167mALED operated at 3167mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3168mALED operated at 3168mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3169mALED operated at 3169mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 316mALED operated at 316mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3170mALED operated at 3170mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3171mALED operated at 3171mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3172mALED operated at 3172mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3173mALED operated at 3173mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3174mALED operated at 3174mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3175mALED operated at 3175mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3176mALED operated at 3176mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3177mALED operated at 3177mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3178mALED operated at 3178mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3179mALED operated at 3179mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 317mALED operated at 317mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3180mALED operated at 3180mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3181mALED operated at 3181mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3182mALED operated at 3182mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3183mALED operated at 3183mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3184mALED operated at 3184mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3185mALED operated at 3185mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3186mALED operated at 3186mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3187mALED operated at 3187mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3188mALED operated at 3188mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3189mALED operated at 3189mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 318mALED operated at 318mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3190mALED operated at 3190mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3191mALED operated at 3191mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3192mALED operated at 3192mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3193mALED operated at 3193mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3194mALED operated at 3194mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3195mALED operated at 3195mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3196mALED operated at 3196mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3197mALED operated at 3197mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3198mALED operated at 3198mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3199mALED operated at 3199mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 319mALED operated at 319mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 31mALED operated at 31mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3200mALED operated at 3200mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3201mALED operated at 3201mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3202mALED operated at 3202mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3203mALED operated at 3203mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3204mALED operated at 3204mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3205mALED operated at 3205mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3206mALED operated at 3206mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3207mALED operated at 3207mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3208mALED operated at 3208mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3209mALED operated at 3209mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 320mALED operated at 320mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3210mALED operated at 3210mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3211mALED operated at 3211mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3212mALED operated at 3212mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3213mALED operated at 3213mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3214mALED operated at 3214mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3215mALED operated at 3215mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3216mALED operated at 3216mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3217mALED operated at 3217mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3218mALED operated at 3218mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3219mALED operated at 3219mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 321mALED operated at 321mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3220mALED operated at 3220mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3221mALED operated at 3221mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3222mALED operated at 3222mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3223mALED operated at 3223mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3224mALED operated at 3224mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3225mALED operated at 3225mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3226mALED operated at 3226mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3227mALED operated at 3227mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3228mALED operated at 3228mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3229mALED operated at 3229mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 322mALED operated at 322mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3230mALED operated at 3230mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3231mALED operated at 3231mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3232mALED operated at 3232mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3233mALED operated at 3233mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3234mALED operated at 3234mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3235mALED operated at 3235mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3236mALED operated at 3236mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3237mALED operated at 3237mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3238mALED operated at 3238mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3239mALED operated at 3239mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 323mALED operated at 323mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3240mALED operated at 3240mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3241mALED operated at 3241mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3242mALED operated at 3242mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3243mALED operated at 3243mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3244mALED operated at 3244mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3245mALED operated at 3245mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3246mALED operated at 3246mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3247mALED operated at 3247mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3248mALED operated at 3248mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3249mALED operated at 3249mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 324mALED operated at 324mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3250mALED operated at 3250mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3251mALED operated at 3251mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3252mALED operated at 3252mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3253mALED operated at 3253mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3254mALED operated at 3254mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3255mALED operated at 3255mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3256mALED operated at 3256mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3257mALED operated at 3257mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3258mALED operated at 3258mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3259mALED operated at 3259mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 325mALED operated at 325mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3260mALED operated at 3260mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3261mALED operated at 3261mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3262mALED operated at 3262mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3263mALED operated at 3263mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3264mALED operated at 3264mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3265mALED operated at 3265mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3266mALED operated at 3266mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3267mALED operated at 3267mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3268mALED operated at 3268mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3269mALED operated at 3269mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 326mALED operated at 326mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3270mALED operated at 3270mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3271mALED operated at 3271mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3272mALED operated at 3272mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3273mALED operated at 3273mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3274mALED operated at 3274mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3275mALED operated at 3275mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3276mALED operated at 3276mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3277mALED operated at 3277mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3278mALED operated at 3278mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3279mALED operated at 3279mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 327mALED operated at 327mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3280mALED operated at 3280mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3281mALED operated at 3281mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3282mALED operated at 3282mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3283mALED operated at 3283mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3284mALED operated at 3284mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3285mALED operated at 3285mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3286mALED operated at 3286mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3287mALED operated at 3287mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3288mALED operated at 3288mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3289mALED operated at 3289mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 328mALED operated at 328mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3290mALED operated at 3290mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3291mALED operated at 3291mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3292mALED operated at 3292mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3293mALED operated at 3293mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3294mALED operated at 3294mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3295mALED operated at 3295mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3296mALED operated at 3296mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3297mALED operated at 3297mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3298mALED operated at 3298mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3299mALED operated at 3299mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 329mALED operated at 329mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 32mALED operated at 32mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3300mALED operated at 3300mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3301mALED operated at 3301mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3302mALED operated at 3302mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3303mALED operated at 3303mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3304mALED operated at 3304mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3305mALED operated at 3305mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3306mALED operated at 3306mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3307mALED operated at 3307mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3308mALED operated at 3308mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3309mALED operated at 3309mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 330mALED operated at 330mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3310mALED operated at 3310mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3311mALED operated at 3311mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3312mALED operated at 3312mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3313mALED operated at 3313mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3314mALED operated at 3314mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3315mALED operated at 3315mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3316mALED operated at 3316mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3317mALED operated at 3317mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3318mALED operated at 3318mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3319mALED operated at 3319mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 331mALED operated at 331mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3320mALED operated at 3320mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3321mALED operated at 3321mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3322mALED operated at 3322mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3323mALED operated at 3323mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3324mALED operated at 3324mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3325mALED operated at 3325mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3326mALED operated at 3326mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3327mALED operated at 3327mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3328mALED operated at 3328mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3329mALED operated at 3329mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 332mALED operated at 332mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3330mALED operated at 3330mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3331mALED operated at 3331mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3332mALED operated at 3332mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3333mALED operated at 3333mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3334mALED operated at 3334mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3335mALED operated at 3335mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3336mALED operated at 3336mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3337mALED operated at 3337mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3338mALED operated at 3338mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3339mALED operated at 3339mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 333mALED operated at 333mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3340mALED operated at 3340mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3341mALED operated at 3341mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3342mALED operated at 3342mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3343mALED operated at 3343mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3344mALED operated at 3344mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3345mALED operated at 3345mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3346mALED operated at 3346mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3347mALED operated at 3347mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3348mALED operated at 3348mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3349mALED operated at 3349mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 334mALED operated at 334mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3350mALED operated at 3350mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3351mALED operated at 3351mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3352mALED operated at 3352mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3353mALED operated at 3353mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3354mALED operated at 3354mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3355mALED operated at 3355mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3356mALED operated at 3356mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3357mALED operated at 3357mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3358mALED operated at 3358mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3359mALED operated at 3359mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 335mALED operated at 335mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3360mALED operated at 3360mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3361mALED operated at 3361mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3362mALED operated at 3362mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3363mALED operated at 3363mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3364mALED operated at 3364mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3365mALED operated at 3365mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3366mALED operated at 3366mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3367mALED operated at 3367mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3368mALED operated at 3368mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3369mALED operated at 3369mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 336mALED operated at 336mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3370mALED operated at 3370mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3371mALED operated at 3371mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3372mALED operated at 3372mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3373mALED operated at 3373mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3374mALED operated at 3374mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3375mALED operated at 3375mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3376mALED operated at 3376mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3377mALED operated at 3377mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3378mALED operated at 3378mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3379mALED operated at 3379mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 337mALED operated at 337mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3380mALED operated at 3380mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3381mALED operated at 3381mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3382mALED operated at 3382mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3383mALED operated at 3383mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3384mALED operated at 3384mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3385mALED operated at 3385mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3386mALED operated at 3386mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3387mALED operated at 3387mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3388mALED operated at 3388mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3389mALED operated at 3389mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 338mALED operated at 338mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3390mALED operated at 3390mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3391mALED operated at 3391mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3392mALED operated at 3392mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3393mALED operated at 3393mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3394mALED operated at 3394mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3395mALED operated at 3395mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3396mALED operated at 3396mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3397mALED operated at 3397mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3398mALED operated at 3398mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3399mALED operated at 3399mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 339mALED operated at 339mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 33mALED operated at 33mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3400mALED operated at 3400mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3401mALED operated at 3401mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3402mALED operated at 3402mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3403mALED operated at 3403mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3404mALED operated at 3404mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3405mALED operated at 3405mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3406mALED operated at 3406mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3407mALED operated at 3407mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3408mALED operated at 3408mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3409mALED operated at 3409mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 340mALED operated at 340mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3410mALED operated at 3410mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3411mALED operated at 3411mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3412mALED operated at 3412mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3413mALED operated at 3413mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3414mALED operated at 3414mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3415mALED operated at 3415mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3416mALED operated at 3416mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3417mALED operated at 3417mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3418mALED operated at 3418mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3419mALED operated at 3419mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 341mALED operated at 341mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3420mALED operated at 3420mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3421mALED operated at 3421mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3422mALED operated at 3422mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3423mALED operated at 3423mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3424mALED operated at 3424mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3425mALED operated at 3425mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3426mALED operated at 3426mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3427mALED operated at 3427mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3428mALED operated at 3428mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3429mALED operated at 3429mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 342mALED operated at 342mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3430mALED operated at 3430mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3431mALED operated at 3431mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3432mALED operated at 3432mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3433mALED operated at 3433mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3434mALED operated at 3434mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3435mALED operated at 3435mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3436mALED operated at 3436mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3437mALED operated at 3437mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3438mALED operated at 3438mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3439mALED operated at 3439mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 343mALED operated at 343mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3440mALED operated at 3440mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3441mALED operated at 3441mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3442mALED operated at 3442mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3443mALED operated at 3443mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3444mALED operated at 3444mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3445mALED operated at 3445mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3446mALED operated at 3446mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3447mALED operated at 3447mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3448mALED operated at 3448mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3449mALED operated at 3449mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 344mALED operated at 344mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3450mALED operated at 3450mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3451mALED operated at 3451mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3452mALED operated at 3452mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3453mALED operated at 3453mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3454mALED operated at 3454mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3455mALED operated at 3455mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3456mALED operated at 3456mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3457mALED operated at 3457mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3458mALED operated at 3458mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3459mALED operated at 3459mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 345mALED operated at 345mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3460mALED operated at 3460mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3461mALED operated at 3461mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3462mALED operated at 3462mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3463mALED operated at 3463mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3464mALED operated at 3464mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3465mALED operated at 3465mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3466mALED operated at 3466mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3467mALED operated at 3467mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3468mALED operated at 3468mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3469mALED operated at 3469mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 346mALED operated at 346mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3470mALED operated at 3470mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3471mALED operated at 3471mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3472mALED operated at 3472mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3473mALED operated at 3473mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3474mALED operated at 3474mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3475mALED operated at 3475mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3476mALED operated at 3476mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3477mALED operated at 3477mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3478mALED operated at 3478mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3479mALED operated at 3479mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 347mALED operated at 347mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3480mALED operated at 3480mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3481mALED operated at 3481mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3482mALED operated at 3482mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3483mALED operated at 3483mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3484mALED operated at 3484mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3485mALED operated at 3485mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3486mALED operated at 3486mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3487mALED operated at 3487mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3488mALED operated at 3488mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3489mALED operated at 3489mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 348mALED operated at 348mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3490mALED operated at 3490mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3491mALED operated at 3491mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3492mALED operated at 3492mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3493mALED operated at 3493mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3494mALED operated at 3494mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3495mALED operated at 3495mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3496mALED operated at 3496mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3497mALED operated at 3497mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3498mALED operated at 3498mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3499mALED operated at 3499mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 349mALED operated at 349mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 34mALED operated at 34mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3500mALED operated at 3500mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3501mALED operated at 3501mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3502mALED operated at 3502mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3503mALED operated at 3503mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3504mALED operated at 3504mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3505mALED operated at 3505mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3506mALED operated at 3506mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3507mALED operated at 3507mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3508mALED operated at 3508mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3509mALED operated at 3509mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 350mALED operated at 350mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3510mALED operated at 3510mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3511mALED operated at 3511mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3512mALED operated at 3512mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3513mALED operated at 3513mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3514mALED operated at 3514mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3515mALED operated at 3515mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3516mALED operated at 3516mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3517mALED operated at 3517mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3518mALED operated at 3518mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3519mALED operated at 3519mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 351mALED operated at 351mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3520mALED operated at 3520mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3521mALED operated at 3521mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3522mALED operated at 3522mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3523mALED operated at 3523mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3524mALED operated at 3524mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3525mALED operated at 3525mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3526mALED operated at 3526mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3527mALED operated at 3527mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3528mALED operated at 3528mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3529mALED operated at 3529mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 352mALED operated at 352mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3530mALED operated at 3530mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3531mALED operated at 3531mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3532mALED operated at 3532mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3533mALED operated at 3533mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3534mALED operated at 3534mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3535mALED operated at 3535mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3536mALED operated at 3536mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3537mALED operated at 3537mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3538mALED operated at 3538mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3539mALED operated at 3539mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 353mALED operated at 353mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3540mALED operated at 3540mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3541mALED operated at 3541mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3542mALED operated at 3542mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3543mALED operated at 3543mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3544mALED operated at 3544mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3545mALED operated at 3545mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3546mALED operated at 3546mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3547mALED operated at 3547mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3548mALED operated at 3548mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3549mALED operated at 3549mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 354mALED operated at 354mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3550mALED operated at 3550mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3551mALED operated at 3551mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3552mALED operated at 3552mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3553mALED operated at 3553mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3554mALED operated at 3554mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3555mALED operated at 3555mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3556mALED operated at 3556mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3557mALED operated at 3557mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3558mALED operated at 3558mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3559mALED operated at 3559mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 355mALED operated at 355mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3560mALED operated at 3560mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3561mALED operated at 3561mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3562mALED operated at 3562mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3563mALED operated at 3563mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3564mALED operated at 3564mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3565mALED operated at 3565mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3566mALED operated at 3566mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3567mALED operated at 3567mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3568mALED operated at 3568mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3569mALED operated at 3569mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 356mALED operated at 356mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3570mALED operated at 3570mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3571mALED operated at 3571mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3572mALED operated at 3572mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3573mALED operated at 3573mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3574mALED operated at 3574mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3575mALED operated at 3575mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3576mALED operated at 3576mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3577mALED operated at 3577mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3578mALED operated at 3578mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3579mALED operated at 3579mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 357mALED operated at 357mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3580mALED operated at 3580mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3581mALED operated at 3581mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3582mALED operated at 3582mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3583mALED operated at 3583mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3584mALED operated at 3584mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3585mALED operated at 3585mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3586mALED operated at 3586mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3587mALED operated at 3587mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3588mALED operated at 3588mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3589mALED operated at 3589mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 358mALED operated at 358mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3590mALED operated at 3590mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3591mALED operated at 3591mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3592mALED operated at 3592mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3593mALED operated at 3593mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3594mALED operated at 3594mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3595mALED operated at 3595mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3596mALED operated at 3596mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3597mALED operated at 3597mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3598mALED operated at 3598mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3599mALED operated at 3599mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 359mALED operated at 359mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 35mALED operated at 35mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3600mALED operated at 3600mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3601mALED operated at 3601mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3602mALED operated at 3602mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3603mALED operated at 3603mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3604mALED operated at 3604mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3605mALED operated at 3605mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3606mALED operated at 3606mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3607mALED operated at 3607mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3608mALED operated at 3608mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3609mALED operated at 3609mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 360mALED operated at 360mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3610mALED operated at 3610mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3611mALED operated at 3611mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3612mALED operated at 3612mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3613mALED operated at 3613mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3614mALED operated at 3614mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3615mALED operated at 3615mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3616mALED operated at 3616mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3617mALED operated at 3617mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3618mALED operated at 3618mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3619mALED operated at 3619mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 361mALED operated at 361mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3620mALED operated at 3620mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3621mALED operated at 3621mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3622mALED operated at 3622mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3623mALED operated at 3623mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3624mALED operated at 3624mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3625mALED operated at 3625mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3626mALED operated at 3626mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3627mALED operated at 3627mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3628mALED operated at 3628mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3629mALED operated at 3629mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 362mALED operated at 362mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3630mALED operated at 3630mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3631mALED operated at 3631mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3632mALED operated at 3632mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3633mALED operated at 3633mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3634mALED operated at 3634mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3635mALED operated at 3635mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3636mALED operated at 3636mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3637mALED operated at 3637mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3638mALED operated at 3638mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3639mALED operated at 3639mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 363mALED operated at 363mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3640mALED operated at 3640mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3641mALED operated at 3641mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3642mALED operated at 3642mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3643mALED operated at 3643mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3644mALED operated at 3644mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3645mALED operated at 3645mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3646mALED operated at 3646mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3647mALED operated at 3647mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3648mALED operated at 3648mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3649mALED operated at 3649mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 364mALED operated at 364mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3650mALED operated at 3650mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3651mALED operated at 3651mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3652mALED operated at 3652mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3653mALED operated at 3653mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3654mALED operated at 3654mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3655mALED operated at 3655mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3656mALED operated at 3656mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3657mALED operated at 3657mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3658mALED operated at 3658mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3659mALED operated at 3659mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 365mALED operated at 365mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3660mALED operated at 3660mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3661mALED operated at 3661mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3662mALED operated at 3662mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3663mALED operated at 3663mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3664mALED operated at 3664mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3665mALED operated at 3665mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3666mALED operated at 3666mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3667mALED operated at 3667mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3668mALED operated at 3668mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3669mALED operated at 3669mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 366mALED operated at 366mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3670mALED operated at 3670mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3671mALED operated at 3671mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3672mALED operated at 3672mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3673mALED operated at 3673mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3674mALED operated at 3674mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3675mALED operated at 3675mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3676mALED operated at 3676mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3677mALED operated at 3677mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3678mALED operated at 3678mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3679mALED operated at 3679mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 367mALED operated at 367mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3680mALED operated at 3680mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3681mALED operated at 3681mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3682mALED operated at 3682mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3683mALED operated at 3683mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3684mALED operated at 3684mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3685mALED operated at 3685mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3686mALED operated at 3686mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3687mALED operated at 3687mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3688mALED operated at 3688mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3689mALED operated at 3689mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 368mALED operated at 368mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3690mALED operated at 3690mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3691mALED operated at 3691mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3692mALED operated at 3692mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3693mALED operated at 3693mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3694mALED operated at 3694mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3695mALED operated at 3695mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3696mALED operated at 3696mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3697mALED operated at 3697mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3698mALED operated at 3698mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3699mALED operated at 3699mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 369mALED operated at 369mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 36mALED operated at 36mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3700mALED operated at 3700mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3701mALED operated at 3701mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3702mALED operated at 3702mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3703mALED operated at 3703mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3704mALED operated at 3704mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3705mALED operated at 3705mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3706mALED operated at 3706mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3707mALED operated at 3707mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3708mALED operated at 3708mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3709mALED operated at 3709mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 370mALED operated at 370mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3710mALED operated at 3710mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3711mALED operated at 3711mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3712mALED operated at 3712mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3713mALED operated at 3713mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3714mALED operated at 3714mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3715mALED operated at 3715mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3716mALED operated at 3716mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3717mALED operated at 3717mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3718mALED operated at 3718mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3719mALED operated at 3719mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 371mALED operated at 371mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3720mALED operated at 3720mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3721mALED operated at 3721mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3722mALED operated at 3722mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3723mALED operated at 3723mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3724mALED operated at 3724mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3725mALED operated at 3725mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3726mALED operated at 3726mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3727mALED operated at 3727mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3728mALED operated at 3728mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3729mALED operated at 3729mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 372mALED operated at 372mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3730mALED operated at 3730mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3731mALED operated at 3731mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3732mALED operated at 3732mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3733mALED operated at 3733mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3734mALED operated at 3734mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3735mALED operated at 3735mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3736mALED operated at 3736mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3737mALED operated at 3737mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3738mALED operated at 3738mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3739mALED operated at 3739mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 373mALED operated at 373mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3740mALED operated at 3740mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3741mALED operated at 3741mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3742mALED operated at 3742mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3743mALED operated at 3743mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3744mALED operated at 3744mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3745mALED operated at 3745mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3746mALED operated at 3746mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3747mALED operated at 3747mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3748mALED operated at 3748mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3749mALED operated at 3749mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 374mALED operated at 374mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3750mALED operated at 3750mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3751mALED operated at 3751mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3752mALED operated at 3752mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3753mALED operated at 3753mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3754mALED operated at 3754mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3755mALED operated at 3755mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3756mALED operated at 3756mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3757mALED operated at 3757mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3758mALED operated at 3758mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3759mALED operated at 3759mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 375mALED operated at 375mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3760mALED operated at 3760mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3761mALED operated at 3761mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3762mALED operated at 3762mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3763mALED operated at 3763mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3764mALED operated at 3764mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3765mALED operated at 3765mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3766mALED operated at 3766mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3767mALED operated at 3767mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3768mALED operated at 3768mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3769mALED operated at 3769mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 376mALED operated at 376mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3770mALED operated at 3770mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3771mALED operated at 3771mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3772mALED operated at 3772mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3773mALED operated at 3773mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3774mALED operated at 3774mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3775mALED operated at 3775mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3776mALED operated at 3776mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3777mALED operated at 3777mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3778mALED operated at 3778mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3779mALED operated at 3779mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 377mALED operated at 377mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3780mALED operated at 3780mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3781mALED operated at 3781mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3782mALED operated at 3782mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3783mALED operated at 3783mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3784mALED operated at 3784mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3785mALED operated at 3785mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3786mALED operated at 3786mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3787mALED operated at 3787mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3788mALED operated at 3788mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3789mALED operated at 3789mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 378mALED operated at 378mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3790mALED operated at 3790mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3791mALED operated at 3791mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3792mALED operated at 3792mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3793mALED operated at 3793mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3794mALED operated at 3794mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3795mALED operated at 3795mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3796mALED operated at 3796mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3797mALED operated at 3797mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3798mALED operated at 3798mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3799mALED operated at 3799mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 379mALED operated at 379mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 37mALED operated at 37mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3800mALED operated at 3800mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3801mALED operated at 3801mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3802mALED operated at 3802mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3803mALED operated at 3803mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3804mALED operated at 3804mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3805mALED operated at 3805mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3806mALED operated at 3806mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3807mALED operated at 3807mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3808mALED operated at 3808mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3809mALED operated at 3809mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 380mALED operated at 380mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3810mALED operated at 3810mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3811mALED operated at 3811mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3812mALED operated at 3812mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3813mALED operated at 3813mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3814mALED operated at 3814mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3815mALED operated at 3815mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3816mALED operated at 3816mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3817mALED operated at 3817mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3818mALED operated at 3818mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3819mALED operated at 3819mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 381mALED operated at 381mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3820mALED operated at 3820mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3821mALED operated at 3821mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3822mALED operated at 3822mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3823mALED operated at 3823mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3824mALED operated at 3824mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3825mALED operated at 3825mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3826mALED operated at 3826mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3827mALED operated at 3827mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3828mALED operated at 3828mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3829mALED operated at 3829mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 382mALED operated at 382mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3830mALED operated at 3830mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3831mALED operated at 3831mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3832mALED operated at 3832mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3833mALED operated at 3833mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3834mALED operated at 3834mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3835mALED operated at 3835mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3836mALED operated at 3836mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3837mALED operated at 3837mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3838mALED operated at 3838mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3839mALED operated at 3839mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 383mALED operated at 383mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3840mALED operated at 3840mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3841mALED operated at 3841mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3842mALED operated at 3842mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3843mALED operated at 3843mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3844mALED operated at 3844mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3845mALED operated at 3845mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3846mALED operated at 3846mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3847mALED operated at 3847mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3848mALED operated at 3848mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3849mALED operated at 3849mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 384mALED operated at 384mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3850mALED operated at 3850mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3851mALED operated at 3851mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3852mALED operated at 3852mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3853mALED operated at 3853mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3854mALED operated at 3854mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3855mALED operated at 3855mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3856mALED operated at 3856mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3857mALED operated at 3857mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3858mALED operated at 3858mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3859mALED operated at 3859mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 385mALED operated at 385mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3860mALED operated at 3860mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3861mALED operated at 3861mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3862mALED operated at 3862mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3863mALED operated at 3863mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3864mALED operated at 3864mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3865mALED operated at 3865mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3866mALED operated at 3866mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3867mALED operated at 3867mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3868mALED operated at 3868mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3869mALED operated at 3869mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 386mALED operated at 386mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3870mALED operated at 3870mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3871mALED operated at 3871mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3872mALED operated at 3872mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3873mALED operated at 3873mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3874mALED operated at 3874mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3875mALED operated at 3875mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3876mALED operated at 3876mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3877mALED operated at 3877mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3878mALED operated at 3878mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3879mALED operated at 3879mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 387mALED operated at 387mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3880mALED operated at 3880mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3881mALED operated at 3881mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3882mALED operated at 3882mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3883mALED operated at 3883mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3884mALED operated at 3884mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3885mALED operated at 3885mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3886mALED operated at 3886mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3887mALED operated at 3887mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3888mALED operated at 3888mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3889mALED operated at 3889mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 388mALED operated at 388mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3890mALED operated at 3890mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3891mALED operated at 3891mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3892mALED operated at 3892mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3893mALED operated at 3893mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3894mALED operated at 3894mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3895mALED operated at 3895mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3896mALED operated at 3896mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3897mALED operated at 3897mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3898mALED operated at 3898mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3899mALED operated at 3899mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 389mALED operated at 389mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 38mALED operated at 38mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3900mALED operated at 3900mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3901mALED operated at 3901mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3902mALED operated at 3902mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3903mALED operated at 3903mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3904mALED operated at 3904mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3905mALED operated at 3905mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3906mALED operated at 3906mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3907mALED operated at 3907mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3908mALED operated at 3908mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3909mALED operated at 3909mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 390mALED operated at 390mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3910mALED operated at 3910mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3911mALED operated at 3911mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3912mALED operated at 3912mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3913mALED operated at 3913mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3914mALED operated at 3914mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3915mALED operated at 3915mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3916mALED operated at 3916mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3917mALED operated at 3917mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3918mALED operated at 3918mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3919mALED operated at 3919mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 391mALED operated at 391mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3920mALED operated at 3920mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3921mALED operated at 3921mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3922mALED operated at 3922mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3923mALED operated at 3923mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3924mALED operated at 3924mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3925mALED operated at 3925mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3926mALED operated at 3926mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3927mALED operated at 3927mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3928mALED operated at 3928mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3929mALED operated at 3929mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 392mALED operated at 392mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3930mALED operated at 3930mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3931mALED operated at 3931mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3932mALED operated at 3932mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3933mALED operated at 3933mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3934mALED operated at 3934mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3935mALED operated at 3935mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3936mALED operated at 3936mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3937mALED operated at 3937mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3938mALED operated at 3938mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3939mALED operated at 3939mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 393mALED operated at 393mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3940mALED operated at 3940mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3941mALED operated at 3941mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3942mALED operated at 3942mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3943mALED operated at 3943mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3944mALED operated at 3944mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3945mALED operated at 3945mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3946mALED operated at 3946mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3947mALED operated at 3947mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3948mALED operated at 3948mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3949mALED operated at 3949mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 394mALED operated at 394mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3950mALED operated at 3950mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3951mALED operated at 3951mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3952mALED operated at 3952mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3953mALED operated at 3953mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3954mALED operated at 3954mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3955mALED operated at 3955mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3956mALED operated at 3956mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3957mALED operated at 3957mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3958mALED operated at 3958mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3959mALED operated at 3959mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 395mALED operated at 395mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3960mALED operated at 3960mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3961mALED operated at 3961mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3962mALED operated at 3962mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3963mALED operated at 3963mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3964mALED operated at 3964mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3965mALED operated at 3965mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3966mALED operated at 3966mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3967mALED operated at 3967mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3968mALED operated at 3968mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3969mALED operated at 3969mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 396mALED operated at 396mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3970mALED operated at 3970mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3971mALED operated at 3971mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3972mALED operated at 3972mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3973mALED operated at 3973mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3974mALED operated at 3974mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3975mALED operated at 3975mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3976mALED operated at 3976mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3977mALED operated at 3977mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3978mALED operated at 3978mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3979mALED operated at 3979mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 397mALED operated at 397mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3980mALED operated at 3980mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3981mALED operated at 3981mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3982mALED operated at 3982mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3983mALED operated at 3983mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3984mALED operated at 3984mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3985mALED operated at 3985mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3986mALED operated at 3986mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3987mALED operated at 3987mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3988mALED operated at 3988mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3989mALED operated at 3989mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 398mALED operated at 398mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3990mALED operated at 3990mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3991mALED operated at 3991mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3992mALED operated at 3992mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3993mALED operated at 3993mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3994mALED operated at 3994mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3995mALED operated at 3995mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3996mALED operated at 3996mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3997mALED operated at 3997mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3998mALED operated at 3998mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3999mALED operated at 3999mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 399mALED operated at 399mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 39mALED operated at 39mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 3mALED operated at 3mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4000mALED operated at 4000mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4001mALED operated at 4001mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4002mALED operated at 4002mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4003mALED operated at 4003mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4004mALED operated at 4004mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4005mALED operated at 4005mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4006mALED operated at 4006mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4007mALED operated at 4007mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4008mALED operated at 4008mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4009mALED operated at 4009mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 400mALED operated at 400mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4010mALED operated at 4010mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4011mALED operated at 4011mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4012mALED operated at 4012mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4013mALED operated at 4013mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4014mALED operated at 4014mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4015mALED operated at 4015mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4016mALED operated at 4016mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4017mALED operated at 4017mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4018mALED operated at 4018mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4019mALED operated at 4019mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 401mALED operated at 401mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4020mALED operated at 4020mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4021mALED operated at 4021mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4022mALED operated at 4022mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4023mALED operated at 4023mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4024mALED operated at 4024mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4025mALED operated at 4025mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4026mALED operated at 4026mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4027mALED operated at 4027mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4028mALED operated at 4028mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4029mALED operated at 4029mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 402mALED operated at 402mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4030mALED operated at 4030mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4031mALED operated at 4031mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4032mALED operated at 4032mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4033mALED operated at 4033mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4034mALED operated at 4034mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4035mALED operated at 4035mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4036mALED operated at 4036mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4037mALED operated at 4037mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4038mALED operated at 4038mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4039mALED operated at 4039mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 403mALED operated at 403mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4040mALED operated at 4040mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4041mALED operated at 4041mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4042mALED operated at 4042mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4043mALED operated at 4043mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4044mALED operated at 4044mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4045mALED operated at 4045mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4046mALED operated at 4046mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4047mALED operated at 4047mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4048mALED operated at 4048mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4049mALED operated at 4049mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 404mALED operated at 404mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4050mALED operated at 4050mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4051mALED operated at 4051mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4052mALED operated at 4052mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4053mALED operated at 4053mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4054mALED operated at 4054mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4055mALED operated at 4055mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4056mALED operated at 4056mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4057mALED operated at 4057mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4058mALED operated at 4058mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4059mALED operated at 4059mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 405mALED operated at 405mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4060mALED operated at 4060mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4061mALED operated at 4061mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4062mALED operated at 4062mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4063mALED operated at 4063mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4064mALED operated at 4064mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4065mALED operated at 4065mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4066mALED operated at 4066mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4067mALED operated at 4067mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4068mALED operated at 4068mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4069mALED operated at 4069mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 406mALED operated at 406mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4070mALED operated at 4070mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4071mALED operated at 4071mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4072mALED operated at 4072mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4073mALED operated at 4073mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4074mALED operated at 4074mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4075mALED operated at 4075mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4076mALED operated at 4076mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4077mALED operated at 4077mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4078mALED operated at 4078mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4079mALED operated at 4079mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 407mALED operated at 407mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4080mALED operated at 4080mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4081mALED operated at 4081mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4082mALED operated at 4082mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4083mALED operated at 4083mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4084mALED operated at 4084mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4085mALED operated at 4085mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4086mALED operated at 4086mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4087mALED operated at 4087mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4088mALED operated at 4088mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4089mALED operated at 4089mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 408mALED operated at 408mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4090mALED operated at 4090mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4091mALED operated at 4091mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4092mALED operated at 4092mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4093mALED operated at 4093mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4094mALED operated at 4094mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4095mALED operated at 4095mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4096mALED operated at 4096mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4097mALED operated at 4097mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4098mALED operated at 4098mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4099mALED operated at 4099mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 409mALED operated at 409mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 40mALED operated at 40mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4100mALED operated at 4100mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4101mALED operated at 4101mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4102mALED operated at 4102mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4103mALED operated at 4103mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4104mALED operated at 4104mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4105mALED operated at 4105mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4106mALED operated at 4106mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4107mALED operated at 4107mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4108mALED operated at 4108mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4109mALED operated at 4109mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 410mALED operated at 410mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4110mALED operated at 4110mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4111mALED operated at 4111mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4112mALED operated at 4112mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4113mALED operated at 4113mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4114mALED operated at 4114mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4115mALED operated at 4115mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4116mALED operated at 4116mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4117mALED operated at 4117mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4118mALED operated at 4118mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4119mALED operated at 4119mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 411mALED operated at 411mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4120mALED operated at 4120mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4121mALED operated at 4121mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4122mALED operated at 4122mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4123mALED operated at 4123mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4124mALED operated at 4124mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4125mALED operated at 4125mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4126mALED operated at 4126mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4127mALED operated at 4127mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4128mALED operated at 4128mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4129mALED operated at 4129mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 412mALED operated at 412mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4130mALED operated at 4130mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4131mALED operated at 4131mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4132mALED operated at 4132mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4133mALED operated at 4133mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4134mALED operated at 4134mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4135mALED operated at 4135mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4136mALED operated at 4136mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4137mALED operated at 4137mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4138mALED operated at 4138mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4139mALED operated at 4139mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 413mALED operated at 413mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4140mALED operated at 4140mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4141mALED operated at 4141mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4142mALED operated at 4142mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4143mALED operated at 4143mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4144mALED operated at 4144mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4145mALED operated at 4145mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4146mALED operated at 4146mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4147mALED operated at 4147mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4148mALED operated at 4148mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4149mALED operated at 4149mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 414mALED operated at 414mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4150mALED operated at 4150mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4151mALED operated at 4151mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4152mALED operated at 4152mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4153mALED operated at 4153mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4154mALED operated at 4154mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4155mALED operated at 4155mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4156mALED operated at 4156mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4157mALED operated at 4157mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4158mALED operated at 4158mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4159mALED operated at 4159mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 415mALED operated at 415mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4160mALED operated at 4160mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4161mALED operated at 4161mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4162mALED operated at 4162mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4163mALED operated at 4163mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4164mALED operated at 4164mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4165mALED operated at 4165mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4166mALED operated at 4166mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4167mALED operated at 4167mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4168mALED operated at 4168mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4169mALED operated at 4169mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 416mALED operated at 416mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4170mALED operated at 4170mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4171mALED operated at 4171mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4172mALED operated at 4172mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4173mALED operated at 4173mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4174mALED operated at 4174mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4175mALED operated at 4175mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4176mALED operated at 4176mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4177mALED operated at 4177mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4178mALED operated at 4178mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4179mALED operated at 4179mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 417mALED operated at 417mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4180mALED operated at 4180mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4181mALED operated at 4181mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4182mALED operated at 4182mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4183mALED operated at 4183mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4184mALED operated at 4184mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4185mALED operated at 4185mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4186mALED operated at 4186mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4187mALED operated at 4187mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4188mALED operated at 4188mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4189mALED operated at 4189mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 418mALED operated at 418mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4190mALED operated at 4190mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4191mALED operated at 4191mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4192mALED operated at 4192mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4193mALED operated at 4193mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4194mALED operated at 4194mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4195mALED operated at 4195mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4196mALED operated at 4196mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4197mALED operated at 4197mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4198mALED operated at 4198mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4199mALED operated at 4199mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 419mALED operated at 419mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 41mALED operated at 41mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4200mALED operated at 4200mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4201mALED operated at 4201mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4202mALED operated at 4202mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4203mALED operated at 4203mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4204mALED operated at 4204mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4205mALED operated at 4205mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4206mALED operated at 4206mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4207mALED operated at 4207mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4208mALED operated at 4208mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4209mALED operated at 4209mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 420mALED operated at 420mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4210mALED operated at 4210mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4211mALED operated at 4211mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4212mALED operated at 4212mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4213mALED operated at 4213mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4214mALED operated at 4214mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4215mALED operated at 4215mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4216mALED operated at 4216mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4217mALED operated at 4217mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4218mALED operated at 4218mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4219mALED operated at 4219mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 421mALED operated at 421mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4220mALED operated at 4220mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4221mALED operated at 4221mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4222mALED operated at 4222mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4223mALED operated at 4223mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4224mALED operated at 4224mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4225mALED operated at 4225mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4226mALED operated at 4226mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4227mALED operated at 4227mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4228mALED operated at 4228mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4229mALED operated at 4229mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 422mALED operated at 422mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4230mALED operated at 4230mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4231mALED operated at 4231mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4232mALED operated at 4232mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4233mALED operated at 4233mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4234mALED operated at 4234mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4235mALED operated at 4235mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4236mALED operated at 4236mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4237mALED operated at 4237mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4238mALED operated at 4238mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4239mALED operated at 4239mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 423mALED operated at 423mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4240mALED operated at 4240mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4241mALED operated at 4241mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4242mALED operated at 4242mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4243mALED operated at 4243mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4244mALED operated at 4244mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4245mALED operated at 4245mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4246mALED operated at 4246mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4247mALED operated at 4247mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4248mALED operated at 4248mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4249mALED operated at 4249mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 424mALED operated at 424mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4250mALED operated at 4250mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4251mALED operated at 4251mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4252mALED operated at 4252mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4253mALED operated at 4253mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4254mALED operated at 4254mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4255mALED operated at 4255mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4256mALED operated at 4256mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4257mALED operated at 4257mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4258mALED operated at 4258mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4259mALED operated at 4259mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 425mALED operated at 425mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4260mALED operated at 4260mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4261mALED operated at 4261mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4262mALED operated at 4262mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4263mALED operated at 4263mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4264mALED operated at 4264mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4265mALED operated at 4265mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4266mALED operated at 4266mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4267mALED operated at 4267mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4268mALED operated at 4268mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4269mALED operated at 4269mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 426mALED operated at 426mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4270mALED operated at 4270mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4271mALED operated at 4271mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4272mALED operated at 4272mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4273mALED operated at 4273mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4274mALED operated at 4274mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4275mALED operated at 4275mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4276mALED operated at 4276mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4277mALED operated at 4277mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4278mALED operated at 4278mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4279mALED operated at 4279mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 427mALED operated at 427mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4280mALED operated at 4280mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4281mALED operated at 4281mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4282mALED operated at 4282mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4283mALED operated at 4283mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4284mALED operated at 4284mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4285mALED operated at 4285mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4286mALED operated at 4286mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4287mALED operated at 4287mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4288mALED operated at 4288mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4289mALED operated at 4289mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 428mALED operated at 428mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4290mALED operated at 4290mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4291mALED operated at 4291mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4292mALED operated at 4292mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4293mALED operated at 4293mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4294mALED operated at 4294mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4295mALED operated at 4295mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4296mALED operated at 4296mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4297mALED operated at 4297mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4298mALED operated at 4298mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4299mALED operated at 4299mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 429mALED operated at 429mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 42mALED operated at 42mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4300mALED operated at 4300mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4301mALED operated at 4301mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4302mALED operated at 4302mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4303mALED operated at 4303mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4304mALED operated at 4304mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4305mALED operated at 4305mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4306mALED operated at 4306mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4307mALED operated at 4307mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4308mALED operated at 4308mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4309mALED operated at 4309mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 430mALED operated at 430mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4310mALED operated at 4310mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4311mALED operated at 4311mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4312mALED operated at 4312mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4313mALED operated at 4313mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4314mALED operated at 4314mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4315mALED operated at 4315mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4316mALED operated at 4316mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4317mALED operated at 4317mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4318mALED operated at 4318mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4319mALED operated at 4319mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 431mALED operated at 431mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4320mALED operated at 4320mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4321mALED operated at 4321mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4322mALED operated at 4322mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4323mALED operated at 4323mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4324mALED operated at 4324mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4325mALED operated at 4325mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4326mALED operated at 4326mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4327mALED operated at 4327mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4328mALED operated at 4328mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4329mALED operated at 4329mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 432mALED operated at 432mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4330mALED operated at 4330mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4331mALED operated at 4331mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4332mALED operated at 4332mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4333mALED operated at 4333mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4334mALED operated at 4334mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4335mALED operated at 4335mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4336mALED operated at 4336mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4337mALED operated at 4337mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4338mALED operated at 4338mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4339mALED operated at 4339mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 433mALED operated at 433mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4340mALED operated at 4340mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4341mALED operated at 4341mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4342mALED operated at 4342mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4343mALED operated at 4343mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4344mALED operated at 4344mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4345mALED operated at 4345mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4346mALED operated at 4346mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4347mALED operated at 4347mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4348mALED operated at 4348mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4349mALED operated at 4349mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 434mALED operated at 434mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4350mALED operated at 4350mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4351mALED operated at 4351mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4352mALED operated at 4352mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4353mALED operated at 4353mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4354mALED operated at 4354mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4355mALED operated at 4355mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4356mALED operated at 4356mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4357mALED operated at 4357mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4358mALED operated at 4358mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4359mALED operated at 4359mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 435mALED operated at 435mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4360mALED operated at 4360mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4361mALED operated at 4361mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4362mALED operated at 4362mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4363mALED operated at 4363mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4364mALED operated at 4364mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4365mALED operated at 4365mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4366mALED operated at 4366mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4367mALED operated at 4367mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4368mALED operated at 4368mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4369mALED operated at 4369mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 436mALED operated at 436mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4370mALED operated at 4370mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4371mALED operated at 4371mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4372mALED operated at 4372mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4373mALED operated at 4373mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4374mALED operated at 4374mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4375mALED operated at 4375mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4376mALED operated at 4376mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4377mALED operated at 4377mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4378mALED operated at 4378mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4379mALED operated at 4379mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 437mALED operated at 437mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4380mALED operated at 4380mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4381mALED operated at 4381mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4382mALED operated at 4382mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4383mALED operated at 4383mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4384mALED operated at 4384mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4385mALED operated at 4385mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4386mALED operated at 4386mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4387mALED operated at 4387mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4388mALED operated at 4388mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4389mALED operated at 4389mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 438mALED operated at 438mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4390mALED operated at 4390mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4391mALED operated at 4391mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4392mALED operated at 4392mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4393mALED operated at 4393mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4394mALED operated at 4394mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4395mALED operated at 4395mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4396mALED operated at 4396mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4397mALED operated at 4397mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4398mALED operated at 4398mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4399mALED operated at 4399mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 439mALED operated at 439mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 43mALED operated at 43mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4400mALED operated at 4400mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4401mALED operated at 4401mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4402mALED operated at 4402mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4403mALED operated at 4403mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4404mALED operated at 4404mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4405mALED operated at 4405mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4406mALED operated at 4406mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4407mALED operated at 4407mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4408mALED operated at 4408mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4409mALED operated at 4409mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 440mALED operated at 440mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4410mALED operated at 4410mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4411mALED operated at 4411mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4412mALED operated at 4412mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4413mALED operated at 4413mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4414mALED operated at 4414mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4415mALED operated at 4415mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4416mALED operated at 4416mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4417mALED operated at 4417mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4418mALED operated at 4418mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4419mALED operated at 4419mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 441mALED operated at 441mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4420mALED operated at 4420mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4421mALED operated at 4421mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4422mALED operated at 4422mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4423mALED operated at 4423mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4424mALED operated at 4424mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4425mALED operated at 4425mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4426mALED operated at 4426mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4427mALED operated at 4427mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4428mALED operated at 4428mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4429mALED operated at 4429mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 442mALED operated at 442mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4430mALED operated at 4430mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4431mALED operated at 4431mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4432mALED operated at 4432mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4433mALED operated at 4433mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4434mALED operated at 4434mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4435mALED operated at 4435mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4436mALED operated at 4436mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4437mALED operated at 4437mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4438mALED operated at 4438mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4439mALED operated at 4439mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 443mALED operated at 443mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4440mALED operated at 4440mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4441mALED operated at 4441mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4442mALED operated at 4442mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4443mALED operated at 4443mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4444mALED operated at 4444mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4445mALED operated at 4445mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4446mALED operated at 4446mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4447mALED operated at 4447mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4448mALED operated at 4448mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4449mALED operated at 4449mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 444mALED operated at 444mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4450mALED operated at 4450mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4451mALED operated at 4451mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4452mALED operated at 4452mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4453mALED operated at 4453mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4454mALED operated at 4454mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4455mALED operated at 4455mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4456mALED operated at 4456mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4457mALED operated at 4457mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4458mALED operated at 4458mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4459mALED operated at 4459mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 445mALED operated at 445mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4460mALED operated at 4460mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4461mALED operated at 4461mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4462mALED operated at 4462mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4463mALED operated at 4463mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4464mALED operated at 4464mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4465mALED operated at 4465mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4466mALED operated at 4466mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4467mALED operated at 4467mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4468mALED operated at 4468mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4469mALED operated at 4469mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 446mALED operated at 446mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4470mALED operated at 4470mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4471mALED operated at 4471mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4472mALED operated at 4472mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4473mALED operated at 4473mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4474mALED operated at 4474mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4475mALED operated at 4475mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4476mALED operated at 4476mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4477mALED operated at 4477mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4478mALED operated at 4478mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4479mALED operated at 4479mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 447mALED operated at 447mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4480mALED operated at 4480mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4481mALED operated at 4481mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4482mALED operated at 4482mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4483mALED operated at 4483mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4484mALED operated at 4484mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4485mALED operated at 4485mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4486mALED operated at 4486mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4487mALED operated at 4487mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4488mALED operated at 4488mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4489mALED operated at 4489mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 448mALED operated at 448mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4490mALED operated at 4490mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4491mALED operated at 4491mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4492mALED operated at 4492mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4493mALED operated at 4493mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4494mALED operated at 4494mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4495mALED operated at 4495mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4496mALED operated at 4496mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4497mALED operated at 4497mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4498mALED operated at 4498mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4499mALED operated at 4499mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 449mALED operated at 449mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 44mALED operated at 44mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4500mALED operated at 4500mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4501mALED operated at 4501mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4502mALED operated at 4502mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4503mALED operated at 4503mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4504mALED operated at 4504mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4505mALED operated at 4505mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4506mALED operated at 4506mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4507mALED operated at 4507mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4508mALED operated at 4508mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4509mALED operated at 4509mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 450mALED operated at 450mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4510mALED operated at 4510mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4511mALED operated at 4511mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4512mALED operated at 4512mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4513mALED operated at 4513mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4514mALED operated at 4514mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4515mALED operated at 4515mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4516mALED operated at 4516mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4517mALED operated at 4517mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4518mALED operated at 4518mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4519mALED operated at 4519mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 451mALED operated at 451mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4520mALED operated at 4520mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4521mALED operated at 4521mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4522mALED operated at 4522mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4523mALED operated at 4523mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4524mALED operated at 4524mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4525mALED operated at 4525mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4526mALED operated at 4526mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4527mALED operated at 4527mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4528mALED operated at 4528mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4529mALED operated at 4529mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 452mALED operated at 452mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4530mALED operated at 4530mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4531mALED operated at 4531mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4532mALED operated at 4532mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4533mALED operated at 4533mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4534mALED operated at 4534mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4535mALED operated at 4535mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4536mALED operated at 4536mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4537mALED operated at 4537mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4538mALED operated at 4538mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4539mALED operated at 4539mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 453mALED operated at 453mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4540mALED operated at 4540mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4541mALED operated at 4541mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4542mALED operated at 4542mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4543mALED operated at 4543mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4544mALED operated at 4544mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4545mALED operated at 4545mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4546mALED operated at 4546mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4547mALED operated at 4547mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4548mALED operated at 4548mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4549mALED operated at 4549mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 454mALED operated at 454mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4550mALED operated at 4550mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4551mALED operated at 4551mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4552mALED operated at 4552mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4553mALED operated at 4553mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4554mALED operated at 4554mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4555mALED operated at 4555mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4556mALED operated at 4556mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4557mALED operated at 4557mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4558mALED operated at 4558mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4559mALED operated at 4559mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 455mALED operated at 455mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4560mALED operated at 4560mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4561mALED operated at 4561mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4562mALED operated at 4562mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4563mALED operated at 4563mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4564mALED operated at 4564mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4565mALED operated at 4565mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4566mALED operated at 4566mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4567mALED operated at 4567mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4568mALED operated at 4568mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4569mALED operated at 4569mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 456mALED operated at 456mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4570mALED operated at 4570mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4571mALED operated at 4571mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4572mALED operated at 4572mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4573mALED operated at 4573mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4574mALED operated at 4574mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4575mALED operated at 4575mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4576mALED operated at 4576mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4577mALED operated at 4577mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4578mALED operated at 4578mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4579mALED operated at 4579mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 457mALED operated at 457mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4580mALED operated at 4580mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4581mALED operated at 4581mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4582mALED operated at 4582mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4583mALED operated at 4583mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4584mALED operated at 4584mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4585mALED operated at 4585mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4586mALED operated at 4586mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4587mALED operated at 4587mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4588mALED operated at 4588mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4589mALED operated at 4589mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 458mALED operated at 458mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4590mALED operated at 4590mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4591mALED operated at 4591mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4592mALED operated at 4592mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4593mALED operated at 4593mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4594mALED operated at 4594mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4595mALED operated at 4595mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4596mALED operated at 4596mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4597mALED operated at 4597mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4598mALED operated at 4598mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4599mALED operated at 4599mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 459mALED operated at 459mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 45mALED operated at 45mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4600mALED operated at 4600mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4601mALED operated at 4601mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4602mALED operated at 4602mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4603mALED operated at 4603mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4604mALED operated at 4604mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4605mALED operated at 4605mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4606mALED operated at 4606mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4607mALED operated at 4607mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4608mALED operated at 4608mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4609mALED operated at 4609mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 460mALED operated at 460mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4610mALED operated at 4610mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4611mALED operated at 4611mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4612mALED operated at 4612mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4613mALED operated at 4613mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4614mALED operated at 4614mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4615mALED operated at 4615mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4616mALED operated at 4616mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4617mALED operated at 4617mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4618mALED operated at 4618mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4619mALED operated at 4619mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 461mALED operated at 461mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4620mALED operated at 4620mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4621mALED operated at 4621mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4622mALED operated at 4622mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4623mALED operated at 4623mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4624mALED operated at 4624mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4625mALED operated at 4625mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4626mALED operated at 4626mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4627mALED operated at 4627mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4628mALED operated at 4628mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4629mALED operated at 4629mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 462mALED operated at 462mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4630mALED operated at 4630mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4631mALED operated at 4631mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4632mALED operated at 4632mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4633mALED operated at 4633mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4634mALED operated at 4634mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4635mALED operated at 4635mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4636mALED operated at 4636mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4637mALED operated at 4637mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4638mALED operated at 4638mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4639mALED operated at 4639mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 463mALED operated at 463mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4640mALED operated at 4640mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4641mALED operated at 4641mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4642mALED operated at 4642mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4643mALED operated at 4643mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4644mALED operated at 4644mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4645mALED operated at 4645mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4646mALED operated at 4646mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4647mALED operated at 4647mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4648mALED operated at 4648mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4649mALED operated at 4649mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 464mALED operated at 464mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4650mALED operated at 4650mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4651mALED operated at 4651mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4652mALED operated at 4652mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4653mALED operated at 4653mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4654mALED operated at 4654mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4655mALED operated at 4655mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4656mALED operated at 4656mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4657mALED operated at 4657mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4658mALED operated at 4658mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4659mALED operated at 4659mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 465mALED operated at 465mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4660mALED operated at 4660mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4661mALED operated at 4661mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4662mALED operated at 4662mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4663mALED operated at 4663mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4664mALED operated at 4664mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4665mALED operated at 4665mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4666mALED operated at 4666mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4667mALED operated at 4667mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4668mALED operated at 4668mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4669mALED operated at 4669mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 466mALED operated at 466mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4670mALED operated at 4670mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4671mALED operated at 4671mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4672mALED operated at 4672mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4673mALED operated at 4673mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4674mALED operated at 4674mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4675mALED operated at 4675mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4676mALED operated at 4676mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4677mALED operated at 4677mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4678mALED operated at 4678mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4679mALED operated at 4679mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 467mALED operated at 467mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4680mALED operated at 4680mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4681mALED operated at 4681mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4682mALED operated at 4682mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4683mALED operated at 4683mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4684mALED operated at 4684mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4685mALED operated at 4685mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4686mALED operated at 4686mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4687mALED operated at 4687mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4688mALED operated at 4688mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4689mALED operated at 4689mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 468mALED operated at 468mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4690mALED operated at 4690mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4691mALED operated at 4691mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4692mALED operated at 4692mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4693mALED operated at 4693mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4694mALED operated at 4694mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4695mALED operated at 4695mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4696mALED operated at 4696mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4697mALED operated at 4697mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4698mALED operated at 4698mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4699mALED operated at 4699mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 469mALED operated at 469mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 46mALED operated at 46mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4700mALED operated at 4700mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4701mALED operated at 4701mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4702mALED operated at 4702mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4703mALED operated at 4703mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4704mALED operated at 4704mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4705mALED operated at 4705mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4706mALED operated at 4706mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4707mALED operated at 4707mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4708mALED operated at 4708mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4709mALED operated at 4709mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 470mALED operated at 470mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4710mALED operated at 4710mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4711mALED operated at 4711mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4712mALED operated at 4712mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4713mALED operated at 4713mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4714mALED operated at 4714mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4715mALED operated at 4715mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4716mALED operated at 4716mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4717mALED operated at 4717mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4718mALED operated at 4718mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4719mALED operated at 4719mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 471mALED operated at 471mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4720mALED operated at 4720mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4721mALED operated at 4721mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4722mALED operated at 4722mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4723mALED operated at 4723mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4724mALED operated at 4724mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4725mALED operated at 4725mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4726mALED operated at 4726mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4727mALED operated at 4727mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4728mALED operated at 4728mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4729mALED operated at 4729mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 472mALED operated at 472mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4730mALED operated at 4730mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4731mALED operated at 4731mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4732mALED operated at 4732mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4733mALED operated at 4733mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4734mALED operated at 4734mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4735mALED operated at 4735mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4736mALED operated at 4736mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4737mALED operated at 4737mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4738mALED operated at 4738mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4739mALED operated at 4739mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 473mALED operated at 473mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4740mALED operated at 4740mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4741mALED operated at 4741mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4742mALED operated at 4742mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4743mALED operated at 4743mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4744mALED operated at 4744mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4745mALED operated at 4745mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4746mALED operated at 4746mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4747mALED operated at 4747mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4748mALED operated at 4748mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4749mALED operated at 4749mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 474mALED operated at 474mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4750mALED operated at 4750mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4751mALED operated at 4751mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4752mALED operated at 4752mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4753mALED operated at 4753mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4754mALED operated at 4754mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4755mALED operated at 4755mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4756mALED operated at 4756mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4757mALED operated at 4757mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4758mALED operated at 4758mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4759mALED operated at 4759mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 475mALED operated at 475mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4760mALED operated at 4760mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4761mALED operated at 4761mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4762mALED operated at 4762mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4763mALED operated at 4763mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4764mALED operated at 4764mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4765mALED operated at 4765mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4766mALED operated at 4766mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4767mALED operated at 4767mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4768mALED operated at 4768mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4769mALED operated at 4769mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 476mALED operated at 476mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4770mALED operated at 4770mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4771mALED operated at 4771mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4772mALED operated at 4772mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4773mALED operated at 4773mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4774mALED operated at 4774mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4775mALED operated at 4775mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4776mALED operated at 4776mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4777mALED operated at 4777mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4778mALED operated at 4778mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4779mALED operated at 4779mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 477mALED operated at 477mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4780mALED operated at 4780mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4781mALED operated at 4781mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4782mALED operated at 4782mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4783mALED operated at 4783mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4784mALED operated at 4784mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4785mALED operated at 4785mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4786mALED operated at 4786mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4787mALED operated at 4787mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4788mALED operated at 4788mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4789mALED operated at 4789mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 478mALED operated at 478mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4790mALED operated at 4790mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4791mALED operated at 4791mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4792mALED operated at 4792mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4793mALED operated at 4793mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4794mALED operated at 4794mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4795mALED operated at 4795mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4796mALED operated at 4796mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4797mALED operated at 4797mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4798mALED operated at 4798mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4799mALED operated at 4799mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 479mALED operated at 479mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 47mALED operated at 47mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4800mALED operated at 4800mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4801mALED operated at 4801mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4802mALED operated at 4802mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4803mALED operated at 4803mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4804mALED operated at 4804mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4805mALED operated at 4805mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4806mALED operated at 4806mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4807mALED operated at 4807mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4808mALED operated at 4808mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4809mALED operated at 4809mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 480mALED operated at 480mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4810mALED operated at 4810mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4811mALED operated at 4811mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4812mALED operated at 4812mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4813mALED operated at 4813mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4814mALED operated at 4814mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4815mALED operated at 4815mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4816mALED operated at 4816mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4817mALED operated at 4817mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4818mALED operated at 4818mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4819mALED operated at 4819mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 481mALED operated at 481mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4820mALED operated at 4820mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4821mALED operated at 4821mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4822mALED operated at 4822mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4823mALED operated at 4823mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4824mALED operated at 4824mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4825mALED operated at 4825mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4826mALED operated at 4826mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4827mALED operated at 4827mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4828mALED operated at 4828mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4829mALED operated at 4829mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 482mALED operated at 482mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4830mALED operated at 4830mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4831mALED operated at 4831mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4832mALED operated at 4832mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4833mALED operated at 4833mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4834mALED operated at 4834mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4835mALED operated at 4835mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4836mALED operated at 4836mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4837mALED operated at 4837mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4838mALED operated at 4838mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4839mALED operated at 4839mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 483mALED operated at 483mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4840mALED operated at 4840mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4841mALED operated at 4841mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4842mALED operated at 4842mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4843mALED operated at 4843mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4844mALED operated at 4844mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4845mALED operated at 4845mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4846mALED operated at 4846mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4847mALED operated at 4847mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4848mALED operated at 4848mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4849mALED operated at 4849mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 484mALED operated at 484mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4850mALED operated at 4850mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4851mALED operated at 4851mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4852mALED operated at 4852mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4853mALED operated at 4853mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4854mALED operated at 4854mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4855mALED operated at 4855mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4856mALED operated at 4856mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4857mALED operated at 4857mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4858mALED operated at 4858mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4859mALED operated at 4859mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 485mALED operated at 485mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4860mALED operated at 4860mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4861mALED operated at 4861mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4862mALED operated at 4862mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4863mALED operated at 4863mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4864mALED operated at 4864mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4865mALED operated at 4865mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4866mALED operated at 4866mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4867mALED operated at 4867mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4868mALED operated at 4868mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4869mALED operated at 4869mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 486mALED operated at 486mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4870mALED operated at 4870mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4871mALED operated at 4871mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4872mALED operated at 4872mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4873mALED operated at 4873mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4874mALED operated at 4874mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4875mALED operated at 4875mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4876mALED operated at 4876mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4877mALED operated at 4877mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4878mALED operated at 4878mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4879mALED operated at 4879mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 487mALED operated at 487mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4880mALED operated at 4880mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4881mALED operated at 4881mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4882mALED operated at 4882mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4883mALED operated at 4883mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4884mALED operated at 4884mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4885mALED operated at 4885mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4886mALED operated at 4886mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4887mALED operated at 4887mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4888mALED operated at 4888mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4889mALED operated at 4889mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 488mALED operated at 488mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4890mALED operated at 4890mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4891mALED operated at 4891mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4892mALED operated at 4892mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4893mALED operated at 4893mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4894mALED operated at 4894mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4895mALED operated at 4895mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4896mALED operated at 4896mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4897mALED operated at 4897mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4898mALED operated at 4898mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4899mALED operated at 4899mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 489mALED operated at 489mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 48mALED operated at 48mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4900mALED operated at 4900mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4901mALED operated at 4901mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4902mALED operated at 4902mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4903mALED operated at 4903mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4904mALED operated at 4904mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4905mALED operated at 4905mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4906mALED operated at 4906mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4907mALED operated at 4907mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4908mALED operated at 4908mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4909mALED operated at 4909mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 490mALED operated at 490mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4910mALED operated at 4910mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4911mALED operated at 4911mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4912mALED operated at 4912mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4913mALED operated at 4913mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4914mALED operated at 4914mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4915mALED operated at 4915mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4916mALED operated at 4916mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4917mALED operated at 4917mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4918mALED operated at 4918mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4919mALED operated at 4919mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 491mALED operated at 491mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4920mALED operated at 4920mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4921mALED operated at 4921mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4922mALED operated at 4922mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4923mALED operated at 4923mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4924mALED operated at 4924mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4925mALED operated at 4925mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4926mALED operated at 4926mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4927mALED operated at 4927mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4928mALED operated at 4928mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4929mALED operated at 4929mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 492mALED operated at 492mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4930mALED operated at 4930mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4931mALED operated at 4931mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4932mALED operated at 4932mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4933mALED operated at 4933mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4934mALED operated at 4934mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4935mALED operated at 4935mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4936mALED operated at 4936mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4937mALED operated at 4937mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4938mALED operated at 4938mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4939mALED operated at 4939mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 493mALED operated at 493mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4940mALED operated at 4940mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4941mALED operated at 4941mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4942mALED operated at 4942mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4943mALED operated at 4943mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4944mALED operated at 4944mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4945mALED operated at 4945mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4946mALED operated at 4946mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4947mALED operated at 4947mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4948mALED operated at 4948mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4949mALED operated at 4949mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 494mALED operated at 494mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4950mALED operated at 4950mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4951mALED operated at 4951mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4952mALED operated at 4952mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4953mALED operated at 4953mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4954mALED operated at 4954mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4955mALED operated at 4955mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4956mALED operated at 4956mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4957mALED operated at 4957mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4958mALED operated at 4958mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4959mALED operated at 4959mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 495mALED operated at 495mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4960mALED operated at 4960mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4961mALED operated at 4961mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4962mALED operated at 4962mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4963mALED operated at 4963mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4964mALED operated at 4964mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4965mALED operated at 4965mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4966mALED operated at 4966mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4967mALED operated at 4967mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4968mALED operated at 4968mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4969mALED operated at 4969mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 496mALED operated at 496mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4970mALED operated at 4970mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4971mALED operated at 4971mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4972mALED operated at 4972mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4973mALED operated at 4973mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4974mALED operated at 4974mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4975mALED operated at 4975mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4976mALED operated at 4976mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4977mALED operated at 4977mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4978mALED operated at 4978mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4979mALED operated at 4979mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 497mALED operated at 497mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4980mALED operated at 4980mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4981mALED operated at 4981mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4982mALED operated at 4982mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4983mALED operated at 4983mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4984mALED operated at 4984mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4985mALED operated at 4985mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4986mALED operated at 4986mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4987mALED operated at 4987mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4988mALED operated at 4988mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4989mALED operated at 4989mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 498mALED operated at 498mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4990mALED operated at 4990mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4991mALED operated at 4991mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4992mALED operated at 4992mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4993mALED operated at 4993mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4994mALED operated at 4994mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4995mALED operated at 4995mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4996mALED operated at 4996mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4997mALED operated at 4997mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4998mALED operated at 4998mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4999mALED operated at 4999mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 499mALED operated at 499mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 49mALED operated at 49mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 4mALED operated at 4mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5000mALED operated at 5000mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5001mALED operated at 5001mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5002mALED operated at 5002mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5003mALED operated at 5003mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5004mALED operated at 5004mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5005mALED operated at 5005mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5006mALED operated at 5006mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5007mALED operated at 5007mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5008mALED operated at 5008mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5009mALED operated at 5009mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 500mALED operated at 500mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5010mALED operated at 5010mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5011mALED operated at 5011mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5012mALED operated at 5012mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5013mALED operated at 5013mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5014mALED operated at 5014mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5015mALED operated at 5015mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5016mALED operated at 5016mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5017mALED operated at 5017mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5018mALED operated at 5018mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5019mALED operated at 5019mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 501mALED operated at 501mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5020mALED operated at 5020mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5021mALED operated at 5021mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5022mALED operated at 5022mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5023mALED operated at 5023mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5024mALED operated at 5024mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5025mALED operated at 5025mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5026mALED operated at 5026mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5027mALED operated at 5027mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5028mALED operated at 5028mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5029mALED operated at 5029mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 502mALED operated at 502mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5030mALED operated at 5030mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5031mALED operated at 5031mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5032mALED operated at 5032mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5033mALED operated at 5033mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5034mALED operated at 5034mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5035mALED operated at 5035mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5036mALED operated at 5036mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5037mALED operated at 5037mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5038mALED operated at 5038mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5039mALED operated at 5039mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 503mALED operated at 503mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5040mALED operated at 5040mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5041mALED operated at 5041mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5042mALED operated at 5042mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5043mALED operated at 5043mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5044mALED operated at 5044mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5045mALED operated at 5045mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5046mALED operated at 5046mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5047mALED operated at 5047mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5048mALED operated at 5048mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5049mALED operated at 5049mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 504mALED operated at 504mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5050mALED operated at 5050mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5051mALED operated at 5051mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5052mALED operated at 5052mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5053mALED operated at 5053mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5054mALED operated at 5054mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5055mALED operated at 5055mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5056mALED operated at 5056mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5057mALED operated at 5057mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5058mALED operated at 5058mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5059mALED operated at 5059mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 505mALED operated at 505mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5060mALED operated at 5060mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5061mALED operated at 5061mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5062mALED operated at 5062mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5063mALED operated at 5063mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5064mALED operated at 5064mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5065mALED operated at 5065mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5066mALED operated at 5066mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5067mALED operated at 5067mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5068mALED operated at 5068mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5069mALED operated at 5069mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 506mALED operated at 506mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5070mALED operated at 5070mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5071mALED operated at 5071mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5072mALED operated at 5072mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5073mALED operated at 5073mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5074mALED operated at 5074mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5075mALED operated at 5075mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5076mALED operated at 5076mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5077mALED operated at 5077mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5078mALED operated at 5078mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5079mALED operated at 5079mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 507mALED operated at 507mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5080mALED operated at 5080mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5081mALED operated at 5081mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5082mALED operated at 5082mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5083mALED operated at 5083mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5084mALED operated at 5084mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5085mALED operated at 5085mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5086mALED operated at 5086mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5087mALED operated at 5087mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5088mALED operated at 5088mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5089mALED operated at 5089mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 508mALED operated at 508mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5090mALED operated at 5090mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5091mALED operated at 5091mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5092mALED operated at 5092mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5093mALED operated at 5093mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5094mALED operated at 5094mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5095mALED operated at 5095mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5096mALED operated at 5096mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5097mALED operated at 5097mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5098mALED operated at 5098mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5099mALED operated at 5099mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 509mALED operated at 509mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 50mALED operated at 50mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5100mALED operated at 5100mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5101mALED operated at 5101mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5102mALED operated at 5102mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5103mALED operated at 5103mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5104mALED operated at 5104mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5105mALED operated at 5105mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5106mALED operated at 5106mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5107mALED operated at 5107mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5108mALED operated at 5108mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5109mALED operated at 5109mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 510mALED operated at 510mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5110mALED operated at 5110mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5111mALED operated at 5111mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5112mALED operated at 5112mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5113mALED operated at 5113mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5114mALED operated at 5114mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5115mALED operated at 5115mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5116mALED operated at 5116mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5117mALED operated at 5117mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5118mALED operated at 5118mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5119mALED operated at 5119mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 511mALED operated at 511mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5120mALED operated at 5120mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5121mALED operated at 5121mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5122mALED operated at 5122mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5123mALED operated at 5123mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5124mALED operated at 5124mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5125mALED operated at 5125mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5126mALED operated at 5126mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5127mALED operated at 5127mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5128mALED operated at 5128mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5129mALED operated at 5129mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 512mALED operated at 512mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5130mALED operated at 5130mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5131mALED operated at 5131mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5132mALED operated at 5132mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5133mALED operated at 5133mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5134mALED operated at 5134mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5135mALED operated at 5135mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5136mALED operated at 5136mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5137mALED operated at 5137mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5138mALED operated at 5138mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5139mALED operated at 5139mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 513mALED operated at 513mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5140mALED operated at 5140mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5141mALED operated at 5141mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5142mALED operated at 5142mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5143mALED operated at 5143mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5144mALED operated at 5144mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5145mALED operated at 5145mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5146mALED operated at 5146mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5147mALED operated at 5147mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5148mALED operated at 5148mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5149mALED operated at 5149mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 514mALED operated at 514mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5150mALED operated at 5150mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5151mALED operated at 5151mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5152mALED operated at 5152mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5153mALED operated at 5153mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5154mALED operated at 5154mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5155mALED operated at 5155mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5156mALED operated at 5156mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5157mALED operated at 5157mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5158mALED operated at 5158mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5159mALED operated at 5159mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 515mALED operated at 515mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5160mALED operated at 5160mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5161mALED operated at 5161mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5162mALED operated at 5162mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5163mALED operated at 5163mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5164mALED operated at 5164mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5165mALED operated at 5165mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5166mALED operated at 5166mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5167mALED operated at 5167mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5168mALED operated at 5168mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5169mALED operated at 5169mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 516mALED operated at 516mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5170mALED operated at 5170mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5171mALED operated at 5171mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5172mALED operated at 5172mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5173mALED operated at 5173mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5174mALED operated at 5174mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5175mALED operated at 5175mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5176mALED operated at 5176mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5177mALED operated at 5177mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5178mALED operated at 5178mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5179mALED operated at 5179mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 517mALED operated at 517mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5180mALED operated at 5180mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5181mALED operated at 5181mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5182mALED operated at 5182mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5183mALED operated at 5183mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5184mALED operated at 5184mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5185mALED operated at 5185mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5186mALED operated at 5186mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5187mALED operated at 5187mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5188mALED operated at 5188mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5189mALED operated at 5189mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 518mALED operated at 518mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5190mALED operated at 5190mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5191mALED operated at 5191mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5192mALED operated at 5192mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5193mALED operated at 5193mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5194mALED operated at 5194mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5195mALED operated at 5195mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5196mALED operated at 5196mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5197mALED operated at 5197mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5198mALED operated at 5198mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5199mALED operated at 5199mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 519mALED operated at 519mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 51mALED operated at 51mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5200mALED operated at 5200mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5201mALED operated at 5201mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5202mALED operated at 5202mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5203mALED operated at 5203mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5204mALED operated at 5204mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5205mALED operated at 5205mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5206mALED operated at 5206mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5207mALED operated at 5207mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5208mALED operated at 5208mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5209mALED operated at 5209mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 520mALED operated at 520mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5210mALED operated at 5210mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5211mALED operated at 5211mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5212mALED operated at 5212mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5213mALED operated at 5213mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5214mALED operated at 5214mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5215mALED operated at 5215mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5216mALED operated at 5216mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5217mALED operated at 5217mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5218mALED operated at 5218mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5219mALED operated at 5219mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 521mALED operated at 521mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5220mALED operated at 5220mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5221mALED operated at 5221mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5222mALED operated at 5222mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5223mALED operated at 5223mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5224mALED operated at 5224mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5225mALED operated at 5225mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5226mALED operated at 5226mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5227mALED operated at 5227mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5228mALED operated at 5228mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5229mALED operated at 5229mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 522mALED operated at 522mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5230mALED operated at 5230mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5231mALED operated at 5231mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5232mALED operated at 5232mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5233mALED operated at 5233mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5234mALED operated at 5234mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5235mALED operated at 5235mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5236mALED operated at 5236mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5237mALED operated at 5237mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5238mALED operated at 5238mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5239mALED operated at 5239mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 523mALED operated at 523mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5240mALED operated at 5240mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5241mALED operated at 5241mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5242mALED operated at 5242mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5243mALED operated at 5243mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5244mALED operated at 5244mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5245mALED operated at 5245mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5246mALED operated at 5246mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5247mALED operated at 5247mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5248mALED operated at 5248mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5249mALED operated at 5249mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 524mALED operated at 524mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5250mALED operated at 5250mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5251mALED operated at 5251mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5252mALED operated at 5252mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5253mALED operated at 5253mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5254mALED operated at 5254mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5255mALED operated at 5255mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5256mALED operated at 5256mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5257mALED operated at 5257mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5258mALED operated at 5258mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5259mALED operated at 5259mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 525mALED operated at 525mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5260mALED operated at 5260mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5261mALED operated at 5261mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5262mALED operated at 5262mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5263mALED operated at 5263mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5264mALED operated at 5264mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5265mALED operated at 5265mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5266mALED operated at 5266mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5267mALED operated at 5267mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5268mALED operated at 5268mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5269mALED operated at 5269mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 526mALED operated at 526mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5270mALED operated at 5270mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5271mALED operated at 5271mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5272mALED operated at 5272mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5273mALED operated at 5273mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5274mALED operated at 5274mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5275mALED operated at 5275mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5276mALED operated at 5276mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5277mALED operated at 5277mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5278mALED operated at 5278mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5279mALED operated at 5279mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 527mALED operated at 527mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5280mALED operated at 5280mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5281mALED operated at 5281mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5282mALED operated at 5282mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5283mALED operated at 5283mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5284mALED operated at 5284mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5285mALED operated at 5285mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5286mALED operated at 5286mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5287mALED operated at 5287mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5288mALED operated at 5288mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5289mALED operated at 5289mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 528mALED operated at 528mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5290mALED operated at 5290mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5291mALED operated at 5291mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5292mALED operated at 5292mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5293mALED operated at 5293mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5294mALED operated at 5294mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5295mALED operated at 5295mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5296mALED operated at 5296mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5297mALED operated at 5297mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5298mALED operated at 5298mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5299mALED operated at 5299mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 529mALED operated at 529mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 52mALED operated at 52mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5300mALED operated at 5300mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5301mALED operated at 5301mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5302mALED operated at 5302mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5303mALED operated at 5303mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5304mALED operated at 5304mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5305mALED operated at 5305mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5306mALED operated at 5306mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5307mALED operated at 5307mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5308mALED operated at 5308mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5309mALED operated at 5309mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 530mALED operated at 530mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5310mALED operated at 5310mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5311mALED operated at 5311mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5312mALED operated at 5312mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5313mALED operated at 5313mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5314mALED operated at 5314mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5315mALED operated at 5315mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5316mALED operated at 5316mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5317mALED operated at 5317mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5318mALED operated at 5318mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5319mALED operated at 5319mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 531mALED operated at 531mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5320mALED operated at 5320mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5321mALED operated at 5321mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5322mALED operated at 5322mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5323mALED operated at 5323mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5324mALED operated at 5324mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5325mALED operated at 5325mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5326mALED operated at 5326mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5327mALED operated at 5327mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5328mALED operated at 5328mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5329mALED operated at 5329mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 532mALED operated at 532mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5330mALED operated at 5330mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5331mALED operated at 5331mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5332mALED operated at 5332mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5333mALED operated at 5333mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5334mALED operated at 5334mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5335mALED operated at 5335mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5336mALED operated at 5336mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5337mALED operated at 5337mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5338mALED operated at 5338mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5339mALED operated at 5339mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 533mALED operated at 533mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5340mALED operated at 5340mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5341mALED operated at 5341mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5342mALED operated at 5342mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5343mALED operated at 5343mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5344mALED operated at 5344mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5345mALED operated at 5345mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5346mALED operated at 5346mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5347mALED operated at 5347mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5348mALED operated at 5348mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5349mALED operated at 5349mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 534mALED operated at 534mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5350mALED operated at 5350mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5351mALED operated at 5351mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5352mALED operated at 5352mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5353mALED operated at 5353mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5354mALED operated at 5354mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5355mALED operated at 5355mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5356mALED operated at 5356mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5357mALED operated at 5357mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5358mALED operated at 5358mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5359mALED operated at 5359mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 535mALED operated at 535mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5360mALED operated at 5360mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5361mALED operated at 5361mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5362mALED operated at 5362mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5363mALED operated at 5363mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5364mALED operated at 5364mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5365mALED operated at 5365mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5366mALED operated at 5366mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5367mALED operated at 5367mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5368mALED operated at 5368mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5369mALED operated at 5369mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 536mALED operated at 536mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5370mALED operated at 5370mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5371mALED operated at 5371mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5372mALED operated at 5372mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5373mALED operated at 5373mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5374mALED operated at 5374mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5375mALED operated at 5375mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5376mALED operated at 5376mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5377mALED operated at 5377mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5378mALED operated at 5378mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5379mALED operated at 5379mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 537mALED operated at 537mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5380mALED operated at 5380mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5381mALED operated at 5381mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5382mALED operated at 5382mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5383mALED operated at 5383mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5384mALED operated at 5384mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5385mALED operated at 5385mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5386mALED operated at 5386mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5387mALED operated at 5387mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5388mALED operated at 5388mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5389mALED operated at 5389mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 538mALED operated at 538mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5390mALED operated at 5390mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5391mALED operated at 5391mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5392mALED operated at 5392mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5393mALED operated at 5393mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5394mALED operated at 5394mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5395mALED operated at 5395mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5396mALED operated at 5396mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5397mALED operated at 5397mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5398mALED operated at 5398mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5399mALED operated at 5399mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 539mALED operated at 539mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 53mALED operated at 53mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5400mALED operated at 5400mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5401mALED operated at 5401mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5402mALED operated at 5402mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5403mALED operated at 5403mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5404mALED operated at 5404mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5405mALED operated at 5405mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5406mALED operated at 5406mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5407mALED operated at 5407mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5408mALED operated at 5408mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5409mALED operated at 5409mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 540mALED operated at 540mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5410mALED operated at 5410mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5411mALED operated at 5411mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5412mALED operated at 5412mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5413mALED operated at 5413mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5414mALED operated at 5414mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5415mALED operated at 5415mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5416mALED operated at 5416mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5417mALED operated at 5417mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5418mALED operated at 5418mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5419mALED operated at 5419mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 541mALED operated at 541mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5420mALED operated at 5420mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5421mALED operated at 5421mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5422mALED operated at 5422mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5423mALED operated at 5423mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5424mALED operated at 5424mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5425mALED operated at 5425mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5426mALED operated at 5426mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5427mALED operated at 5427mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5428mALED operated at 5428mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5429mALED operated at 5429mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 542mALED operated at 542mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5430mALED operated at 5430mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5431mALED operated at 5431mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5432mALED operated at 5432mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5433mALED operated at 5433mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5434mALED operated at 5434mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5435mALED operated at 5435mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5436mALED operated at 5436mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5437mALED operated at 5437mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5438mALED operated at 5438mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5439mALED operated at 5439mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 543mALED operated at 543mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5440mALED operated at 5440mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5441mALED operated at 5441mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5442mALED operated at 5442mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5443mALED operated at 5443mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5444mALED operated at 5444mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5445mALED operated at 5445mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5446mALED operated at 5446mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5447mALED operated at 5447mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5448mALED operated at 5448mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5449mALED operated at 5449mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 544mALED operated at 544mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5450mALED operated at 5450mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5451mALED operated at 5451mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5452mALED operated at 5452mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5453mALED operated at 5453mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5454mALED operated at 5454mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5455mALED operated at 5455mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5456mALED operated at 5456mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5457mALED operated at 5457mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5458mALED operated at 5458mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5459mALED operated at 5459mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 545mALED operated at 545mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5460mALED operated at 5460mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5461mALED operated at 5461mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5462mALED operated at 5462mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5463mALED operated at 5463mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5464mALED operated at 5464mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5465mALED operated at 5465mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5466mALED operated at 5466mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5467mALED operated at 5467mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5468mALED operated at 5468mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5469mALED operated at 5469mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 546mALED operated at 546mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5470mALED operated at 5470mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5471mALED operated at 5471mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5472mALED operated at 5472mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5473mALED operated at 5473mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5474mALED operated at 5474mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5475mALED operated at 5475mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5476mALED operated at 5476mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5477mALED operated at 5477mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5478mALED operated at 5478mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5479mALED operated at 5479mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 547mALED operated at 547mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5480mALED operated at 5480mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5481mALED operated at 5481mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5482mALED operated at 5482mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5483mALED operated at 5483mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5484mALED operated at 5484mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5485mALED operated at 5485mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5486mALED operated at 5486mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5487mALED operated at 5487mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5488mALED operated at 5488mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5489mALED operated at 5489mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 548mALED operated at 548mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5490mALED operated at 5490mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5491mALED operated at 5491mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5492mALED operated at 5492mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5493mALED operated at 5493mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5494mALED operated at 5494mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5495mALED operated at 5495mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5496mALED operated at 5496mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5497mALED operated at 5497mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5498mALED operated at 5498mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5499mALED operated at 5499mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 549mALED operated at 549mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 54mALED operated at 54mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5500mALED operated at 5500mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5501mALED operated at 5501mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5502mALED operated at 5502mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5503mALED operated at 5503mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5504mALED operated at 5504mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5505mALED operated at 5505mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5506mALED operated at 5506mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5507mALED operated at 5507mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5508mALED operated at 5508mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5509mALED operated at 5509mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 550mALED operated at 550mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5510mALED operated at 5510mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5511mALED operated at 5511mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5512mALED operated at 5512mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5513mALED operated at 5513mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5514mALED operated at 5514mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5515mALED operated at 5515mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5516mALED operated at 5516mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5517mALED operated at 5517mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5518mALED operated at 5518mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5519mALED operated at 5519mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 551mALED operated at 551mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5520mALED operated at 5520mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5521mALED operated at 5521mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5522mALED operated at 5522mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5523mALED operated at 5523mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5524mALED operated at 5524mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5525mALED operated at 5525mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5526mALED operated at 5526mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5527mALED operated at 5527mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5528mALED operated at 5528mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5529mALED operated at 5529mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 552mALED operated at 552mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5530mALED operated at 5530mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5531mALED operated at 5531mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5532mALED operated at 5532mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5533mALED operated at 5533mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5534mALED operated at 5534mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5535mALED operated at 5535mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5536mALED operated at 5536mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5537mALED operated at 5537mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5538mALED operated at 5538mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5539mALED operated at 5539mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 553mALED operated at 553mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5540mALED operated at 5540mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5541mALED operated at 5541mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5542mALED operated at 5542mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5543mALED operated at 5543mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5544mALED operated at 5544mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5545mALED operated at 5545mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5546mALED operated at 5546mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5547mALED operated at 5547mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5548mALED operated at 5548mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5549mALED operated at 5549mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 554mALED operated at 554mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5550mALED operated at 5550mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5551mALED operated at 5551mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5552mALED operated at 5552mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5553mALED operated at 5553mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5554mALED operated at 5554mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5555mALED operated at 5555mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5556mALED operated at 5556mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5557mALED operated at 5557mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5558mALED operated at 5558mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5559mALED operated at 5559mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 555mALED operated at 555mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5560mALED operated at 5560mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5561mALED operated at 5561mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5562mALED operated at 5562mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5563mALED operated at 5563mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5564mALED operated at 5564mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5565mALED operated at 5565mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5566mALED operated at 5566mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5567mALED operated at 5567mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5568mALED operated at 5568mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5569mALED operated at 5569mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 556mALED operated at 556mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5570mALED operated at 5570mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5571mALED operated at 5571mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5572mALED operated at 5572mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5573mALED operated at 5573mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5574mALED operated at 5574mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5575mALED operated at 5575mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5576mALED operated at 5576mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5577mALED operated at 5577mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5578mALED operated at 5578mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5579mALED operated at 5579mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 557mALED operated at 557mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5580mALED operated at 5580mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5581mALED operated at 5581mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5582mALED operated at 5582mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5583mALED operated at 5583mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5584mALED operated at 5584mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5585mALED operated at 5585mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5586mALED operated at 5586mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5587mALED operated at 5587mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5588mALED operated at 5588mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5589mALED operated at 5589mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 558mALED operated at 558mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5590mALED operated at 5590mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5591mALED operated at 5591mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5592mALED operated at 5592mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5593mALED operated at 5593mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5594mALED operated at 5594mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5595mALED operated at 5595mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5596mALED operated at 5596mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5597mALED operated at 5597mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5598mALED operated at 5598mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5599mALED operated at 5599mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 559mALED operated at 559mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 55mALED operated at 55mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5600mALED operated at 5600mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5601mALED operated at 5601mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5602mALED operated at 5602mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5603mALED operated at 5603mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5604mALED operated at 5604mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5605mALED operated at 5605mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5606mALED operated at 5606mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5607mALED operated at 5607mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5608mALED operated at 5608mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5609mALED operated at 5609mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 560mALED operated at 560mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5610mALED operated at 5610mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5611mALED operated at 5611mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5612mALED operated at 5612mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5613mALED operated at 5613mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5614mALED operated at 5614mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5615mALED operated at 5615mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5616mALED operated at 5616mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5617mALED operated at 5617mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5618mALED operated at 5618mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5619mALED operated at 5619mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 561mALED operated at 561mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5620mALED operated at 5620mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5621mALED operated at 5621mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5622mALED operated at 5622mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5623mALED operated at 5623mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5624mALED operated at 5624mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5625mALED operated at 5625mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5626mALED operated at 5626mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5627mALED operated at 5627mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5628mALED operated at 5628mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5629mALED operated at 5629mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 562mALED operated at 562mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5630mALED operated at 5630mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5631mALED operated at 5631mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5632mALED operated at 5632mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5633mALED operated at 5633mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5634mALED operated at 5634mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5635mALED operated at 5635mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5636mALED operated at 5636mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5637mALED operated at 5637mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5638mALED operated at 5638mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5639mALED operated at 5639mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 563mALED operated at 563mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5640mALED operated at 5640mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5641mALED operated at 5641mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5642mALED operated at 5642mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5643mALED operated at 5643mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5644mALED operated at 5644mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5645mALED operated at 5645mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5646mALED operated at 5646mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5647mALED operated at 5647mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5648mALED operated at 5648mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5649mALED operated at 5649mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 564mALED operated at 564mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5650mALED operated at 5650mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5651mALED operated at 5651mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5652mALED operated at 5652mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5653mALED operated at 5653mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5654mALED operated at 5654mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5655mALED operated at 5655mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5656mALED operated at 5656mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5657mALED operated at 5657mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5658mALED operated at 5658mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5659mALED operated at 5659mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 565mALED operated at 565mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5660mALED operated at 5660mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5661mALED operated at 5661mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5662mALED operated at 5662mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5663mALED operated at 5663mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5664mALED operated at 5664mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5665mALED operated at 5665mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5666mALED operated at 5666mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5667mALED operated at 5667mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5668mALED operated at 5668mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5669mALED operated at 5669mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 566mALED operated at 566mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5670mALED operated at 5670mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5671mALED operated at 5671mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5672mALED operated at 5672mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5673mALED operated at 5673mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5674mALED operated at 5674mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5675mALED operated at 5675mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5676mALED operated at 5676mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5677mALED operated at 5677mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5678mALED operated at 5678mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5679mALED operated at 5679mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 567mALED operated at 567mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5680mALED operated at 5680mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5681mALED operated at 5681mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5682mALED operated at 5682mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5683mALED operated at 5683mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5684mALED operated at 5684mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5685mALED operated at 5685mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5686mALED operated at 5686mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5687mALED operated at 5687mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5688mALED operated at 5688mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5689mALED operated at 5689mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 568mALED operated at 568mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5690mALED operated at 5690mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5691mALED operated at 5691mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5692mALED operated at 5692mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5693mALED operated at 5693mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5694mALED operated at 5694mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5695mALED operated at 5695mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5696mALED operated at 5696mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5697mALED operated at 5697mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5698mALED operated at 5698mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5699mALED operated at 5699mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 569mALED operated at 569mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 56mALED operated at 56mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5700mALED operated at 5700mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5701mALED operated at 5701mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5702mALED operated at 5702mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5703mALED operated at 5703mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5704mALED operated at 5704mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5705mALED operated at 5705mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5706mALED operated at 5706mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5707mALED operated at 5707mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5708mALED operated at 5708mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5709mALED operated at 5709mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 570mALED operated at 570mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5710mALED operated at 5710mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5711mALED operated at 5711mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5712mALED operated at 5712mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5713mALED operated at 5713mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5714mALED operated at 5714mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5715mALED operated at 5715mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5716mALED operated at 5716mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5717mALED operated at 5717mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5718mALED operated at 5718mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5719mALED operated at 5719mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 571mALED operated at 571mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5720mALED operated at 5720mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5721mALED operated at 5721mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5722mALED operated at 5722mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5723mALED operated at 5723mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5724mALED operated at 5724mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5725mALED operated at 5725mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5726mALED operated at 5726mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5727mALED operated at 5727mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5728mALED operated at 5728mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5729mALED operated at 5729mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 572mALED operated at 572mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5730mALED operated at 5730mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5731mALED operated at 5731mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5732mALED operated at 5732mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5733mALED operated at 5733mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5734mALED operated at 5734mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5735mALED operated at 5735mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5736mALED operated at 5736mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5737mALED operated at 5737mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5738mALED operated at 5738mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5739mALED operated at 5739mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 573mALED operated at 573mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5740mALED operated at 5740mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5741mALED operated at 5741mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5742mALED operated at 5742mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5743mALED operated at 5743mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5744mALED operated at 5744mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5745mALED operated at 5745mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5746mALED operated at 5746mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5747mALED operated at 5747mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5748mALED operated at 5748mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5749mALED operated at 5749mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 574mALED operated at 574mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5750mALED operated at 5750mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5751mALED operated at 5751mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5752mALED operated at 5752mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5753mALED operated at 5753mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5754mALED operated at 5754mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5755mALED operated at 5755mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5756mALED operated at 5756mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5757mALED operated at 5757mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5758mALED operated at 5758mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5759mALED operated at 5759mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 575mALED operated at 575mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5760mALED operated at 5760mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5761mALED operated at 5761mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5762mALED operated at 5762mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5763mALED operated at 5763mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5764mALED operated at 5764mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5765mALED operated at 5765mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5766mALED operated at 5766mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5767mALED operated at 5767mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5768mALED operated at 5768mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5769mALED operated at 5769mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 576mALED operated at 576mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5770mALED operated at 5770mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5771mALED operated at 5771mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5772mALED operated at 5772mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5773mALED operated at 5773mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5774mALED operated at 5774mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5775mALED operated at 5775mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5776mALED operated at 5776mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5777mALED operated at 5777mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5778mALED operated at 5778mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5779mALED operated at 5779mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 577mALED operated at 577mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5780mALED operated at 5780mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5781mALED operated at 5781mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5782mALED operated at 5782mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5783mALED operated at 5783mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5784mALED operated at 5784mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5785mALED operated at 5785mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5786mALED operated at 5786mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5787mALED operated at 5787mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5788mALED operated at 5788mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5789mALED operated at 5789mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 578mALED operated at 578mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5790mALED operated at 5790mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5791mALED operated at 5791mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5792mALED operated at 5792mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5793mALED operated at 5793mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5794mALED operated at 5794mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5795mALED operated at 5795mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5796mALED operated at 5796mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5797mALED operated at 5797mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5798mALED operated at 5798mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5799mALED operated at 5799mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 579mALED operated at 579mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 57mALED operated at 57mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5800mALED operated at 5800mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5801mALED operated at 5801mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5802mALED operated at 5802mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5803mALED operated at 5803mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5804mALED operated at 5804mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5805mALED operated at 5805mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5806mALED operated at 5806mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5807mALED operated at 5807mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5808mALED operated at 5808mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5809mALED operated at 5809mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 580mALED operated at 580mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5810mALED operated at 5810mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5811mALED operated at 5811mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5812mALED operated at 5812mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5813mALED operated at 5813mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5814mALED operated at 5814mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5815mALED operated at 5815mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5816mALED operated at 5816mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5817mALED operated at 5817mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5818mALED operated at 5818mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5819mALED operated at 5819mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 581mALED operated at 581mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5820mALED operated at 5820mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5821mALED operated at 5821mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5822mALED operated at 5822mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5823mALED operated at 5823mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5824mALED operated at 5824mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5825mALED operated at 5825mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5826mALED operated at 5826mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5827mALED operated at 5827mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5828mALED operated at 5828mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5829mALED operated at 5829mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 582mALED operated at 582mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5830mALED operated at 5830mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5831mALED operated at 5831mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5832mALED operated at 5832mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5833mALED operated at 5833mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5834mALED operated at 5834mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5835mALED operated at 5835mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5836mALED operated at 5836mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5837mALED operated at 5837mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5838mALED operated at 5838mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5839mALED operated at 5839mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 583mALED operated at 583mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5840mALED operated at 5840mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5841mALED operated at 5841mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5842mALED operated at 5842mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5843mALED operated at 5843mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5844mALED operated at 5844mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5845mALED operated at 5845mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5846mALED operated at 5846mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5847mALED operated at 5847mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5848mALED operated at 5848mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5849mALED operated at 5849mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 584mALED operated at 584mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5850mALED operated at 5850mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5851mALED operated at 5851mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5852mALED operated at 5852mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5853mALED operated at 5853mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5854mALED operated at 5854mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5855mALED operated at 5855mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5856mALED operated at 5856mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5857mALED operated at 5857mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5858mALED operated at 5858mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5859mALED operated at 5859mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 585mALED operated at 585mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5860mALED operated at 5860mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5861mALED operated at 5861mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5862mALED operated at 5862mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5863mALED operated at 5863mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5864mALED operated at 5864mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5865mALED operated at 5865mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5866mALED operated at 5866mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5867mALED operated at 5867mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5868mALED operated at 5868mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5869mALED operated at 5869mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 586mALED operated at 586mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5870mALED operated at 5870mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5871mALED operated at 5871mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5872mALED operated at 5872mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5873mALED operated at 5873mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5874mALED operated at 5874mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5875mALED operated at 5875mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5876mALED operated at 5876mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5877mALED operated at 5877mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5878mALED operated at 5878mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5879mALED operated at 5879mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 587mALED operated at 587mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5880mALED operated at 5880mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5881mALED operated at 5881mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5882mALED operated at 5882mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5883mALED operated at 5883mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5884mALED operated at 5884mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5885mALED operated at 5885mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5886mALED operated at 5886mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5887mALED operated at 5887mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5888mALED operated at 5888mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5889mALED operated at 5889mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 588mALED operated at 588mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5890mALED operated at 5890mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5891mALED operated at 5891mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5892mALED operated at 5892mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5893mALED operated at 5893mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5894mALED operated at 5894mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5895mALED operated at 5895mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5896mALED operated at 5896mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5897mALED operated at 5897mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5898mALED operated at 5898mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5899mALED operated at 5899mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 589mALED operated at 589mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 58mALED operated at 58mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5900mALED operated at 5900mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5901mALED operated at 5901mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5902mALED operated at 5902mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5903mALED operated at 5903mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5904mALED operated at 5904mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5905mALED operated at 5905mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5906mALED operated at 5906mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5907mALED operated at 5907mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5908mALED operated at 5908mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5909mALED operated at 5909mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 590mALED operated at 590mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5910mALED operated at 5910mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5911mALED operated at 5911mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5912mALED operated at 5912mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5913mALED operated at 5913mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5914mALED operated at 5914mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5915mALED operated at 5915mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5916mALED operated at 5916mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5917mALED operated at 5917mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5918mALED operated at 5918mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5919mALED operated at 5919mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 591mALED operated at 591mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5920mALED operated at 5920mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5921mALED operated at 5921mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5922mALED operated at 5922mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5923mALED operated at 5923mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5924mALED operated at 5924mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5925mALED operated at 5925mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5926mALED operated at 5926mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5927mALED operated at 5927mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5928mALED operated at 5928mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5929mALED operated at 5929mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 592mALED operated at 592mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5930mALED operated at 5930mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5931mALED operated at 5931mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5932mALED operated at 5932mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5933mALED operated at 5933mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5934mALED operated at 5934mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5935mALED operated at 5935mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5936mALED operated at 5936mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5937mALED operated at 5937mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5938mALED operated at 5938mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5939mALED operated at 5939mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 593mALED operated at 593mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5940mALED operated at 5940mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5941mALED operated at 5941mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5942mALED operated at 5942mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5943mALED operated at 5943mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5944mALED operated at 5944mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5945mALED operated at 5945mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5946mALED operated at 5946mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5947mALED operated at 5947mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5948mALED operated at 5948mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5949mALED operated at 5949mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 594mALED operated at 594mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5950mALED operated at 5950mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5951mALED operated at 5951mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5952mALED operated at 5952mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5953mALED operated at 5953mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5954mALED operated at 5954mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5955mALED operated at 5955mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5956mALED operated at 5956mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5957mALED operated at 5957mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5958mALED operated at 5958mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5959mALED operated at 5959mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 595mALED operated at 595mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5960mALED operated at 5960mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5961mALED operated at 5961mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5962mALED operated at 5962mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5963mALED operated at 5963mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5964mALED operated at 5964mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5965mALED operated at 5965mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5966mALED operated at 5966mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5967mALED operated at 5967mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5968mALED operated at 5968mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5969mALED operated at 5969mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 596mALED operated at 596mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5970mALED operated at 5970mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5971mALED operated at 5971mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5972mALED operated at 5972mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5973mALED operated at 5973mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5974mALED operated at 5974mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5975mALED operated at 5975mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5976mALED operated at 5976mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5977mALED operated at 5977mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5978mALED operated at 5978mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5979mALED operated at 5979mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 597mALED operated at 597mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5980mALED operated at 5980mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5981mALED operated at 5981mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5982mALED operated at 5982mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5983mALED operated at 5983mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5984mALED operated at 5984mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5985mALED operated at 5985mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5986mALED operated at 5986mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5987mALED operated at 5987mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5988mALED operated at 5988mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5989mALED operated at 5989mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 598mALED operated at 598mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5990mALED operated at 5990mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5991mALED operated at 5991mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5992mALED operated at 5992mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5993mALED operated at 5993mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5994mALED operated at 5994mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5995mALED operated at 5995mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5996mALED operated at 5996mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5997mALED operated at 5997mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5998mALED operated at 5998mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5999mALED operated at 5999mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 599mALED operated at 599mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 59mALED operated at 59mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 5mALED operated at 5mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6000mALED operated at 6000mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6001mALED operated at 6001mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6002mALED operated at 6002mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6003mALED operated at 6003mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6004mALED operated at 6004mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6005mALED operated at 6005mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6006mALED operated at 6006mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6007mALED operated at 6007mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6008mALED operated at 6008mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6009mALED operated at 6009mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 600mALED operated at 600mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6010mALED operated at 6010mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6011mALED operated at 6011mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6012mALED operated at 6012mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6013mALED operated at 6013mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6014mALED operated at 6014mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6015mALED operated at 6015mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6016mALED operated at 6016mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6017mALED operated at 6017mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6018mALED operated at 6018mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6019mALED operated at 6019mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 601mALED operated at 601mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6020mALED operated at 6020mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6021mALED operated at 6021mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6022mALED operated at 6022mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6023mALED operated at 6023mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6024mALED operated at 6024mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6025mALED operated at 6025mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6026mALED operated at 6026mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6027mALED operated at 6027mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6028mALED operated at 6028mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6029mALED operated at 6029mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 602mALED operated at 602mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6030mALED operated at 6030mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6031mALED operated at 6031mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6032mALED operated at 6032mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6033mALED operated at 6033mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6034mALED operated at 6034mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6035mALED operated at 6035mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6036mALED operated at 6036mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6037mALED operated at 6037mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6038mALED operated at 6038mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6039mALED operated at 6039mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 603mALED operated at 603mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6040mALED operated at 6040mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6041mALED operated at 6041mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6042mALED operated at 6042mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6043mALED operated at 6043mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6044mALED operated at 6044mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6045mALED operated at 6045mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6046mALED operated at 6046mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6047mALED operated at 6047mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6048mALED operated at 6048mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6049mALED operated at 6049mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 604mALED operated at 604mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6050mALED operated at 6050mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6051mALED operated at 6051mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6052mALED operated at 6052mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6053mALED operated at 6053mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6054mALED operated at 6054mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6055mALED operated at 6055mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6056mALED operated at 6056mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6057mALED operated at 6057mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6058mALED operated at 6058mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6059mALED operated at 6059mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 605mALED operated at 605mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6060mALED operated at 6060mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6061mALED operated at 6061mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6062mALED operated at 6062mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6063mALED operated at 6063mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6064mALED operated at 6064mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6065mALED operated at 6065mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6066mALED operated at 6066mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6067mALED operated at 6067mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6068mALED operated at 6068mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6069mALED operated at 6069mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 606mALED operated at 606mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6070mALED operated at 6070mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6071mALED operated at 6071mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6072mALED operated at 6072mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6073mALED operated at 6073mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6074mALED operated at 6074mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6075mALED operated at 6075mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6076mALED operated at 6076mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6077mALED operated at 6077mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6078mALED operated at 6078mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6079mALED operated at 6079mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 607mALED operated at 607mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6080mALED operated at 6080mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6081mALED operated at 6081mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6082mALED operated at 6082mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6083mALED operated at 6083mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6084mALED operated at 6084mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6085mALED operated at 6085mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6086mALED operated at 6086mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6087mALED operated at 6087mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6088mALED operated at 6088mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6089mALED operated at 6089mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 608mALED operated at 608mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6090mALED operated at 6090mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6091mALED operated at 6091mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6092mALED operated at 6092mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6093mALED operated at 6093mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6094mALED operated at 6094mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6095mALED operated at 6095mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6096mALED operated at 6096mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6097mALED operated at 6097mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6098mALED operated at 6098mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6099mALED operated at 6099mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 609mALED operated at 609mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 60mALED operated at 60mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6100mALED operated at 6100mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6101mALED operated at 6101mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6102mALED operated at 6102mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6103mALED operated at 6103mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6104mALED operated at 6104mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6105mALED operated at 6105mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6106mALED operated at 6106mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6107mALED operated at 6107mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6108mALED operated at 6108mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6109mALED operated at 6109mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 610mALED operated at 610mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6110mALED operated at 6110mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6111mALED operated at 6111mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6112mALED operated at 6112mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6113mALED operated at 6113mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6114mALED operated at 6114mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6115mALED operated at 6115mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6116mALED operated at 6116mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6117mALED operated at 6117mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6118mALED operated at 6118mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6119mALED operated at 6119mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 611mALED operated at 611mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6120mALED operated at 6120mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6121mALED operated at 6121mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6122mALED operated at 6122mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6123mALED operated at 6123mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6124mALED operated at 6124mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6125mALED operated at 6125mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6126mALED operated at 6126mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6127mALED operated at 6127mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6128mALED operated at 6128mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6129mALED operated at 6129mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 612mALED operated at 612mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6130mALED operated at 6130mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6131mALED operated at 6131mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6132mALED operated at 6132mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6133mALED operated at 6133mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6134mALED operated at 6134mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6135mALED operated at 6135mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6136mALED operated at 6136mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6137mALED operated at 6137mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6138mALED operated at 6138mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6139mALED operated at 6139mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 613mALED operated at 613mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6140mALED operated at 6140mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6141mALED operated at 6141mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6142mALED operated at 6142mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6143mALED operated at 6143mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6144mALED operated at 6144mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6145mALED operated at 6145mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6146mALED operated at 6146mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6147mALED operated at 6147mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6148mALED operated at 6148mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6149mALED operated at 6149mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 614mALED operated at 614mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6150mALED operated at 6150mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6151mALED operated at 6151mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6152mALED operated at 6152mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6153mALED operated at 6153mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6154mALED operated at 6154mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6155mALED operated at 6155mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6156mALED operated at 6156mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6157mALED operated at 6157mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6158mALED operated at 6158mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6159mALED operated at 6159mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 615mALED operated at 615mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6160mALED operated at 6160mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6161mALED operated at 6161mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6162mALED operated at 6162mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6163mALED operated at 6163mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6164mALED operated at 6164mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6165mALED operated at 6165mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6166mALED operated at 6166mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6167mALED operated at 6167mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6168mALED operated at 6168mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6169mALED operated at 6169mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 616mALED operated at 616mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6170mALED operated at 6170mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6171mALED operated at 6171mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6172mALED operated at 6172mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6173mALED operated at 6173mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6174mALED operated at 6174mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6175mALED operated at 6175mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6176mALED operated at 6176mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6177mALED operated at 6177mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6178mALED operated at 6178mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6179mALED operated at 6179mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 617mALED operated at 617mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6180mALED operated at 6180mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6181mALED operated at 6181mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6182mALED operated at 6182mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6183mALED operated at 6183mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6184mALED operated at 6184mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6185mALED operated at 6185mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6186mALED operated at 6186mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6187mALED operated at 6187mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6188mALED operated at 6188mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6189mALED operated at 6189mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 618mALED operated at 618mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6190mALED operated at 6190mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6191mALED operated at 6191mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6192mALED operated at 6192mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6193mALED operated at 6193mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6194mALED operated at 6194mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6195mALED operated at 6195mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6196mALED operated at 6196mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6197mALED operated at 6197mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6198mALED operated at 6198mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6199mALED operated at 6199mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 619mALED operated at 619mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 61mALED operated at 61mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6200mALED operated at 6200mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6201mALED operated at 6201mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6202mALED operated at 6202mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6203mALED operated at 6203mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6204mALED operated at 6204mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6205mALED operated at 6205mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6206mALED operated at 6206mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6207mALED operated at 6207mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6208mALED operated at 6208mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6209mALED operated at 6209mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 620mALED operated at 620mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6210mALED operated at 6210mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6211mALED operated at 6211mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6212mALED operated at 6212mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6213mALED operated at 6213mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6214mALED operated at 6214mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6215mALED operated at 6215mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6216mALED operated at 6216mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6217mALED operated at 6217mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6218mALED operated at 6218mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6219mALED operated at 6219mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 621mALED operated at 621mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6220mALED operated at 6220mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6221mALED operated at 6221mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6222mALED operated at 6222mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6223mALED operated at 6223mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6224mALED operated at 6224mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6225mALED operated at 6225mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6226mALED operated at 6226mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6227mALED operated at 6227mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6228mALED operated at 6228mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6229mALED operated at 6229mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 622mALED operated at 622mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6230mALED operated at 6230mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6231mALED operated at 6231mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6232mALED operated at 6232mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6233mALED operated at 6233mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6234mALED operated at 6234mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6235mALED operated at 6235mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6236mALED operated at 6236mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6237mALED operated at 6237mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6238mALED operated at 6238mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6239mALED operated at 6239mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 623mALED operated at 623mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6240mALED operated at 6240mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6241mALED operated at 6241mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6242mALED operated at 6242mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6243mALED operated at 6243mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6244mALED operated at 6244mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6245mALED operated at 6245mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6246mALED operated at 6246mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6247mALED operated at 6247mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6248mALED operated at 6248mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6249mALED operated at 6249mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 624mALED operated at 624mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6250mALED operated at 6250mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6251mALED operated at 6251mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6252mALED operated at 6252mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6253mALED operated at 6253mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6254mALED operated at 6254mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6255mALED operated at 6255mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6256mALED operated at 6256mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6257mALED operated at 6257mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6258mALED operated at 6258mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6259mALED operated at 6259mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 625mALED operated at 625mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6260mALED operated at 6260mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6261mALED operated at 6261mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6262mALED operated at 6262mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6263mALED operated at 6263mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6264mALED operated at 6264mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6265mALED operated at 6265mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6266mALED operated at 6266mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6267mALED operated at 6267mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6268mALED operated at 6268mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6269mALED operated at 6269mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 626mALED operated at 626mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6270mALED operated at 6270mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6271mALED operated at 6271mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6272mALED operated at 6272mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6273mALED operated at 6273mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6274mALED operated at 6274mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6275mALED operated at 6275mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6276mALED operated at 6276mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6277mALED operated at 6277mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6278mALED operated at 6278mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6279mALED operated at 6279mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 627mALED operated at 627mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6280mALED operated at 6280mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6281mALED operated at 6281mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6282mALED operated at 6282mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6283mALED operated at 6283mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6284mALED operated at 6284mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6285mALED operated at 6285mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6286mALED operated at 6286mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6287mALED operated at 6287mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6288mALED operated at 6288mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6289mALED operated at 6289mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 628mALED operated at 628mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6290mALED operated at 6290mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6291mALED operated at 6291mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6292mALED operated at 6292mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6293mALED operated at 6293mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6294mALED operated at 6294mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6295mALED operated at 6295mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6296mALED operated at 6296mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6297mALED operated at 6297mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6298mALED operated at 6298mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6299mALED operated at 6299mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 629mALED operated at 629mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 62mALED operated at 62mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6300mALED operated at 6300mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6301mALED operated at 6301mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6302mALED operated at 6302mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6303mALED operated at 6303mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6304mALED operated at 6304mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6305mALED operated at 6305mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6306mALED operated at 6306mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6307mALED operated at 6307mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6308mALED operated at 6308mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6309mALED operated at 6309mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 630mALED operated at 630mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6310mALED operated at 6310mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6311mALED operated at 6311mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6312mALED operated at 6312mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6313mALED operated at 6313mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6314mALED operated at 6314mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6315mALED operated at 6315mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6316mALED operated at 6316mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6317mALED operated at 6317mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6318mALED operated at 6318mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6319mALED operated at 6319mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 631mALED operated at 631mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6320mALED operated at 6320mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6321mALED operated at 6321mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6322mALED operated at 6322mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6323mALED operated at 6323mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6324mALED operated at 6324mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6325mALED operated at 6325mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6326mALED operated at 6326mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6327mALED operated at 6327mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6328mALED operated at 6328mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6329mALED operated at 6329mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 632mALED operated at 632mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6330mALED operated at 6330mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6331mALED operated at 6331mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6332mALED operated at 6332mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6333mALED operated at 6333mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6334mALED operated at 6334mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6335mALED operated at 6335mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6336mALED operated at 6336mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6337mALED operated at 6337mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6338mALED operated at 6338mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6339mALED operated at 6339mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 633mALED operated at 633mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6340mALED operated at 6340mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6341mALED operated at 6341mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6342mALED operated at 6342mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6343mALED operated at 6343mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6344mALED operated at 6344mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6345mALED operated at 6345mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6346mALED operated at 6346mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6347mALED operated at 6347mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6348mALED operated at 6348mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6349mALED operated at 6349mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 634mALED operated at 634mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6350mALED operated at 6350mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6351mALED operated at 6351mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6352mALED operated at 6352mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6353mALED operated at 6353mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6354mALED operated at 6354mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6355mALED operated at 6355mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6356mALED operated at 6356mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6357mALED operated at 6357mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6358mALED operated at 6358mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6359mALED operated at 6359mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 635mALED operated at 635mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6360mALED operated at 6360mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6361mALED operated at 6361mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6362mALED operated at 6362mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6363mALED operated at 6363mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6364mALED operated at 6364mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6365mALED operated at 6365mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6366mALED operated at 6366mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6367mALED operated at 6367mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6368mALED operated at 6368mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6369mALED operated at 6369mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 636mALED operated at 636mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6370mALED operated at 6370mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6371mALED operated at 6371mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6372mALED operated at 6372mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6373mALED operated at 6373mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6374mALED operated at 6374mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6375mALED operated at 6375mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6376mALED operated at 6376mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6377mALED operated at 6377mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6378mALED operated at 6378mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6379mALED operated at 6379mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 637mALED operated at 637mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6380mALED operated at 6380mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6381mALED operated at 6381mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6382mALED operated at 6382mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6383mALED operated at 6383mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6384mALED operated at 6384mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6385mALED operated at 6385mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6386mALED operated at 6386mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6387mALED operated at 6387mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6388mALED operated at 6388mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6389mALED operated at 6389mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 638mALED operated at 638mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6390mALED operated at 6390mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6391mALED operated at 6391mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6392mALED operated at 6392mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6393mALED operated at 6393mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6394mALED operated at 6394mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6395mALED operated at 6395mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6396mALED operated at 6396mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6397mALED operated at 6397mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6398mALED operated at 6398mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6399mALED operated at 6399mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 639mALED operated at 639mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 63mALED operated at 63mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6400mALED operated at 6400mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6401mALED operated at 6401mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6402mALED operated at 6402mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6403mALED operated at 6403mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6404mALED operated at 6404mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6405mALED operated at 6405mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6406mALED operated at 6406mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6407mALED operated at 6407mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6408mALED operated at 6408mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6409mALED operated at 6409mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 640mALED operated at 640mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6410mALED operated at 6410mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6411mALED operated at 6411mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6412mALED operated at 6412mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6413mALED operated at 6413mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6414mALED operated at 6414mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6415mALED operated at 6415mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6416mALED operated at 6416mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6417mALED operated at 6417mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6418mALED operated at 6418mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6419mALED operated at 6419mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 641mALED operated at 641mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6420mALED operated at 6420mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6421mALED operated at 6421mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6422mALED operated at 6422mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6423mALED operated at 6423mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6424mALED operated at 6424mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6425mALED operated at 6425mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6426mALED operated at 6426mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6427mALED operated at 6427mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6428mALED operated at 6428mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6429mALED operated at 6429mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 642mALED operated at 642mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6430mALED operated at 6430mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6431mALED operated at 6431mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6432mALED operated at 6432mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6433mALED operated at 6433mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6434mALED operated at 6434mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6435mALED operated at 6435mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6436mALED operated at 6436mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6437mALED operated at 6437mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6438mALED operated at 6438mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6439mALED operated at 6439mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 643mALED operated at 643mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6440mALED operated at 6440mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6441mALED operated at 6441mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6442mALED operated at 6442mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6443mALED operated at 6443mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6444mALED operated at 6444mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6445mALED operated at 6445mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6446mALED operated at 6446mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6447mALED operated at 6447mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6448mALED operated at 6448mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6449mALED operated at 6449mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 644mALED operated at 644mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6450mALED operated at 6450mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6451mALED operated at 6451mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6452mALED operated at 6452mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6453mALED operated at 6453mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6454mALED operated at 6454mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6455mALED operated at 6455mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6456mALED operated at 6456mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6457mALED operated at 6457mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6458mALED operated at 6458mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6459mALED operated at 6459mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 645mALED operated at 645mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6460mALED operated at 6460mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6461mALED operated at 6461mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6462mALED operated at 6462mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6463mALED operated at 6463mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6464mALED operated at 6464mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6465mALED operated at 6465mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6466mALED operated at 6466mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6467mALED operated at 6467mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6468mALED operated at 6468mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6469mALED operated at 6469mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 646mALED operated at 646mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6470mALED operated at 6470mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6471mALED operated at 6471mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6472mALED operated at 6472mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6473mALED operated at 6473mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6474mALED operated at 6474mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6475mALED operated at 6475mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6476mALED operated at 6476mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6477mALED operated at 6477mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6478mALED operated at 6478mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6479mALED operated at 6479mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 647mALED operated at 647mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6480mALED operated at 6480mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6481mALED operated at 6481mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6482mALED operated at 6482mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6483mALED operated at 6483mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6484mALED operated at 6484mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6485mALED operated at 6485mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6486mALED operated at 6486mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6487mALED operated at 6487mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6488mALED operated at 6488mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6489mALED operated at 6489mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 648mALED operated at 648mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6490mALED operated at 6490mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6491mALED operated at 6491mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6492mALED operated at 6492mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6493mALED operated at 6493mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6494mALED operated at 6494mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6495mALED operated at 6495mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6496mALED operated at 6496mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6497mALED operated at 6497mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6498mALED operated at 6498mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6499mALED operated at 6499mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 649mALED operated at 649mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 64mALED operated at 64mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6500mALED operated at 6500mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6501mALED operated at 6501mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6502mALED operated at 6502mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6503mALED operated at 6503mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6504mALED operated at 6504mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6505mALED operated at 6505mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6506mALED operated at 6506mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6507mALED operated at 6507mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6508mALED operated at 6508mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6509mALED operated at 6509mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 650mALED operated at 650mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6510mALED operated at 6510mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6511mALED operated at 6511mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6512mALED operated at 6512mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6513mALED operated at 6513mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6514mALED operated at 6514mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6515mALED operated at 6515mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6516mALED operated at 6516mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6517mALED operated at 6517mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6518mALED operated at 6518mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6519mALED operated at 6519mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 651mALED operated at 651mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6520mALED operated at 6520mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6521mALED operated at 6521mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6522mALED operated at 6522mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6523mALED operated at 6523mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6524mALED operated at 6524mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6525mALED operated at 6525mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6526mALED operated at 6526mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6527mALED operated at 6527mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6528mALED operated at 6528mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6529mALED operated at 6529mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 652mALED operated at 652mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6530mALED operated at 6530mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6531mALED operated at 6531mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6532mALED operated at 6532mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6533mALED operated at 6533mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6534mALED operated at 6534mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6535mALED operated at 6535mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6536mALED operated at 6536mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6537mALED operated at 6537mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6538mALED operated at 6538mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6539mALED operated at 6539mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 653mALED operated at 653mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6540mALED operated at 6540mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6541mALED operated at 6541mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6542mALED operated at 6542mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6543mALED operated at 6543mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6544mALED operated at 6544mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6545mALED operated at 6545mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6546mALED operated at 6546mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6547mALED operated at 6547mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6548mALED operated at 6548mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6549mALED operated at 6549mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 654mALED operated at 654mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6550mALED operated at 6550mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6551mALED operated at 6551mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6552mALED operated at 6552mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6553mALED operated at 6553mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6554mALED operated at 6554mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6555mALED operated at 6555mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6556mALED operated at 6556mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6557mALED operated at 6557mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6558mALED operated at 6558mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6559mALED operated at 6559mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 655mALED operated at 655mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6560mALED operated at 6560mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6561mALED operated at 6561mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6562mALED operated at 6562mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6563mALED operated at 6563mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6564mALED operated at 6564mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6565mALED operated at 6565mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6566mALED operated at 6566mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6567mALED operated at 6567mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6568mALED operated at 6568mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6569mALED operated at 6569mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 656mALED operated at 656mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6570mALED operated at 6570mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6571mALED operated at 6571mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6572mALED operated at 6572mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6573mALED operated at 6573mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6574mALED operated at 6574mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6575mALED operated at 6575mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6576mALED operated at 6576mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6577mALED operated at 6577mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6578mALED operated at 6578mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6579mALED operated at 6579mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 657mALED operated at 657mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6580mALED operated at 6580mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6581mALED operated at 6581mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6582mALED operated at 6582mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6583mALED operated at 6583mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6584mALED operated at 6584mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6585mALED operated at 6585mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6586mALED operated at 6586mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6587mALED operated at 6587mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6588mALED operated at 6588mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6589mALED operated at 6589mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 658mALED operated at 658mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6590mALED operated at 6590mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6591mALED operated at 6591mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6592mALED operated at 6592mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6593mALED operated at 6593mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6594mALED operated at 6594mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6595mALED operated at 6595mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6596mALED operated at 6596mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6597mALED operated at 6597mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6598mALED operated at 6598mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6599mALED operated at 6599mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 659mALED operated at 659mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 65mALED operated at 65mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6600mALED operated at 6600mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6601mALED operated at 6601mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6602mALED operated at 6602mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6603mALED operated at 6603mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6604mALED operated at 6604mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6605mALED operated at 6605mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6606mALED operated at 6606mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6607mALED operated at 6607mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6608mALED operated at 6608mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6609mALED operated at 6609mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 660mALED operated at 660mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6610mALED operated at 6610mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6611mALED operated at 6611mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6612mALED operated at 6612mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6613mALED operated at 6613mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6614mALED operated at 6614mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6615mALED operated at 6615mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6616mALED operated at 6616mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6617mALED operated at 6617mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6618mALED operated at 6618mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6619mALED operated at 6619mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 661mALED operated at 661mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6620mALED operated at 6620mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6621mALED operated at 6621mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6622mALED operated at 6622mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6623mALED operated at 6623mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6624mALED operated at 6624mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6625mALED operated at 6625mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6626mALED operated at 6626mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6627mALED operated at 6627mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6628mALED operated at 6628mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6629mALED operated at 6629mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 662mALED operated at 662mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6630mALED operated at 6630mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6631mALED operated at 6631mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6632mALED operated at 6632mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6633mALED operated at 6633mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6634mALED operated at 6634mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6635mALED operated at 6635mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6636mALED operated at 6636mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6637mALED operated at 6637mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6638mALED operated at 6638mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6639mALED operated at 6639mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 663mALED operated at 663mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6640mALED operated at 6640mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6641mALED operated at 6641mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6642mALED operated at 6642mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6643mALED operated at 6643mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6644mALED operated at 6644mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6645mALED operated at 6645mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6646mALED operated at 6646mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6647mALED operated at 6647mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6648mALED operated at 6648mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6649mALED operated at 6649mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 664mALED operated at 664mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6650mALED operated at 6650mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6651mALED operated at 6651mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6652mALED operated at 6652mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6653mALED operated at 6653mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6654mALED operated at 6654mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6655mALED operated at 6655mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6656mALED operated at 6656mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6657mALED operated at 6657mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6658mALED operated at 6658mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6659mALED operated at 6659mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 665mALED operated at 665mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6660mALED operated at 6660mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6661mALED operated at 6661mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6662mALED operated at 6662mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6663mALED operated at 6663mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6664mALED operated at 6664mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6665mALED operated at 6665mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6666mALED operated at 6666mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6667mALED operated at 6667mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6668mALED operated at 6668mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6669mALED operated at 6669mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 666mALED operated at 666mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6670mALED operated at 6670mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6671mALED operated at 6671mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6672mALED operated at 6672mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6673mALED operated at 6673mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6674mALED operated at 6674mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6675mALED operated at 6675mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6676mALED operated at 6676mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6677mALED operated at 6677mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6678mALED operated at 6678mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6679mALED operated at 6679mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 667mALED operated at 667mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6680mALED operated at 6680mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6681mALED operated at 6681mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6682mALED operated at 6682mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6683mALED operated at 6683mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6684mALED operated at 6684mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6685mALED operated at 6685mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6686mALED operated at 6686mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6687mALED operated at 6687mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6688mALED operated at 6688mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6689mALED operated at 6689mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 668mALED operated at 668mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6690mALED operated at 6690mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6691mALED operated at 6691mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6692mALED operated at 6692mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6693mALED operated at 6693mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6694mALED operated at 6694mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6695mALED operated at 6695mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6696mALED operated at 6696mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6697mALED operated at 6697mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6698mALED operated at 6698mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6699mALED operated at 6699mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 669mALED operated at 669mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 66mALED operated at 66mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6700mALED operated at 6700mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6701mALED operated at 6701mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6702mALED operated at 6702mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6703mALED operated at 6703mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6704mALED operated at 6704mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6705mALED operated at 6705mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6706mALED operated at 6706mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6707mALED operated at 6707mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6708mALED operated at 6708mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6709mALED operated at 6709mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 670mALED operated at 670mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6710mALED operated at 6710mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6711mALED operated at 6711mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6712mALED operated at 6712mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6713mALED operated at 6713mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6714mALED operated at 6714mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6715mALED operated at 6715mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6716mALED operated at 6716mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6717mALED operated at 6717mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6718mALED operated at 6718mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6719mALED operated at 6719mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 671mALED operated at 671mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6720mALED operated at 6720mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6721mALED operated at 6721mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6722mALED operated at 6722mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6723mALED operated at 6723mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6724mALED operated at 6724mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6725mALED operated at 6725mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6726mALED operated at 6726mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6727mALED operated at 6727mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6728mALED operated at 6728mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6729mALED operated at 6729mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 672mALED operated at 672mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6730mALED operated at 6730mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6731mALED operated at 6731mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6732mALED operated at 6732mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6733mALED operated at 6733mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6734mALED operated at 6734mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6735mALED operated at 6735mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6736mALED operated at 6736mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6737mALED operated at 6737mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6738mALED operated at 6738mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6739mALED operated at 6739mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 673mALED operated at 673mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6740mALED operated at 6740mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6741mALED operated at 6741mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6742mALED operated at 6742mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6743mALED operated at 6743mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6744mALED operated at 6744mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6745mALED operated at 6745mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6746mALED operated at 6746mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6747mALED operated at 6747mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6748mALED operated at 6748mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6749mALED operated at 6749mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 674mALED operated at 674mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6750mALED operated at 6750mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6751mALED operated at 6751mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6752mALED operated at 6752mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6753mALED operated at 6753mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6754mALED operated at 6754mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6755mALED operated at 6755mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6756mALED operated at 6756mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6757mALED operated at 6757mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6758mALED operated at 6758mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6759mALED operated at 6759mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 675mALED operated at 675mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6760mALED operated at 6760mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6761mALED operated at 6761mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6762mALED operated at 6762mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6763mALED operated at 6763mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6764mALED operated at 6764mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6765mALED operated at 6765mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6766mALED operated at 6766mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6767mALED operated at 6767mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6768mALED operated at 6768mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6769mALED operated at 6769mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 676mALED operated at 676mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6770mALED operated at 6770mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6771mALED operated at 6771mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6772mALED operated at 6772mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6773mALED operated at 6773mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6774mALED operated at 6774mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6775mALED operated at 6775mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6776mALED operated at 6776mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6777mALED operated at 6777mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6778mALED operated at 6778mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6779mALED operated at 6779mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 677mALED operated at 677mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6780mALED operated at 6780mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6781mALED operated at 6781mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6782mALED operated at 6782mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6783mALED operated at 6783mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6784mALED operated at 6784mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6785mALED operated at 6785mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6786mALED operated at 6786mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6787mALED operated at 6787mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6788mALED operated at 6788mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6789mALED operated at 6789mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 678mALED operated at 678mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6790mALED operated at 6790mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6791mALED operated at 6791mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6792mALED operated at 6792mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6793mALED operated at 6793mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6794mALED operated at 6794mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6795mALED operated at 6795mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6796mALED operated at 6796mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6797mALED operated at 6797mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6798mALED operated at 6798mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6799mALED operated at 6799mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 679mALED operated at 679mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 67mALED operated at 67mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6800mALED operated at 6800mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6801mALED operated at 6801mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6802mALED operated at 6802mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6803mALED operated at 6803mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6804mALED operated at 6804mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6805mALED operated at 6805mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6806mALED operated at 6806mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6807mALED operated at 6807mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6808mALED operated at 6808mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6809mALED operated at 6809mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 680mALED operated at 680mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6810mALED operated at 6810mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6811mALED operated at 6811mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6812mALED operated at 6812mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6813mALED operated at 6813mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6814mALED operated at 6814mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6815mALED operated at 6815mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6816mALED operated at 6816mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6817mALED operated at 6817mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6818mALED operated at 6818mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6819mALED operated at 6819mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 681mALED operated at 681mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6820mALED operated at 6820mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6821mALED operated at 6821mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6822mALED operated at 6822mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6823mALED operated at 6823mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6824mALED operated at 6824mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6825mALED operated at 6825mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6826mALED operated at 6826mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6827mALED operated at 6827mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6828mALED operated at 6828mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6829mALED operated at 6829mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 682mALED operated at 682mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6830mALED operated at 6830mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6831mALED operated at 6831mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6832mALED operated at 6832mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6833mALED operated at 6833mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6834mALED operated at 6834mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6835mALED operated at 6835mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6836mALED operated at 6836mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6837mALED operated at 6837mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6838mALED operated at 6838mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6839mALED operated at 6839mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 683mALED operated at 683mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6840mALED operated at 6840mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6841mALED operated at 6841mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6842mALED operated at 6842mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6843mALED operated at 6843mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6844mALED operated at 6844mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6845mALED operated at 6845mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6846mALED operated at 6846mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6847mALED operated at 6847mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6848mALED operated at 6848mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6849mALED operated at 6849mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 684mALED operated at 684mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6850mALED operated at 6850mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6851mALED operated at 6851mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6852mALED operated at 6852mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6853mALED operated at 6853mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6854mALED operated at 6854mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6855mALED operated at 6855mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6856mALED operated at 6856mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6857mALED operated at 6857mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6858mALED operated at 6858mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6859mALED operated at 6859mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 685mALED operated at 685mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6860mALED operated at 6860mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6861mALED operated at 6861mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6862mALED operated at 6862mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6863mALED operated at 6863mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6864mALED operated at 6864mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6865mALED operated at 6865mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6866mALED operated at 6866mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6867mALED operated at 6867mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6868mALED operated at 6868mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6869mALED operated at 6869mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 686mALED operated at 686mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6870mALED operated at 6870mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6871mALED operated at 6871mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6872mALED operated at 6872mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6873mALED operated at 6873mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6874mALED operated at 6874mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6875mALED operated at 6875mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6876mALED operated at 6876mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6877mALED operated at 6877mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6878mALED operated at 6878mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6879mALED operated at 6879mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 687mALED operated at 687mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6880mALED operated at 6880mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6881mALED operated at 6881mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6882mALED operated at 6882mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6883mALED operated at 6883mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6884mALED operated at 6884mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6885mALED operated at 6885mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6886mALED operated at 6886mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6887mALED operated at 6887mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6888mALED operated at 6888mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6889mALED operated at 6889mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 688mALED operated at 688mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6890mALED operated at 6890mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6891mALED operated at 6891mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6892mALED operated at 6892mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6893mALED operated at 6893mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6894mALED operated at 6894mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6895mALED operated at 6895mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6896mALED operated at 6896mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6897mALED operated at 6897mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6898mALED operated at 6898mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6899mALED operated at 6899mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 689mALED operated at 689mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 68mALED operated at 68mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6900mALED operated at 6900mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6901mALED operated at 6901mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6902mALED operated at 6902mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6903mALED operated at 6903mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6904mALED operated at 6904mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6905mALED operated at 6905mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6906mALED operated at 6906mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6907mALED operated at 6907mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6908mALED operated at 6908mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6909mALED operated at 6909mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 690mALED operated at 690mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6910mALED operated at 6910mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6911mALED operated at 6911mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6912mALED operated at 6912mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6913mALED operated at 6913mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6914mALED operated at 6914mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6915mALED operated at 6915mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6916mALED operated at 6916mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6917mALED operated at 6917mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6918mALED operated at 6918mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6919mALED operated at 6919mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 691mALED operated at 691mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6920mALED operated at 6920mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6921mALED operated at 6921mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6922mALED operated at 6922mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6923mALED operated at 6923mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6924mALED operated at 6924mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6925mALED operated at 6925mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6926mALED operated at 6926mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6927mALED operated at 6927mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6928mALED operated at 6928mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6929mALED operated at 6929mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 692mALED operated at 692mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6930mALED operated at 6930mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6931mALED operated at 6931mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6932mALED operated at 6932mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6933mALED operated at 6933mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6934mALED operated at 6934mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6935mALED operated at 6935mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6936mALED operated at 6936mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6937mALED operated at 6937mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6938mALED operated at 6938mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6939mALED operated at 6939mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 693mALED operated at 693mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6940mALED operated at 6940mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6941mALED operated at 6941mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6942mALED operated at 6942mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6943mALED operated at 6943mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6944mALED operated at 6944mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6945mALED operated at 6945mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6946mALED operated at 6946mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6947mALED operated at 6947mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6948mALED operated at 6948mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6949mALED operated at 6949mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 694mALED operated at 694mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6950mALED operated at 6950mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6951mALED operated at 6951mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6952mALED operated at 6952mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6953mALED operated at 6953mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6954mALED operated at 6954mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6955mALED operated at 6955mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6956mALED operated at 6956mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6957mALED operated at 6957mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6958mALED operated at 6958mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6959mALED operated at 6959mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 695mALED operated at 695mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6960mALED operated at 6960mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6961mALED operated at 6961mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6962mALED operated at 6962mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6963mALED operated at 6963mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6964mALED operated at 6964mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6965mALED operated at 6965mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6966mALED operated at 6966mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6967mALED operated at 6967mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6968mALED operated at 6968mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6969mALED operated at 6969mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 696mALED operated at 696mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6970mALED operated at 6970mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6971mALED operated at 6971mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6972mALED operated at 6972mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6973mALED operated at 6973mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6974mALED operated at 6974mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6975mALED operated at 6975mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6976mALED operated at 6976mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6977mALED operated at 6977mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6978mALED operated at 6978mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6979mALED operated at 6979mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 697mALED operated at 697mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6980mALED operated at 6980mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6981mALED operated at 6981mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6982mALED operated at 6982mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6983mALED operated at 6983mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6984mALED operated at 6984mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6985mALED operated at 6985mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6986mALED operated at 6986mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6987mALED operated at 6987mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6988mALED operated at 6988mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6989mALED operated at 6989mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 698mALED operated at 698mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6990mALED operated at 6990mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6991mALED operated at 6991mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6992mALED operated at 6992mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6993mALED operated at 6993mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6994mALED operated at 6994mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6995mALED operated at 6995mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6996mALED operated at 6996mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6997mALED operated at 6997mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6998mALED operated at 6998mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6999mALED operated at 6999mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 699mALED operated at 699mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 69mALED operated at 69mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 6mALED operated at 6mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7000mALED operated at 7000mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7001mALED operated at 7001mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7002mALED operated at 7002mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7003mALED operated at 7003mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7004mALED operated at 7004mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7005mALED operated at 7005mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7006mALED operated at 7006mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7007mALED operated at 7007mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7008mALED operated at 7008mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7009mALED operated at 7009mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 700mALED operated at 700mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7010mALED operated at 7010mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7011mALED operated at 7011mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7012mALED operated at 7012mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7013mALED operated at 7013mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7014mALED operated at 7014mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7015mALED operated at 7015mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7016mALED operated at 7016mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7017mALED operated at 7017mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7018mALED operated at 7018mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7019mALED operated at 7019mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 701mALED operated at 701mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7020mALED operated at 7020mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7021mALED operated at 7021mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7022mALED operated at 7022mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7023mALED operated at 7023mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7024mALED operated at 7024mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7025mALED operated at 7025mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7026mALED operated at 7026mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7027mALED operated at 7027mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7028mALED operated at 7028mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7029mALED operated at 7029mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 702mALED operated at 702mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7030mALED operated at 7030mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7031mALED operated at 7031mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7032mALED operated at 7032mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7033mALED operated at 7033mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7034mALED operated at 7034mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7035mALED operated at 7035mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7036mALED operated at 7036mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7037mALED operated at 7037mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7038mALED operated at 7038mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7039mALED operated at 7039mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 703mALED operated at 703mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7040mALED operated at 7040mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7041mALED operated at 7041mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7042mALED operated at 7042mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7043mALED operated at 7043mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7044mALED operated at 7044mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7045mALED operated at 7045mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7046mALED operated at 7046mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7047mALED operated at 7047mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7048mALED operated at 7048mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7049mALED operated at 7049mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 704mALED operated at 704mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7050mALED operated at 7050mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7051mALED operated at 7051mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7052mALED operated at 7052mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7053mALED operated at 7053mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7054mALED operated at 7054mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7055mALED operated at 7055mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7056mALED operated at 7056mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7057mALED operated at 7057mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7058mALED operated at 7058mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7059mALED operated at 7059mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 705mALED operated at 705mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7060mALED operated at 7060mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7061mALED operated at 7061mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7062mALED operated at 7062mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7063mALED operated at 7063mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7064mALED operated at 7064mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7065mALED operated at 7065mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7066mALED operated at 7066mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7067mALED operated at 7067mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7068mALED operated at 7068mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7069mALED operated at 7069mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 706mALED operated at 706mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7070mALED operated at 7070mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7071mALED operated at 7071mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7072mALED operated at 7072mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7073mALED operated at 7073mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7074mALED operated at 7074mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7075mALED operated at 7075mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7076mALED operated at 7076mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7077mALED operated at 7077mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7078mALED operated at 7078mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7079mALED operated at 7079mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 707mALED operated at 707mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7080mALED operated at 7080mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7081mALED operated at 7081mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7082mALED operated at 7082mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7083mALED operated at 7083mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7084mALED operated at 7084mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7085mALED operated at 7085mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7086mALED operated at 7086mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7087mALED operated at 7087mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7088mALED operated at 7088mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7089mALED operated at 7089mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 708mALED operated at 708mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7090mALED operated at 7090mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7091mALED operated at 7091mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7092mALED operated at 7092mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7093mALED operated at 7093mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7094mALED operated at 7094mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7095mALED operated at 7095mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7096mALED operated at 7096mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7097mALED operated at 7097mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7098mALED operated at 7098mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7099mALED operated at 7099mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 709mALED operated at 709mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 70mALED operated at 70mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7100mALED operated at 7100mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7101mALED operated at 7101mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7102mALED operated at 7102mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7103mALED operated at 7103mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7104mALED operated at 7104mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7105mALED operated at 7105mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7106mALED operated at 7106mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7107mALED operated at 7107mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7108mALED operated at 7108mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7109mALED operated at 7109mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 710mALED operated at 710mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7110mALED operated at 7110mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7111mALED operated at 7111mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7112mALED operated at 7112mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7113mALED operated at 7113mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7114mALED operated at 7114mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7115mALED operated at 7115mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7116mALED operated at 7116mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7117mALED operated at 7117mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7118mALED operated at 7118mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7119mALED operated at 7119mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 711mALED operated at 711mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7120mALED operated at 7120mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7121mALED operated at 7121mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7122mALED operated at 7122mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7123mALED operated at 7123mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7124mALED operated at 7124mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7125mALED operated at 7125mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7126mALED operated at 7126mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7127mALED operated at 7127mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7128mALED operated at 7128mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7129mALED operated at 7129mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 712mALED operated at 712mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7130mALED operated at 7130mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7131mALED operated at 7131mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7132mALED operated at 7132mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7133mALED operated at 7133mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7134mALED operated at 7134mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7135mALED operated at 7135mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7136mALED operated at 7136mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7137mALED operated at 7137mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7138mALED operated at 7138mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7139mALED operated at 7139mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 713mALED operated at 713mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7140mALED operated at 7140mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7141mALED operated at 7141mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7142mALED operated at 7142mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7143mALED operated at 7143mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7144mALED operated at 7144mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7145mALED operated at 7145mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7146mALED operated at 7146mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7147mALED operated at 7147mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7148mALED operated at 7148mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7149mALED operated at 7149mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 714mALED operated at 714mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7150mALED operated at 7150mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7151mALED operated at 7151mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7152mALED operated at 7152mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7153mALED operated at 7153mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7154mALED operated at 7154mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7155mALED operated at 7155mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7156mALED operated at 7156mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7157mALED operated at 7157mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7158mALED operated at 7158mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7159mALED operated at 7159mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 715mALED operated at 715mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7160mALED operated at 7160mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7161mALED operated at 7161mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7162mALED operated at 7162mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7163mALED operated at 7163mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7164mALED operated at 7164mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7165mALED operated at 7165mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7166mALED operated at 7166mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7167mALED operated at 7167mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7168mALED operated at 7168mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7169mALED operated at 7169mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 716mALED operated at 716mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7170mALED operated at 7170mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7171mALED operated at 7171mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7172mALED operated at 7172mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7173mALED operated at 7173mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7174mALED operated at 7174mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7175mALED operated at 7175mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7176mALED operated at 7176mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7177mALED operated at 7177mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7178mALED operated at 7178mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7179mALED operated at 7179mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 717mALED operated at 717mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7180mALED operated at 7180mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7181mALED operated at 7181mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7182mALED operated at 7182mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7183mALED operated at 7183mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7184mALED operated at 7184mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7185mALED operated at 7185mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7186mALED operated at 7186mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7187mALED operated at 7187mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7188mALED operated at 7188mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7189mALED operated at 7189mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 718mALED operated at 718mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7190mALED operated at 7190mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7191mALED operated at 7191mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7192mALED operated at 7192mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7193mALED operated at 7193mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7194mALED operated at 7194mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7195mALED operated at 7195mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7196mALED operated at 7196mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7197mALED operated at 7197mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7198mALED operated at 7198mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7199mALED operated at 7199mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 719mALED operated at 719mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 71mALED operated at 71mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7200mALED operated at 7200mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7201mALED operated at 7201mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7202mALED operated at 7202mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7203mALED operated at 7203mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7204mALED operated at 7204mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7205mALED operated at 7205mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7206mALED operated at 7206mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7207mALED operated at 7207mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7208mALED operated at 7208mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7209mALED operated at 7209mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 720mALED operated at 720mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7210mALED operated at 7210mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7211mALED operated at 7211mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7212mALED operated at 7212mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7213mALED operated at 7213mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7214mALED operated at 7214mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7215mALED operated at 7215mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7216mALED operated at 7216mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7217mALED operated at 7217mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7218mALED operated at 7218mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7219mALED operated at 7219mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 721mALED operated at 721mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7220mALED operated at 7220mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7221mALED operated at 7221mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7222mALED operated at 7222mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7223mALED operated at 7223mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7224mALED operated at 7224mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7225mALED operated at 7225mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7226mALED operated at 7226mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7227mALED operated at 7227mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7228mALED operated at 7228mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7229mALED operated at 7229mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 722mALED operated at 722mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7230mALED operated at 7230mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7231mALED operated at 7231mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7232mALED operated at 7232mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7233mALED operated at 7233mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7234mALED operated at 7234mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7235mALED operated at 7235mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7236mALED operated at 7236mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7237mALED operated at 7237mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7238mALED operated at 7238mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7239mALED operated at 7239mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 723mALED operated at 723mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7240mALED operated at 7240mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7241mALED operated at 7241mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7242mALED operated at 7242mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7243mALED operated at 7243mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7244mALED operated at 7244mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7245mALED operated at 7245mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7246mALED operated at 7246mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7247mALED operated at 7247mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7248mALED operated at 7248mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7249mALED operated at 7249mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 724mALED operated at 724mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7250mALED operated at 7250mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7251mALED operated at 7251mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7252mALED operated at 7252mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7253mALED operated at 7253mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7254mALED operated at 7254mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7255mALED operated at 7255mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7256mALED operated at 7256mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7257mALED operated at 7257mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7258mALED operated at 7258mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7259mALED operated at 7259mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 725mALED operated at 725mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7260mALED operated at 7260mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7261mALED operated at 7261mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7262mALED operated at 7262mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7263mALED operated at 7263mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7264mALED operated at 7264mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7265mALED operated at 7265mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7266mALED operated at 7266mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7267mALED operated at 7267mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7268mALED operated at 7268mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7269mALED operated at 7269mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 726mALED operated at 726mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7270mALED operated at 7270mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7271mALED operated at 7271mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7272mALED operated at 7272mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7273mALED operated at 7273mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7274mALED operated at 7274mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7275mALED operated at 7275mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7276mALED operated at 7276mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7277mALED operated at 7277mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7278mALED operated at 7278mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7279mALED operated at 7279mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 727mALED operated at 727mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7280mALED operated at 7280mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7281mALED operated at 7281mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7282mALED operated at 7282mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7283mALED operated at 7283mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7284mALED operated at 7284mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7285mALED operated at 7285mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7286mALED operated at 7286mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7287mALED operated at 7287mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7288mALED operated at 7288mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7289mALED operated at 7289mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 728mALED operated at 728mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7290mALED operated at 7290mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7291mALED operated at 7291mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7292mALED operated at 7292mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7293mALED operated at 7293mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7294mALED operated at 7294mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7295mALED operated at 7295mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7296mALED operated at 7296mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7297mALED operated at 7297mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7298mALED operated at 7298mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7299mALED operated at 7299mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 729mALED operated at 729mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 72mALED operated at 72mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7300mALED operated at 7300mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7301mALED operated at 7301mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7302mALED operated at 7302mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7303mALED operated at 7303mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7304mALED operated at 7304mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7305mALED operated at 7305mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7306mALED operated at 7306mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7307mALED operated at 7307mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7308mALED operated at 7308mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7309mALED operated at 7309mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 730mALED operated at 730mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7310mALED operated at 7310mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7311mALED operated at 7311mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7312mALED operated at 7312mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7313mALED operated at 7313mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7314mALED operated at 7314mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7315mALED operated at 7315mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7316mALED operated at 7316mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7317mALED operated at 7317mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7318mALED operated at 7318mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7319mALED operated at 7319mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 731mALED operated at 731mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7320mALED operated at 7320mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7321mALED operated at 7321mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7322mALED operated at 7322mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7323mALED operated at 7323mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7324mALED operated at 7324mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7325mALED operated at 7325mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7326mALED operated at 7326mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7327mALED operated at 7327mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7328mALED operated at 7328mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7329mALED operated at 7329mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 732mALED operated at 732mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7330mALED operated at 7330mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7331mALED operated at 7331mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7332mALED operated at 7332mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7333mALED operated at 7333mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7334mALED operated at 7334mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7335mALED operated at 7335mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7336mALED operated at 7336mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7337mALED operated at 7337mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7338mALED operated at 7338mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7339mALED operated at 7339mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 733mALED operated at 733mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7340mALED operated at 7340mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7341mALED operated at 7341mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7342mALED operated at 7342mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7343mALED operated at 7343mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7344mALED operated at 7344mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7345mALED operated at 7345mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7346mALED operated at 7346mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7347mALED operated at 7347mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7348mALED operated at 7348mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7349mALED operated at 7349mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 734mALED operated at 734mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7350mALED operated at 7350mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7351mALED operated at 7351mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7352mALED operated at 7352mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7353mALED operated at 7353mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7354mALED operated at 7354mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7355mALED operated at 7355mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7356mALED operated at 7356mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7357mALED operated at 7357mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7358mALED operated at 7358mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7359mALED operated at 7359mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 735mALED operated at 735mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7360mALED operated at 7360mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7361mALED operated at 7361mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7362mALED operated at 7362mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7363mALED operated at 7363mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7364mALED operated at 7364mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7365mALED operated at 7365mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7366mALED operated at 7366mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7367mALED operated at 7367mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7368mALED operated at 7368mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7369mALED operated at 7369mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 736mALED operated at 736mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7370mALED operated at 7370mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7371mALED operated at 7371mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7372mALED operated at 7372mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7373mALED operated at 7373mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7374mALED operated at 7374mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7375mALED operated at 7375mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7376mALED operated at 7376mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7377mALED operated at 7377mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7378mALED operated at 7378mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7379mALED operated at 7379mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 737mALED operated at 737mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7380mALED operated at 7380mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7381mALED operated at 7381mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7382mALED operated at 7382mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7383mALED operated at 7383mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7384mALED operated at 7384mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7385mALED operated at 7385mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7386mALED operated at 7386mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7387mALED operated at 7387mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7388mALED operated at 7388mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7389mALED operated at 7389mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 738mALED operated at 738mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7390mALED operated at 7390mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7391mALED operated at 7391mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7392mALED operated at 7392mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7393mALED operated at 7393mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7394mALED operated at 7394mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7395mALED operated at 7395mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7396mALED operated at 7396mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7397mALED operated at 7397mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7398mALED operated at 7398mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7399mALED operated at 7399mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 739mALED operated at 739mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 73mALED operated at 73mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7400mALED operated at 7400mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7401mALED operated at 7401mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7402mALED operated at 7402mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7403mALED operated at 7403mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7404mALED operated at 7404mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7405mALED operated at 7405mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7406mALED operated at 7406mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7407mALED operated at 7407mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7408mALED operated at 7408mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7409mALED operated at 7409mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 740mALED operated at 740mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7410mALED operated at 7410mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7411mALED operated at 7411mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7412mALED operated at 7412mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7413mALED operated at 7413mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7414mALED operated at 7414mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7415mALED operated at 7415mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7416mALED operated at 7416mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7417mALED operated at 7417mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7418mALED operated at 7418mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7419mALED operated at 7419mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 741mALED operated at 741mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7420mALED operated at 7420mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7421mALED operated at 7421mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7422mALED operated at 7422mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7423mALED operated at 7423mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7424mALED operated at 7424mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7425mALED operated at 7425mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7426mALED operated at 7426mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7427mALED operated at 7427mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7428mALED operated at 7428mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7429mALED operated at 7429mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 742mALED operated at 742mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7430mALED operated at 7430mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7431mALED operated at 7431mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7432mALED operated at 7432mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7433mALED operated at 7433mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7434mALED operated at 7434mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7435mALED operated at 7435mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7436mALED operated at 7436mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7437mALED operated at 7437mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7438mALED operated at 7438mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7439mALED operated at 7439mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 743mALED operated at 743mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7440mALED operated at 7440mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7441mALED operated at 7441mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7442mALED operated at 7442mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7443mALED operated at 7443mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7444mALED operated at 7444mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7445mALED operated at 7445mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7446mALED operated at 7446mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7447mALED operated at 7447mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7448mALED operated at 7448mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7449mALED operated at 7449mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 744mALED operated at 744mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7450mALED operated at 7450mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7451mALED operated at 7451mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7452mALED operated at 7452mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7453mALED operated at 7453mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7454mALED operated at 7454mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7455mALED operated at 7455mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7456mALED operated at 7456mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7457mALED operated at 7457mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7458mALED operated at 7458mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7459mALED operated at 7459mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 745mALED operated at 745mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7460mALED operated at 7460mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7461mALED operated at 7461mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7462mALED operated at 7462mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7463mALED operated at 7463mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7464mALED operated at 7464mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7465mALED operated at 7465mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7466mALED operated at 7466mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7467mALED operated at 7467mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7468mALED operated at 7468mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7469mALED operated at 7469mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 746mALED operated at 746mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7470mALED operated at 7470mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7471mALED operated at 7471mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7472mALED operated at 7472mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7473mALED operated at 7473mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7474mALED operated at 7474mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7475mALED operated at 7475mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7476mALED operated at 7476mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7477mALED operated at 7477mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7478mALED operated at 7478mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7479mALED operated at 7479mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 747mALED operated at 747mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7480mALED operated at 7480mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7481mALED operated at 7481mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7482mALED operated at 7482mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7483mALED operated at 7483mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7484mALED operated at 7484mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7485mALED operated at 7485mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7486mALED operated at 7486mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7487mALED operated at 7487mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7488mALED operated at 7488mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7489mALED operated at 7489mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 748mALED operated at 748mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7490mALED operated at 7490mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7491mALED operated at 7491mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7492mALED operated at 7492mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7493mALED operated at 7493mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7494mALED operated at 7494mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7495mALED operated at 7495mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7496mALED operated at 7496mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7497mALED operated at 7497mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7498mALED operated at 7498mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7499mALED operated at 7499mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 749mALED operated at 749mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 74mALED operated at 74mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7500mALED operated at 7500mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7501mALED operated at 7501mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7502mALED operated at 7502mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7503mALED operated at 7503mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7504mALED operated at 7504mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7505mALED operated at 7505mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7506mALED operated at 7506mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7507mALED operated at 7507mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7508mALED operated at 7508mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7509mALED operated at 7509mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 750mALED operated at 750mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7510mALED operated at 7510mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7511mALED operated at 7511mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7512mALED operated at 7512mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7513mALED operated at 7513mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7514mALED operated at 7514mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7515mALED operated at 7515mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7516mALED operated at 7516mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7517mALED operated at 7517mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7518mALED operated at 7518mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7519mALED operated at 7519mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 751mALED operated at 751mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7520mALED operated at 7520mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7521mALED operated at 7521mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7522mALED operated at 7522mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7523mALED operated at 7523mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7524mALED operated at 7524mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7525mALED operated at 7525mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7526mALED operated at 7526mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7527mALED operated at 7527mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7528mALED operated at 7528mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7529mALED operated at 7529mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 752mALED operated at 752mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7530mALED operated at 7530mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7531mALED operated at 7531mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7532mALED operated at 7532mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7533mALED operated at 7533mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7534mALED operated at 7534mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7535mALED operated at 7535mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7536mALED operated at 7536mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7537mALED operated at 7537mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7538mALED operated at 7538mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7539mALED operated at 7539mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 753mALED operated at 753mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7540mALED operated at 7540mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7541mALED operated at 7541mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7542mALED operated at 7542mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7543mALED operated at 7543mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7544mALED operated at 7544mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7545mALED operated at 7545mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7546mALED operated at 7546mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7547mALED operated at 7547mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7548mALED operated at 7548mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7549mALED operated at 7549mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 754mALED operated at 754mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7550mALED operated at 7550mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7551mALED operated at 7551mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7552mALED operated at 7552mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7553mALED operated at 7553mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7554mALED operated at 7554mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7555mALED operated at 7555mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7556mALED operated at 7556mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7557mALED operated at 7557mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7558mALED operated at 7558mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7559mALED operated at 7559mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 755mALED operated at 755mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7560mALED operated at 7560mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7561mALED operated at 7561mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7562mALED operated at 7562mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7563mALED operated at 7563mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7564mALED operated at 7564mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7565mALED operated at 7565mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7566mALED operated at 7566mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7567mALED operated at 7567mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7568mALED operated at 7568mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7569mALED operated at 7569mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 756mALED operated at 756mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7570mALED operated at 7570mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7571mALED operated at 7571mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7572mALED operated at 7572mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7573mALED operated at 7573mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7574mALED operated at 7574mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7575mALED operated at 7575mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7576mALED operated at 7576mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7577mALED operated at 7577mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7578mALED operated at 7578mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7579mALED operated at 7579mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 757mALED operated at 757mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7580mALED operated at 7580mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7581mALED operated at 7581mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7582mALED operated at 7582mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7583mALED operated at 7583mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7584mALED operated at 7584mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7585mALED operated at 7585mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7586mALED operated at 7586mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7587mALED operated at 7587mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7588mALED operated at 7588mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7589mALED operated at 7589mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 758mALED operated at 758mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7590mALED operated at 7590mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7591mALED operated at 7591mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7592mALED operated at 7592mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7593mALED operated at 7593mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7594mALED operated at 7594mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7595mALED operated at 7595mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7596mALED operated at 7596mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7597mALED operated at 7597mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7598mALED operated at 7598mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7599mALED operated at 7599mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 759mALED operated at 759mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 75mALED operated at 75mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7600mALED operated at 7600mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7601mALED operated at 7601mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7602mALED operated at 7602mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7603mALED operated at 7603mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7604mALED operated at 7604mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7605mALED operated at 7605mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7606mALED operated at 7606mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7607mALED operated at 7607mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7608mALED operated at 7608mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7609mALED operated at 7609mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 760mALED operated at 760mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7610mALED operated at 7610mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7611mALED operated at 7611mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7612mALED operated at 7612mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7613mALED operated at 7613mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7614mALED operated at 7614mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7615mALED operated at 7615mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7616mALED operated at 7616mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7617mALED operated at 7617mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7618mALED operated at 7618mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7619mALED operated at 7619mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 761mALED operated at 761mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7620mALED operated at 7620mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7621mALED operated at 7621mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7622mALED operated at 7622mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7623mALED operated at 7623mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7624mALED operated at 7624mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7625mALED operated at 7625mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7626mALED operated at 7626mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7627mALED operated at 7627mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7628mALED operated at 7628mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7629mALED operated at 7629mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 762mALED operated at 762mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7630mALED operated at 7630mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7631mALED operated at 7631mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7632mALED operated at 7632mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7633mALED operated at 7633mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7634mALED operated at 7634mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7635mALED operated at 7635mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7636mALED operated at 7636mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7637mALED operated at 7637mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7638mALED operated at 7638mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7639mALED operated at 7639mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 763mALED operated at 763mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7640mALED operated at 7640mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7641mALED operated at 7641mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7642mALED operated at 7642mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7643mALED operated at 7643mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7644mALED operated at 7644mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7645mALED operated at 7645mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7646mALED operated at 7646mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7647mALED operated at 7647mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7648mALED operated at 7648mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7649mALED operated at 7649mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 764mALED operated at 764mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7650mALED operated at 7650mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7651mALED operated at 7651mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7652mALED operated at 7652mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7653mALED operated at 7653mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7654mALED operated at 7654mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7655mALED operated at 7655mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7656mALED operated at 7656mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7657mALED operated at 7657mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7658mALED operated at 7658mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7659mALED operated at 7659mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 765mALED operated at 765mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7660mALED operated at 7660mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7661mALED operated at 7661mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7662mALED operated at 7662mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7663mALED operated at 7663mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7664mALED operated at 7664mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7665mALED operated at 7665mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7666mALED operated at 7666mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7667mALED operated at 7667mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7668mALED operated at 7668mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7669mALED operated at 7669mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 766mALED operated at 766mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7670mALED operated at 7670mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7671mALED operated at 7671mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7672mALED operated at 7672mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7673mALED operated at 7673mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7674mALED operated at 7674mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7675mALED operated at 7675mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7676mALED operated at 7676mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7677mALED operated at 7677mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7678mALED operated at 7678mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7679mALED operated at 7679mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 767mALED operated at 767mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7680mALED operated at 7680mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7681mALED operated at 7681mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7682mALED operated at 7682mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7683mALED operated at 7683mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7684mALED operated at 7684mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7685mALED operated at 7685mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7686mALED operated at 7686mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7687mALED operated at 7687mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7688mALED operated at 7688mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7689mALED operated at 7689mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 768mALED operated at 768mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7690mALED operated at 7690mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7691mALED operated at 7691mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7692mALED operated at 7692mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7693mALED operated at 7693mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7694mALED operated at 7694mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7695mALED operated at 7695mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7696mALED operated at 7696mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7697mALED operated at 7697mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7698mALED operated at 7698mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7699mALED operated at 7699mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 769mALED operated at 769mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 76mALED operated at 76mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7700mALED operated at 7700mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7701mALED operated at 7701mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7702mALED operated at 7702mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7703mALED operated at 7703mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7704mALED operated at 7704mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7705mALED operated at 7705mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7706mALED operated at 7706mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7707mALED operated at 7707mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7708mALED operated at 7708mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7709mALED operated at 7709mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 770mALED operated at 770mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7710mALED operated at 7710mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7711mALED operated at 7711mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7712mALED operated at 7712mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7713mALED operated at 7713mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7714mALED operated at 7714mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7715mALED operated at 7715mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7716mALED operated at 7716mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7717mALED operated at 7717mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7718mALED operated at 7718mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7719mALED operated at 7719mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 771mALED operated at 771mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7720mALED operated at 7720mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7721mALED operated at 7721mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7722mALED operated at 7722mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7723mALED operated at 7723mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7724mALED operated at 7724mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7725mALED operated at 7725mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7726mALED operated at 7726mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7727mALED operated at 7727mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7728mALED operated at 7728mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7729mALED operated at 7729mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 772mALED operated at 772mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7730mALED operated at 7730mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7731mALED operated at 7731mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7732mALED operated at 7732mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7733mALED operated at 7733mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7734mALED operated at 7734mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7735mALED operated at 7735mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7736mALED operated at 7736mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7737mALED operated at 7737mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7738mALED operated at 7738mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7739mALED operated at 7739mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 773mALED operated at 773mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7740mALED operated at 7740mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7741mALED operated at 7741mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7742mALED operated at 7742mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7743mALED operated at 7743mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7744mALED operated at 7744mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7745mALED operated at 7745mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7746mALED operated at 7746mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7747mALED operated at 7747mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7748mALED operated at 7748mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7749mALED operated at 7749mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 774mALED operated at 774mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7750mALED operated at 7750mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7751mALED operated at 7751mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7752mALED operated at 7752mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7753mALED operated at 7753mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7754mALED operated at 7754mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7755mALED operated at 7755mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7756mALED operated at 7756mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7757mALED operated at 7757mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7758mALED operated at 7758mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7759mALED operated at 7759mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 775mALED operated at 775mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7760mALED operated at 7760mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7761mALED operated at 7761mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7762mALED operated at 7762mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7763mALED operated at 7763mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7764mALED operated at 7764mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7765mALED operated at 7765mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7766mALED operated at 7766mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7767mALED operated at 7767mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7768mALED operated at 7768mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7769mALED operated at 7769mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 776mALED operated at 776mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7770mALED operated at 7770mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7771mALED operated at 7771mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7772mALED operated at 7772mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7773mALED operated at 7773mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7774mALED operated at 7774mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7775mALED operated at 7775mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7776mALED operated at 7776mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7777mALED operated at 7777mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7778mALED operated at 7778mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7779mALED operated at 7779mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 777mALED operated at 777mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7780mALED operated at 7780mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7781mALED operated at 7781mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7782mALED operated at 7782mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7783mALED operated at 7783mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7784mALED operated at 7784mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7785mALED operated at 7785mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7786mALED operated at 7786mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7787mALED operated at 7787mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7788mALED operated at 7788mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7789mALED operated at 7789mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 778mALED operated at 778mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7790mALED operated at 7790mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7791mALED operated at 7791mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7792mALED operated at 7792mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7793mALED operated at 7793mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7794mALED operated at 7794mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7795mALED operated at 7795mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7796mALED operated at 7796mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7797mALED operated at 7797mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7798mALED operated at 7798mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7799mALED operated at 7799mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 779mALED operated at 779mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 77mALED operated at 77mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7800mALED operated at 7800mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7801mALED operated at 7801mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7802mALED operated at 7802mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7803mALED operated at 7803mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7804mALED operated at 7804mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7805mALED operated at 7805mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7806mALED operated at 7806mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7807mALED operated at 7807mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7808mALED operated at 7808mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7809mALED operated at 7809mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 780mALED operated at 780mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7810mALED operated at 7810mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7811mALED operated at 7811mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7812mALED operated at 7812mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7813mALED operated at 7813mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7814mALED operated at 7814mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7815mALED operated at 7815mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7816mALED operated at 7816mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7817mALED operated at 7817mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7818mALED operated at 7818mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7819mALED operated at 7819mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 781mALED operated at 781mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7820mALED operated at 7820mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7821mALED operated at 7821mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7822mALED operated at 7822mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7823mALED operated at 7823mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7824mALED operated at 7824mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7825mALED operated at 7825mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7826mALED operated at 7826mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7827mALED operated at 7827mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7828mALED operated at 7828mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7829mALED operated at 7829mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 782mALED operated at 782mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7830mALED operated at 7830mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7831mALED operated at 7831mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7832mALED operated at 7832mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7833mALED operated at 7833mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7834mALED operated at 7834mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7835mALED operated at 7835mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7836mALED operated at 7836mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7837mALED operated at 7837mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7838mALED operated at 7838mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7839mALED operated at 7839mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 783mALED operated at 783mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7840mALED operated at 7840mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7841mALED operated at 7841mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7842mALED operated at 7842mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7843mALED operated at 7843mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7844mALED operated at 7844mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7845mALED operated at 7845mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7846mALED operated at 7846mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7847mALED operated at 7847mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7848mALED operated at 7848mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7849mALED operated at 7849mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 784mALED operated at 784mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7850mALED operated at 7850mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7851mALED operated at 7851mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7852mALED operated at 7852mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7853mALED operated at 7853mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7854mALED operated at 7854mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7855mALED operated at 7855mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7856mALED operated at 7856mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7857mALED operated at 7857mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7858mALED operated at 7858mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7859mALED operated at 7859mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 785mALED operated at 785mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7860mALED operated at 7860mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7861mALED operated at 7861mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7862mALED operated at 7862mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7863mALED operated at 7863mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7864mALED operated at 7864mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7865mALED operated at 7865mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7866mALED operated at 7866mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7867mALED operated at 7867mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7868mALED operated at 7868mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7869mALED operated at 7869mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 786mALED operated at 786mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7870mALED operated at 7870mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7871mALED operated at 7871mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7872mALED operated at 7872mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7873mALED operated at 7873mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7874mALED operated at 7874mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7875mALED operated at 7875mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7876mALED operated at 7876mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7877mALED operated at 7877mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7878mALED operated at 7878mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7879mALED operated at 7879mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 787mALED operated at 787mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7880mALED operated at 7880mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7881mALED operated at 7881mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7882mALED operated at 7882mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7883mALED operated at 7883mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7884mALED operated at 7884mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7885mALED operated at 7885mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7886mALED operated at 7886mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7887mALED operated at 7887mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7888mALED operated at 7888mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7889mALED operated at 7889mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 788mALED operated at 788mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7890mALED operated at 7890mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7891mALED operated at 7891mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7892mALED operated at 7892mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7893mALED operated at 7893mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7894mALED operated at 7894mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7895mALED operated at 7895mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7896mALED operated at 7896mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7897mALED operated at 7897mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7898mALED operated at 7898mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7899mALED operated at 7899mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 789mALED operated at 789mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 78mALED operated at 78mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7900mALED operated at 7900mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7901mALED operated at 7901mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7902mALED operated at 7902mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7903mALED operated at 7903mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7904mALED operated at 7904mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7905mALED operated at 7905mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7906mALED operated at 7906mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7907mALED operated at 7907mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7908mALED operated at 7908mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7909mALED operated at 7909mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 790mALED operated at 790mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7910mALED operated at 7910mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7911mALED operated at 7911mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7912mALED operated at 7912mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7913mALED operated at 7913mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7914mALED operated at 7914mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7915mALED operated at 7915mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7916mALED operated at 7916mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7917mALED operated at 7917mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7918mALED operated at 7918mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7919mALED operated at 7919mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 791mALED operated at 791mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7920mALED operated at 7920mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7921mALED operated at 7921mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7922mALED operated at 7922mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7923mALED operated at 7923mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7924mALED operated at 7924mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7925mALED operated at 7925mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7926mALED operated at 7926mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7927mALED operated at 7927mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7928mALED operated at 7928mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7929mALED operated at 7929mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 792mALED operated at 792mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7930mALED operated at 7930mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7931mALED operated at 7931mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7932mALED operated at 7932mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7933mALED operated at 7933mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7934mALED operated at 7934mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7935mALED operated at 7935mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7936mALED operated at 7936mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7937mALED operated at 7937mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7938mALED operated at 7938mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7939mALED operated at 7939mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 793mALED operated at 793mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7940mALED operated at 7940mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7941mALED operated at 7941mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7942mALED operated at 7942mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7943mALED operated at 7943mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7944mALED operated at 7944mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7945mALED operated at 7945mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7946mALED operated at 7946mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7947mALED operated at 7947mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7948mALED operated at 7948mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7949mALED operated at 7949mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 794mALED operated at 794mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7950mALED operated at 7950mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7951mALED operated at 7951mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7952mALED operated at 7952mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7953mALED operated at 7953mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7954mALED operated at 7954mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7955mALED operated at 7955mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7956mALED operated at 7956mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7957mALED operated at 7957mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7958mALED operated at 7958mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7959mALED operated at 7959mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 795mALED operated at 795mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7960mALED operated at 7960mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7961mALED operated at 7961mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7962mALED operated at 7962mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7963mALED operated at 7963mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7964mALED operated at 7964mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7965mALED operated at 7965mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7966mALED operated at 7966mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7967mALED operated at 7967mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7968mALED operated at 7968mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7969mALED operated at 7969mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 796mALED operated at 796mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7970mALED operated at 7970mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7971mALED operated at 7971mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7972mALED operated at 7972mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7973mALED operated at 7973mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7974mALED operated at 7974mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7975mALED operated at 7975mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7976mALED operated at 7976mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7977mALED operated at 7977mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7978mALED operated at 7978mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7979mALED operated at 7979mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 797mALED operated at 797mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7980mALED operated at 7980mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7981mALED operated at 7981mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7982mALED operated at 7982mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7983mALED operated at 7983mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7984mALED operated at 7984mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7985mALED operated at 7985mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7986mALED operated at 7986mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7987mALED operated at 7987mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7988mALED operated at 7988mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7989mALED operated at 7989mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 798mALED operated at 798mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7990mALED operated at 7990mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7991mALED operated at 7991mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7992mALED operated at 7992mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7993mALED operated at 7993mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7994mALED operated at 7994mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7995mALED operated at 7995mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7996mALED operated at 7996mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7997mALED operated at 7997mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7998mALED operated at 7998mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7999mALED operated at 7999mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 799mALED operated at 799mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 79mALED operated at 79mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 7mALED operated at 7mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8000mALED operated at 8000mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8001mALED operated at 8001mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8002mALED operated at 8002mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8003mALED operated at 8003mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8004mALED operated at 8004mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8005mALED operated at 8005mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8006mALED operated at 8006mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8007mALED operated at 8007mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8008mALED operated at 8008mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8009mALED operated at 8009mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 800mALED operated at 800mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8010mALED operated at 8010mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8011mALED operated at 8011mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8012mALED operated at 8012mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8013mALED operated at 8013mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8014mALED operated at 8014mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8015mALED operated at 8015mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8016mALED operated at 8016mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8017mALED operated at 8017mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8018mALED operated at 8018mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8019mALED operated at 8019mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 801mALED operated at 801mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8020mALED operated at 8020mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8021mALED operated at 8021mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8022mALED operated at 8022mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8023mALED operated at 8023mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8024mALED operated at 8024mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8025mALED operated at 8025mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8026mALED operated at 8026mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8027mALED operated at 8027mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8028mALED operated at 8028mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8029mALED operated at 8029mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 802mALED operated at 802mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8030mALED operated at 8030mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8031mALED operated at 8031mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8032mALED operated at 8032mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8033mALED operated at 8033mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8034mALED operated at 8034mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8035mALED operated at 8035mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8036mALED operated at 8036mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8037mALED operated at 8037mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8038mALED operated at 8038mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8039mALED operated at 8039mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 803mALED operated at 803mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8040mALED operated at 8040mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8041mALED operated at 8041mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8042mALED operated at 8042mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8043mALED operated at 8043mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8044mALED operated at 8044mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8045mALED operated at 8045mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8046mALED operated at 8046mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8047mALED operated at 8047mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8048mALED operated at 8048mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8049mALED operated at 8049mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 804mALED operated at 804mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8050mALED operated at 8050mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8051mALED operated at 8051mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8052mALED operated at 8052mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8053mALED operated at 8053mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8054mALED operated at 8054mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8055mALED operated at 8055mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8056mALED operated at 8056mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8057mALED operated at 8057mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8058mALED operated at 8058mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8059mALED operated at 8059mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 805mALED operated at 805mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8060mALED operated at 8060mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8061mALED operated at 8061mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8062mALED operated at 8062mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8063mALED operated at 8063mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8064mALED operated at 8064mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8065mALED operated at 8065mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8066mALED operated at 8066mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8067mALED operated at 8067mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8068mALED operated at 8068mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8069mALED operated at 8069mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 806mALED operated at 806mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8070mALED operated at 8070mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8071mALED operated at 8071mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8072mALED operated at 8072mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8073mALED operated at 8073mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8074mALED operated at 8074mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8075mALED operated at 8075mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8076mALED operated at 8076mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8077mALED operated at 8077mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8078mALED operated at 8078mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8079mALED operated at 8079mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 807mALED operated at 807mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8080mALED operated at 8080mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8081mALED operated at 8081mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8082mALED operated at 8082mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8083mALED operated at 8083mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8084mALED operated at 8084mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8085mALED operated at 8085mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8086mALED operated at 8086mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8087mALED operated at 8087mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8088mALED operated at 8088mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8089mALED operated at 8089mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 808mALED operated at 808mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8090mALED operated at 8090mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8091mALED operated at 8091mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8092mALED operated at 8092mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8093mALED operated at 8093mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8094mALED operated at 8094mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8095mALED operated at 8095mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8096mALED operated at 8096mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8097mALED operated at 8097mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8098mALED operated at 8098mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8099mALED operated at 8099mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 809mALED operated at 809mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 80mALED operated at 80mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8100mALED operated at 8100mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8101mALED operated at 8101mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8102mALED operated at 8102mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8103mALED operated at 8103mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8104mALED operated at 8104mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8105mALED operated at 8105mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8106mALED operated at 8106mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8107mALED operated at 8107mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8108mALED operated at 8108mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8109mALED operated at 8109mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 810mALED operated at 810mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8110mALED operated at 8110mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8111mALED operated at 8111mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8112mALED operated at 8112mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8113mALED operated at 8113mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8114mALED operated at 8114mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8115mALED operated at 8115mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8116mALED operated at 8116mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8117mALED operated at 8117mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8118mALED operated at 8118mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8119mALED operated at 8119mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 811mALED operated at 811mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8120mALED operated at 8120mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8121mALED operated at 8121mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8122mALED operated at 8122mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8123mALED operated at 8123mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8124mALED operated at 8124mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8125mALED operated at 8125mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8126mALED operated at 8126mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8127mALED operated at 8127mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8128mALED operated at 8128mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8129mALED operated at 8129mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 812mALED operated at 812mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8130mALED operated at 8130mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8131mALED operated at 8131mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8132mALED operated at 8132mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8133mALED operated at 8133mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8134mALED operated at 8134mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8135mALED operated at 8135mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8136mALED operated at 8136mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8137mALED operated at 8137mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8138mALED operated at 8138mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8139mALED operated at 8139mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 813mALED operated at 813mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8140mALED operated at 8140mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8141mALED operated at 8141mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8142mALED operated at 8142mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8143mALED operated at 8143mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8144mALED operated at 8144mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8145mALED operated at 8145mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8146mALED operated at 8146mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8147mALED operated at 8147mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8148mALED operated at 8148mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8149mALED operated at 8149mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 814mALED operated at 814mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8150mALED operated at 8150mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8151mALED operated at 8151mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8152mALED operated at 8152mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8153mALED operated at 8153mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8154mALED operated at 8154mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8155mALED operated at 8155mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8156mALED operated at 8156mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8157mALED operated at 8157mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8158mALED operated at 8158mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8159mALED operated at 8159mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 815mALED operated at 815mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8160mALED operated at 8160mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8161mALED operated at 8161mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8162mALED operated at 8162mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8163mALED operated at 8163mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8164mALED operated at 8164mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8165mALED operated at 8165mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8166mALED operated at 8166mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8167mALED operated at 8167mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8168mALED operated at 8168mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8169mALED operated at 8169mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 816mALED operated at 816mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8170mALED operated at 8170mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8171mALED operated at 8171mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8172mALED operated at 8172mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8173mALED operated at 8173mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8174mALED operated at 8174mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8175mALED operated at 8175mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8176mALED operated at 8176mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8177mALED operated at 8177mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8178mALED operated at 8178mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8179mALED operated at 8179mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 817mALED operated at 817mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8180mALED operated at 8180mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8181mALED operated at 8181mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8182mALED operated at 8182mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8183mALED operated at 8183mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8184mALED operated at 8184mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8185mALED operated at 8185mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8186mALED operated at 8186mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8187mALED operated at 8187mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8188mALED operated at 8188mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8189mALED operated at 8189mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 818mALED operated at 818mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8190mALED operated at 8190mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8191mALED operated at 8191mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8192mALED operated at 8192mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8193mALED operated at 8193mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8194mALED operated at 8194mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8195mALED operated at 8195mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8196mALED operated at 8196mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8197mALED operated at 8197mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8198mALED operated at 8198mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8199mALED operated at 8199mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 819mALED operated at 819mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 81mALED operated at 81mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8200mALED operated at 8200mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8201mALED operated at 8201mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8202mALED operated at 8202mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8203mALED operated at 8203mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8204mALED operated at 8204mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8205mALED operated at 8205mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8206mALED operated at 8206mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8207mALED operated at 8207mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8208mALED operated at 8208mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8209mALED operated at 8209mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 820mALED operated at 820mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8210mALED operated at 8210mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8211mALED operated at 8211mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8212mALED operated at 8212mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8213mALED operated at 8213mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8214mALED operated at 8214mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8215mALED operated at 8215mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8216mALED operated at 8216mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8217mALED operated at 8217mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8218mALED operated at 8218mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8219mALED operated at 8219mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 821mALED operated at 821mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8220mALED operated at 8220mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8221mALED operated at 8221mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8222mALED operated at 8222mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8223mALED operated at 8223mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8224mALED operated at 8224mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8225mALED operated at 8225mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8226mALED operated at 8226mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8227mALED operated at 8227mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8228mALED operated at 8228mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8229mALED operated at 8229mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 822mALED operated at 822mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8230mALED operated at 8230mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8231mALED operated at 8231mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8232mALED operated at 8232mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8233mALED operated at 8233mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8234mALED operated at 8234mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8235mALED operated at 8235mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8236mALED operated at 8236mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8237mALED operated at 8237mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8238mALED operated at 8238mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8239mALED operated at 8239mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 823mALED operated at 823mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8240mALED operated at 8240mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8241mALED operated at 8241mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8242mALED operated at 8242mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8243mALED operated at 8243mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8244mALED operated at 8244mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8245mALED operated at 8245mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8246mALED operated at 8246mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8247mALED operated at 8247mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8248mALED operated at 8248mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8249mALED operated at 8249mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 824mALED operated at 824mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8250mALED operated at 8250mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8251mALED operated at 8251mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8252mALED operated at 8252mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8253mALED operated at 8253mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8254mALED operated at 8254mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8255mALED operated at 8255mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8256mALED operated at 8256mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8257mALED operated at 8257mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8258mALED operated at 8258mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8259mALED operated at 8259mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 825mALED operated at 825mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8260mALED operated at 8260mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8261mALED operated at 8261mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8262mALED operated at 8262mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8263mALED operated at 8263mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8264mALED operated at 8264mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8265mALED operated at 8265mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8266mALED operated at 8266mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8267mALED operated at 8267mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8268mALED operated at 8268mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8269mALED operated at 8269mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 826mALED operated at 826mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8270mALED operated at 8270mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8271mALED operated at 8271mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8272mALED operated at 8272mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8273mALED operated at 8273mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8274mALED operated at 8274mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8275mALED operated at 8275mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8276mALED operated at 8276mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8277mALED operated at 8277mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8278mALED operated at 8278mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8279mALED operated at 8279mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 827mALED operated at 827mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8280mALED operated at 8280mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8281mALED operated at 8281mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8282mALED operated at 8282mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8283mALED operated at 8283mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8284mALED operated at 8284mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8285mALED operated at 8285mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8286mALED operated at 8286mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8287mALED operated at 8287mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8288mALED operated at 8288mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8289mALED operated at 8289mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 828mALED operated at 828mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8290mALED operated at 8290mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8291mALED operated at 8291mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8292mALED operated at 8292mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8293mALED operated at 8293mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8294mALED operated at 8294mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8295mALED operated at 8295mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8296mALED operated at 8296mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8297mALED operated at 8297mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8298mALED operated at 8298mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8299mALED operated at 8299mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 829mALED operated at 829mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 82mALED operated at 82mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8300mALED operated at 8300mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8301mALED operated at 8301mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8302mALED operated at 8302mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8303mALED operated at 8303mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8304mALED operated at 8304mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8305mALED operated at 8305mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8306mALED operated at 8306mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8307mALED operated at 8307mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8308mALED operated at 8308mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8309mALED operated at 8309mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 830mALED operated at 830mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8310mALED operated at 8310mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8311mALED operated at 8311mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8312mALED operated at 8312mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8313mALED operated at 8313mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8314mALED operated at 8314mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8315mALED operated at 8315mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8316mALED operated at 8316mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8317mALED operated at 8317mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8318mALED operated at 8318mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8319mALED operated at 8319mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 831mALED operated at 831mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8320mALED operated at 8320mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8321mALED operated at 8321mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8322mALED operated at 8322mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8323mALED operated at 8323mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8324mALED operated at 8324mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8325mALED operated at 8325mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8326mALED operated at 8326mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8327mALED operated at 8327mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8328mALED operated at 8328mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8329mALED operated at 8329mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 832mALED operated at 832mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8330mALED operated at 8330mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8331mALED operated at 8331mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8332mALED operated at 8332mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8333mALED operated at 8333mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8334mALED operated at 8334mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8335mALED operated at 8335mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8336mALED operated at 8336mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8337mALED operated at 8337mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8338mALED operated at 8338mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8339mALED operated at 8339mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 833mALED operated at 833mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8340mALED operated at 8340mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8341mALED operated at 8341mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8342mALED operated at 8342mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8343mALED operated at 8343mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8344mALED operated at 8344mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8345mALED operated at 8345mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8346mALED operated at 8346mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8347mALED operated at 8347mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8348mALED operated at 8348mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8349mALED operated at 8349mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 834mALED operated at 834mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8350mALED operated at 8350mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8351mALED operated at 8351mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8352mALED operated at 8352mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8353mALED operated at 8353mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8354mALED operated at 8354mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8355mALED operated at 8355mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8356mALED operated at 8356mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8357mALED operated at 8357mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8358mALED operated at 8358mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8359mALED operated at 8359mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 835mALED operated at 835mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8360mALED operated at 8360mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8361mALED operated at 8361mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8362mALED operated at 8362mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8363mALED operated at 8363mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8364mALED operated at 8364mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8365mALED operated at 8365mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8366mALED operated at 8366mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8367mALED operated at 8367mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8368mALED operated at 8368mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8369mALED operated at 8369mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 836mALED operated at 836mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8370mALED operated at 8370mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8371mALED operated at 8371mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8372mALED operated at 8372mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8373mALED operated at 8373mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8374mALED operated at 8374mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8375mALED operated at 8375mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8376mALED operated at 8376mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8377mALED operated at 8377mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8378mALED operated at 8378mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8379mALED operated at 8379mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 837mALED operated at 837mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8380mALED operated at 8380mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8381mALED operated at 8381mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8382mALED operated at 8382mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8383mALED operated at 8383mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8384mALED operated at 8384mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8385mALED operated at 8385mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8386mALED operated at 8386mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8387mALED operated at 8387mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8388mALED operated at 8388mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8389mALED operated at 8389mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 838mALED operated at 838mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8390mALED operated at 8390mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8391mALED operated at 8391mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8392mALED operated at 8392mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8393mALED operated at 8393mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8394mALED operated at 8394mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8395mALED operated at 8395mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8396mALED operated at 8396mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8397mALED operated at 8397mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8398mALED operated at 8398mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8399mALED operated at 8399mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 839mALED operated at 839mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 83mALED operated at 83mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8400mALED operated at 8400mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8401mALED operated at 8401mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8402mALED operated at 8402mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8403mALED operated at 8403mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8404mALED operated at 8404mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8405mALED operated at 8405mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8406mALED operated at 8406mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8407mALED operated at 8407mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8408mALED operated at 8408mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8409mALED operated at 8409mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 840mALED operated at 840mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8410mALED operated at 8410mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8411mALED operated at 8411mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8412mALED operated at 8412mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8413mALED operated at 8413mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8414mALED operated at 8414mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8415mALED operated at 8415mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8416mALED operated at 8416mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8417mALED operated at 8417mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8418mALED operated at 8418mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8419mALED operated at 8419mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 841mALED operated at 841mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8420mALED operated at 8420mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8421mALED operated at 8421mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8422mALED operated at 8422mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8423mALED operated at 8423mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8424mALED operated at 8424mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8425mALED operated at 8425mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8426mALED operated at 8426mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8427mALED operated at 8427mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8428mALED operated at 8428mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8429mALED operated at 8429mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 842mALED operated at 842mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8430mALED operated at 8430mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8431mALED operated at 8431mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8432mALED operated at 8432mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8433mALED operated at 8433mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8434mALED operated at 8434mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8435mALED operated at 8435mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8436mALED operated at 8436mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8437mALED operated at 8437mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8438mALED operated at 8438mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8439mALED operated at 8439mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 843mALED operated at 843mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8440mALED operated at 8440mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8441mALED operated at 8441mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8442mALED operated at 8442mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8443mALED operated at 8443mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8444mALED operated at 8444mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8445mALED operated at 8445mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8446mALED operated at 8446mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8447mALED operated at 8447mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8448mALED operated at 8448mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8449mALED operated at 8449mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 844mALED operated at 844mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8450mALED operated at 8450mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8451mALED operated at 8451mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8452mALED operated at 8452mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8453mALED operated at 8453mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8454mALED operated at 8454mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8455mALED operated at 8455mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8456mALED operated at 8456mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8457mALED operated at 8457mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8458mALED operated at 8458mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8459mALED operated at 8459mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 845mALED operated at 845mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8460mALED operated at 8460mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8461mALED operated at 8461mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8462mALED operated at 8462mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8463mALED operated at 8463mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8464mALED operated at 8464mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8465mALED operated at 8465mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8466mALED operated at 8466mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8467mALED operated at 8467mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8468mALED operated at 8468mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8469mALED operated at 8469mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 846mALED operated at 846mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8470mALED operated at 8470mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8471mALED operated at 8471mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8472mALED operated at 8472mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8473mALED operated at 8473mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8474mALED operated at 8474mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8475mALED operated at 8475mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8476mALED operated at 8476mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8477mALED operated at 8477mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8478mALED operated at 8478mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8479mALED operated at 8479mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 847mALED operated at 847mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8480mALED operated at 8480mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8481mALED operated at 8481mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8482mALED operated at 8482mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8483mALED operated at 8483mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8484mALED operated at 8484mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8485mALED operated at 8485mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8486mALED operated at 8486mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8487mALED operated at 8487mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8488mALED operated at 8488mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8489mALED operated at 8489mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 848mALED operated at 848mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8490mALED operated at 8490mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8491mALED operated at 8491mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8492mALED operated at 8492mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8493mALED operated at 8493mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8494mALED operated at 8494mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8495mALED operated at 8495mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8496mALED operated at 8496mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8497mALED operated at 8497mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8498mALED operated at 8498mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8499mALED operated at 8499mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 849mALED operated at 849mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 84mALED operated at 84mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8500mALED operated at 8500mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8501mALED operated at 8501mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8502mALED operated at 8502mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8503mALED operated at 8503mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8504mALED operated at 8504mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8505mALED operated at 8505mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8506mALED operated at 8506mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8507mALED operated at 8507mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8508mALED operated at 8508mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8509mALED operated at 8509mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 850mALED operated at 850mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8510mALED operated at 8510mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8511mALED operated at 8511mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8512mALED operated at 8512mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8513mALED operated at 8513mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8514mALED operated at 8514mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8515mALED operated at 8515mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8516mALED operated at 8516mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8517mALED operated at 8517mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8518mALED operated at 8518mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8519mALED operated at 8519mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 851mALED operated at 851mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8520mALED operated at 8520mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8521mALED operated at 8521mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8522mALED operated at 8522mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8523mALED operated at 8523mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8524mALED operated at 8524mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8525mALED operated at 8525mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8526mALED operated at 8526mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8527mALED operated at 8527mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8528mALED operated at 8528mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8529mALED operated at 8529mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 852mALED operated at 852mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8530mALED operated at 8530mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8531mALED operated at 8531mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8532mALED operated at 8532mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8533mALED operated at 8533mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8534mALED operated at 8534mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8535mALED operated at 8535mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8536mALED operated at 8536mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8537mALED operated at 8537mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8538mALED operated at 8538mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8539mALED operated at 8539mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 853mALED operated at 853mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8540mALED operated at 8540mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8541mALED operated at 8541mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8542mALED operated at 8542mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8543mALED operated at 8543mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8544mALED operated at 8544mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8545mALED operated at 8545mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8546mALED operated at 8546mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8547mALED operated at 8547mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8548mALED operated at 8548mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8549mALED operated at 8549mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 854mALED operated at 854mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8550mALED operated at 8550mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8551mALED operated at 8551mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8552mALED operated at 8552mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8553mALED operated at 8553mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8554mALED operated at 8554mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8555mALED operated at 8555mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8556mALED operated at 8556mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8557mALED operated at 8557mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8558mALED operated at 8558mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8559mALED operated at 8559mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 855mALED operated at 855mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8560mALED operated at 8560mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8561mALED operated at 8561mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8562mALED operated at 8562mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8563mALED operated at 8563mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8564mALED operated at 8564mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8565mALED operated at 8565mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8566mALED operated at 8566mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8567mALED operated at 8567mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8568mALED operated at 8568mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8569mALED operated at 8569mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 856mALED operated at 856mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8570mALED operated at 8570mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8571mALED operated at 8571mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8572mALED operated at 8572mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8573mALED operated at 8573mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8574mALED operated at 8574mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8575mALED operated at 8575mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8576mALED operated at 8576mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8577mALED operated at 8577mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8578mALED operated at 8578mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8579mALED operated at 8579mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 857mALED operated at 857mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8580mALED operated at 8580mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8581mALED operated at 8581mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8582mALED operated at 8582mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8583mALED operated at 8583mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8584mALED operated at 8584mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8585mALED operated at 8585mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8586mALED operated at 8586mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8587mALED operated at 8587mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8588mALED operated at 8588mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8589mALED operated at 8589mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 858mALED operated at 858mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8590mALED operated at 8590mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8591mALED operated at 8591mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8592mALED operated at 8592mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8593mALED operated at 8593mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8594mALED operated at 8594mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8595mALED operated at 8595mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8596mALED operated at 8596mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8597mALED operated at 8597mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8598mALED operated at 8598mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8599mALED operated at 8599mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 859mALED operated at 859mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 85mALED operated at 85mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8600mALED operated at 8600mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8601mALED operated at 8601mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8602mALED operated at 8602mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8603mALED operated at 8603mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8604mALED operated at 8604mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8605mALED operated at 8605mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8606mALED operated at 8606mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8607mALED operated at 8607mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8608mALED operated at 8608mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8609mALED operated at 8609mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 860mALED operated at 860mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8610mALED operated at 8610mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8611mALED operated at 8611mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8612mALED operated at 8612mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8613mALED operated at 8613mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8614mALED operated at 8614mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8615mALED operated at 8615mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8616mALED operated at 8616mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8617mALED operated at 8617mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8618mALED operated at 8618mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8619mALED operated at 8619mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 861mALED operated at 861mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8620mALED operated at 8620mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8621mALED operated at 8621mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8622mALED operated at 8622mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8623mALED operated at 8623mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8624mALED operated at 8624mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8625mALED operated at 8625mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8626mALED operated at 8626mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8627mALED operated at 8627mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8628mALED operated at 8628mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8629mALED operated at 8629mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 862mALED operated at 862mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8630mALED operated at 8630mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8631mALED operated at 8631mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8632mALED operated at 8632mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8633mALED operated at 8633mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8634mALED operated at 8634mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8635mALED operated at 8635mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8636mALED operated at 8636mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8637mALED operated at 8637mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8638mALED operated at 8638mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8639mALED operated at 8639mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 863mALED operated at 863mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8640mALED operated at 8640mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8641mALED operated at 8641mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8642mALED operated at 8642mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8643mALED operated at 8643mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8644mALED operated at 8644mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8645mALED operated at 8645mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8646mALED operated at 8646mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8647mALED operated at 8647mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8648mALED operated at 8648mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8649mALED operated at 8649mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 864mALED operated at 864mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8650mALED operated at 8650mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8651mALED operated at 8651mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8652mALED operated at 8652mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8653mALED operated at 8653mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8654mALED operated at 8654mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8655mALED operated at 8655mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8656mALED operated at 8656mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8657mALED operated at 8657mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8658mALED operated at 8658mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8659mALED operated at 8659mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 865mALED operated at 865mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8660mALED operated at 8660mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8661mALED operated at 8661mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8662mALED operated at 8662mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8663mALED operated at 8663mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8664mALED operated at 8664mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8665mALED operated at 8665mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8666mALED operated at 8666mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8667mALED operated at 8667mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8668mALED operated at 8668mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8669mALED operated at 8669mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 866mALED operated at 866mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8670mALED operated at 8670mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8671mALED operated at 8671mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8672mALED operated at 8672mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8673mALED operated at 8673mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8674mALED operated at 8674mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8675mALED operated at 8675mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8676mALED operated at 8676mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8677mALED operated at 8677mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8678mALED operated at 8678mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8679mALED operated at 8679mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 867mALED operated at 867mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8680mALED operated at 8680mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8681mALED operated at 8681mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8682mALED operated at 8682mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8683mALED operated at 8683mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8684mALED operated at 8684mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8685mALED operated at 8685mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8686mALED operated at 8686mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8687mALED operated at 8687mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8688mALED operated at 8688mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8689mALED operated at 8689mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 868mALED operated at 868mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8690mALED operated at 8690mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8691mALED operated at 8691mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8692mALED operated at 8692mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8693mALED operated at 8693mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8694mALED operated at 8694mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8695mALED operated at 8695mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8696mALED operated at 8696mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8697mALED operated at 8697mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8698mALED operated at 8698mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8699mALED operated at 8699mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 869mALED operated at 869mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 86mALED operated at 86mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8700mALED operated at 8700mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8701mALED operated at 8701mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8702mALED operated at 8702mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8703mALED operated at 8703mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8704mALED operated at 8704mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8705mALED operated at 8705mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8706mALED operated at 8706mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8707mALED operated at 8707mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8708mALED operated at 8708mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8709mALED operated at 8709mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 870mALED operated at 870mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8710mALED operated at 8710mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8711mALED operated at 8711mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8712mALED operated at 8712mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8713mALED operated at 8713mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8714mALED operated at 8714mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8715mALED operated at 8715mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8716mALED operated at 8716mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8717mALED operated at 8717mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8718mALED operated at 8718mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8719mALED operated at 8719mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 871mALED operated at 871mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8720mALED operated at 8720mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8721mALED operated at 8721mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8722mALED operated at 8722mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8723mALED operated at 8723mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8724mALED operated at 8724mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8725mALED operated at 8725mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8726mALED operated at 8726mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8727mALED operated at 8727mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8728mALED operated at 8728mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8729mALED operated at 8729mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 872mALED operated at 872mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8730mALED operated at 8730mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8731mALED operated at 8731mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8732mALED operated at 8732mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8733mALED operated at 8733mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8734mALED operated at 8734mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8735mALED operated at 8735mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8736mALED operated at 8736mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8737mALED operated at 8737mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8738mALED operated at 8738mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8739mALED operated at 8739mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 873mALED operated at 873mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8740mALED operated at 8740mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8741mALED operated at 8741mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8742mALED operated at 8742mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8743mALED operated at 8743mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8744mALED operated at 8744mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8745mALED operated at 8745mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8746mALED operated at 8746mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8747mALED operated at 8747mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8748mALED operated at 8748mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8749mALED operated at 8749mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 874mALED operated at 874mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8750mALED operated at 8750mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8751mALED operated at 8751mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8752mALED operated at 8752mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8753mALED operated at 8753mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8754mALED operated at 8754mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8755mALED operated at 8755mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8756mALED operated at 8756mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8757mALED operated at 8757mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8758mALED operated at 8758mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8759mALED operated at 8759mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 875mALED operated at 875mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8760mALED operated at 8760mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8761mALED operated at 8761mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8762mALED operated at 8762mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8763mALED operated at 8763mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8764mALED operated at 8764mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8765mALED operated at 8765mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8766mALED operated at 8766mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8767mALED operated at 8767mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8768mALED operated at 8768mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8769mALED operated at 8769mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 876mALED operated at 876mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8770mALED operated at 8770mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8771mALED operated at 8771mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8772mALED operated at 8772mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8773mALED operated at 8773mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8774mALED operated at 8774mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8775mALED operated at 8775mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8776mALED operated at 8776mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8777mALED operated at 8777mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8778mALED operated at 8778mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8779mALED operated at 8779mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 877mALED operated at 877mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8780mALED operated at 8780mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8781mALED operated at 8781mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8782mALED operated at 8782mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8783mALED operated at 8783mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8784mALED operated at 8784mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8785mALED operated at 8785mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8786mALED operated at 8786mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8787mALED operated at 8787mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8788mALED operated at 8788mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8789mALED operated at 8789mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 878mALED operated at 878mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8790mALED operated at 8790mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8791mALED operated at 8791mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8792mALED operated at 8792mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8793mALED operated at 8793mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8794mALED operated at 8794mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8795mALED operated at 8795mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8796mALED operated at 8796mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8797mALED operated at 8797mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8798mALED operated at 8798mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8799mALED operated at 8799mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 879mALED operated at 879mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 87mALED operated at 87mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8800mALED operated at 8800mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8801mALED operated at 8801mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8802mALED operated at 8802mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8803mALED operated at 8803mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8804mALED operated at 8804mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8805mALED operated at 8805mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8806mALED operated at 8806mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8807mALED operated at 8807mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8808mALED operated at 8808mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8809mALED operated at 8809mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 880mALED operated at 880mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8810mALED operated at 8810mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8811mALED operated at 8811mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8812mALED operated at 8812mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8813mALED operated at 8813mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8814mALED operated at 8814mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8815mALED operated at 8815mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8816mALED operated at 8816mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8817mALED operated at 8817mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8818mALED operated at 8818mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8819mALED operated at 8819mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 881mALED operated at 881mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8820mALED operated at 8820mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8821mALED operated at 8821mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8822mALED operated at 8822mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8823mALED operated at 8823mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8824mALED operated at 8824mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8825mALED operated at 8825mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8826mALED operated at 8826mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8827mALED operated at 8827mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8828mALED operated at 8828mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8829mALED operated at 8829mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 882mALED operated at 882mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8830mALED operated at 8830mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8831mALED operated at 8831mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8832mALED operated at 8832mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8833mALED operated at 8833mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8834mALED operated at 8834mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8835mALED operated at 8835mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8836mALED operated at 8836mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8837mALED operated at 8837mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8838mALED operated at 8838mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8839mALED operated at 8839mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 883mALED operated at 883mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8840mALED operated at 8840mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8841mALED operated at 8841mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8842mALED operated at 8842mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8843mALED operated at 8843mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8844mALED operated at 8844mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8845mALED operated at 8845mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8846mALED operated at 8846mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8847mALED operated at 8847mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8848mALED operated at 8848mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8849mALED operated at 8849mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 884mALED operated at 884mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8850mALED operated at 8850mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8851mALED operated at 8851mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8852mALED operated at 8852mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8853mALED operated at 8853mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8854mALED operated at 8854mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8855mALED operated at 8855mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8856mALED operated at 8856mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8857mALED operated at 8857mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8858mALED operated at 8858mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8859mALED operated at 8859mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 885mALED operated at 885mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8860mALED operated at 8860mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8861mALED operated at 8861mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8862mALED operated at 8862mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8863mALED operated at 8863mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8864mALED operated at 8864mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8865mALED operated at 8865mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8866mALED operated at 8866mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8867mALED operated at 8867mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8868mALED operated at 8868mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8869mALED operated at 8869mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 886mALED operated at 886mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8870mALED operated at 8870mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8871mALED operated at 8871mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8872mALED operated at 8872mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8873mALED operated at 8873mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8874mALED operated at 8874mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8875mALED operated at 8875mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8876mALED operated at 8876mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8877mALED operated at 8877mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8878mALED operated at 8878mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8879mALED operated at 8879mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 887mALED operated at 887mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8880mALED operated at 8880mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8881mALED operated at 8881mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8882mALED operated at 8882mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8883mALED operated at 8883mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8884mALED operated at 8884mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8885mALED operated at 8885mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8886mALED operated at 8886mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8887mALED operated at 8887mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8888mALED operated at 8888mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8889mALED operated at 8889mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 888mALED operated at 888mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8890mALED operated at 8890mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8891mALED operated at 8891mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8892mALED operated at 8892mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8893mALED operated at 8893mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8894mALED operated at 8894mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8895mALED operated at 8895mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8896mALED operated at 8896mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8897mALED operated at 8897mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8898mALED operated at 8898mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8899mALED operated at 8899mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 889mALED operated at 889mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 88mALED operated at 88mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8900mALED operated at 8900mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8901mALED operated at 8901mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8902mALED operated at 8902mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8903mALED operated at 8903mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8904mALED operated at 8904mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8905mALED operated at 8905mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8906mALED operated at 8906mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8907mALED operated at 8907mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8908mALED operated at 8908mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8909mALED operated at 8909mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 890mALED operated at 890mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8910mALED operated at 8910mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8911mALED operated at 8911mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8912mALED operated at 8912mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8913mALED operated at 8913mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8914mALED operated at 8914mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8915mALED operated at 8915mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8916mALED operated at 8916mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8917mALED operated at 8917mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8918mALED operated at 8918mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8919mALED operated at 8919mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 891mALED operated at 891mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8920mALED operated at 8920mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8921mALED operated at 8921mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8922mALED operated at 8922mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8923mALED operated at 8923mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8924mALED operated at 8924mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8925mALED operated at 8925mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8926mALED operated at 8926mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8927mALED operated at 8927mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8928mALED operated at 8928mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8929mALED operated at 8929mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 892mALED operated at 892mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8930mALED operated at 8930mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8931mALED operated at 8931mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8932mALED operated at 8932mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8933mALED operated at 8933mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8934mALED operated at 8934mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8935mALED operated at 8935mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8936mALED operated at 8936mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8937mALED operated at 8937mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8938mALED operated at 8938mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8939mALED operated at 8939mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 893mALED operated at 893mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8940mALED operated at 8940mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8941mALED operated at 8941mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8942mALED operated at 8942mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8943mALED operated at 8943mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8944mALED operated at 8944mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8945mALED operated at 8945mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8946mALED operated at 8946mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8947mALED operated at 8947mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8948mALED operated at 8948mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8949mALED operated at 8949mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 894mALED operated at 894mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8950mALED operated at 8950mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8951mALED operated at 8951mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8952mALED operated at 8952mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8953mALED operated at 8953mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8954mALED operated at 8954mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8955mALED operated at 8955mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8956mALED operated at 8956mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8957mALED operated at 8957mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8958mALED operated at 8958mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8959mALED operated at 8959mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 895mALED operated at 895mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8960mALED operated at 8960mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8961mALED operated at 8961mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8962mALED operated at 8962mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8963mALED operated at 8963mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8964mALED operated at 8964mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8965mALED operated at 8965mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8966mALED operated at 8966mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8967mALED operated at 8967mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8968mALED operated at 8968mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8969mALED operated at 8969mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 896mALED operated at 896mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8970mALED operated at 8970mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8971mALED operated at 8971mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8972mALED operated at 8972mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8973mALED operated at 8973mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8974mALED operated at 8974mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8975mALED operated at 8975mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8976mALED operated at 8976mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8977mALED operated at 8977mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8978mALED operated at 8978mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8979mALED operated at 8979mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 897mALED operated at 897mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8980mALED operated at 8980mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8981mALED operated at 8981mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8982mALED operated at 8982mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8983mALED operated at 8983mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8984mALED operated at 8984mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8985mALED operated at 8985mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8986mALED operated at 8986mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8987mALED operated at 8987mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8988mALED operated at 8988mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8989mALED operated at 8989mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 898mALED operated at 898mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8990mALED operated at 8990mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8991mALED operated at 8991mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8992mALED operated at 8992mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8993mALED operated at 8993mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8994mALED operated at 8994mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8995mALED operated at 8995mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8996mALED operated at 8996mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8997mALED operated at 8997mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8998mALED operated at 8998mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8999mALED operated at 8999mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 899mALED operated at 899mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 89mALED operated at 89mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 8mALED operated at 8mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9000mALED operated at 9000mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9001mALED operated at 9001mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9002mALED operated at 9002mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9003mALED operated at 9003mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9004mALED operated at 9004mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9005mALED operated at 9005mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9006mALED operated at 9006mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9007mALED operated at 9007mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9008mALED operated at 9008mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9009mALED operated at 9009mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 900mALED operated at 900mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9010mALED operated at 9010mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9011mALED operated at 9011mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9012mALED operated at 9012mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9013mALED operated at 9013mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9014mALED operated at 9014mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9015mALED operated at 9015mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9016mALED operated at 9016mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9017mALED operated at 9017mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9018mALED operated at 9018mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9019mALED operated at 9019mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 901mALED operated at 901mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9020mALED operated at 9020mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9021mALED operated at 9021mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9022mALED operated at 9022mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9023mALED operated at 9023mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9024mALED operated at 9024mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9025mALED operated at 9025mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9026mALED operated at 9026mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9027mALED operated at 9027mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9028mALED operated at 9028mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9029mALED operated at 9029mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 902mALED operated at 902mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9030mALED operated at 9030mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9031mALED operated at 9031mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9032mALED operated at 9032mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9033mALED operated at 9033mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9034mALED operated at 9034mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9035mALED operated at 9035mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9036mALED operated at 9036mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9037mALED operated at 9037mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9038mALED operated at 9038mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9039mALED operated at 9039mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 903mALED operated at 903mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 904mALED operated at 904mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 905mALED operated at 905mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 906mALED operated at 906mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 907mALED operated at 907mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 908mALED operated at 908mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 909mALED operated at 909mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 90mALED operated at 90mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 910mALED operated at 910mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 911mALED operated at 911mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 912mALED operated at 912mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 913mALED operated at 913mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 914mALED operated at 914mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 915mALED operated at 915mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 916mALED operated at 916mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 917mALED operated at 917mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 918mALED operated at 918mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 919mALED operated at 919mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 91mALED operated at 91mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 920mALED operated at 920mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 921mALED operated at 921mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 922mALED operated at 922mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 923mALED operated at 923mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 924mALED operated at 924mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 925mALED operated at 925mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 926mALED operated at 926mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 927mALED operated at 927mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 928mALED operated at 928mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 929mALED operated at 929mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 92mALED operated at 92mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 930mALED operated at 930mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 931mALED operated at 931mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 932mALED operated at 932mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 933mALED operated at 933mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 934mALED operated at 934mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 935mALED operated at 935mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 936mALED operated at 936mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 937mALED operated at 937mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 938mALED operated at 938mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 939mALED operated at 939mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 93mALED operated at 93mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 940mALED operated at 940mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 941mALED operated at 941mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 942mALED operated at 942mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 943mALED operated at 943mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 944mALED operated at 944mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 945mALED operated at 945mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 946mALED operated at 946mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 947mALED operated at 947mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 948mALED operated at 948mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 949mALED operated at 949mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 94mALED operated at 94mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 950mALED operated at 950mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 951mALED operated at 951mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 952mALED operated at 952mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 953mALED operated at 953mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 954mALED operated at 954mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 955mALED operated at 955mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 956mALED operated at 956mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 957mALED operated at 957mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 958mALED operated at 958mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 959mALED operated at 959mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 95mALED operated at 95mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 960mALED operated at 960mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 961mALED operated at 961mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 962mALED operated at 962mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 963mALED operated at 963mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 964mALED operated at 964mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 965mALED operated at 965mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 966mALED operated at 966mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 967mALED operated at 967mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 968mALED operated at 968mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 969mALED operated at 969mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 96mALED operated at 96mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 970mALED operated at 970mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 971mALED operated at 971mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 972mALED operated at 972mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 973mALED operated at 973mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 974mALED operated at 974mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 975mALED operated at 975mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 976mALED operated at 976mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 977mALED operated at 977mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 978mALED operated at 978mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 979mALED operated at 979mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 97mALED operated at 97mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 980mALED operated at 980mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 981mALED operated at 981mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 982mALED operated at 982mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 983mALED operated at 983mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 984mALED operated at 984mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 985mALED operated at 985mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 986mALED operated at 986mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 987mALED operated at 987mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 988mALED operated at 988mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 989mALED operated at 989mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 98mALED operated at 98mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 990mALED operated at 990mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 991mALED operated at 991mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 992mALED operated at 992mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 993mALED operated at 993mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 994mALED operated at 994mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 995mALED operated at 995mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 996mALED operated at 996mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 997mALED operated at 997mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 998mALED operated at 998mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 999mALED operated at 999mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 99mALED operated at 99mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED current 9mALED operated at 9mA forward current. Drive current determines luminous flux, efficacy and junction temperature; exceeding the maximum rated value accelerates phosphor degradation and shortens useful life exponentially.
LED driver 100WElectronic LED power supply rated at 100 watts maximum output.
LED driver 101WElectronic LED power supply rated at 101 watts maximum output.
LED driver 102WElectronic LED power supply rated at 102 watts maximum output.
LED driver 103WElectronic LED power supply rated at 103 watts maximum output.
LED driver 104WElectronic LED power supply rated at 104 watts maximum output.
LED driver 105WElectronic LED power supply rated at 105 watts maximum output.
LED driver 106WElectronic LED power supply rated at 106 watts maximum output.
LED driver 107WElectronic LED power supply rated at 107 watts maximum output.
LED driver 108WElectronic LED power supply rated at 108 watts maximum output.
LED driver 109WElectronic LED power supply rated at 109 watts maximum output.
LED driver 10WElectronic LED power supply rated at 10 watts maximum output.
LED driver 110WElectronic LED power supply rated at 110 watts maximum output.
LED driver 111WElectronic LED power supply rated at 111 watts maximum output.
LED driver 112WElectronic LED power supply rated at 112 watts maximum output.
LED driver 113WElectronic LED power supply rated at 113 watts maximum output.
LED driver 114WElectronic LED power supply rated at 114 watts maximum output.
LED driver 115WElectronic LED power supply rated at 115 watts maximum output.
LED driver 116WElectronic LED power supply rated at 116 watts maximum output.
LED driver 117WElectronic LED power supply rated at 117 watts maximum output.
LED driver 118WElectronic LED power supply rated at 118 watts maximum output.
LED driver 119WElectronic LED power supply rated at 119 watts maximum output.
LED driver 11WElectronic LED power supply rated at 11 watts maximum output.
LED driver 120WElectronic LED power supply rated at 120 watts maximum output.
LED driver 121WElectronic LED power supply rated at 121 watts maximum output.
LED driver 122WElectronic LED power supply rated at 122 watts maximum output.
LED driver 123WElectronic LED power supply rated at 123 watts maximum output.
LED driver 124WElectronic LED power supply rated at 124 watts maximum output.
LED driver 125WElectronic LED power supply rated at 125 watts maximum output.
LED driver 126WElectronic LED power supply rated at 126 watts maximum output.
LED driver 127WElectronic LED power supply rated at 127 watts maximum output.
LED driver 128WElectronic LED power supply rated at 128 watts maximum output.
LED driver 129WElectronic LED power supply rated at 129 watts maximum output.
LED driver 12WElectronic LED power supply rated at 12 watts maximum output.
LED driver 130WElectronic LED power supply rated at 130 watts maximum output.
LED driver 131WElectronic LED power supply rated at 131 watts maximum output.
LED driver 132WElectronic LED power supply rated at 132 watts maximum output.
LED driver 133WElectronic LED power supply rated at 133 watts maximum output.
LED driver 134WElectronic LED power supply rated at 134 watts maximum output.
LED driver 135WElectronic LED power supply rated at 135 watts maximum output.
LED driver 136WElectronic LED power supply rated at 136 watts maximum output.
LED driver 137WElectronic LED power supply rated at 137 watts maximum output.
LED driver 138WElectronic LED power supply rated at 138 watts maximum output.
LED driver 139WElectronic LED power supply rated at 139 watts maximum output.
LED driver 13WElectronic LED power supply rated at 13 watts maximum output.
LED driver 140WElectronic LED power supply rated at 140 watts maximum output.
LED driver 141WElectronic LED power supply rated at 141 watts maximum output.
LED driver 142WElectronic LED power supply rated at 142 watts maximum output.
LED driver 143WElectronic LED power supply rated at 143 watts maximum output.
LED driver 144WElectronic LED power supply rated at 144 watts maximum output.
LED driver 145WElectronic LED power supply rated at 145 watts maximum output.
LED driver 146WElectronic LED power supply rated at 146 watts maximum output.
LED driver 147WElectronic LED power supply rated at 147 watts maximum output.
LED driver 148WElectronic LED power supply rated at 148 watts maximum output.
LED driver 149WElectronic LED power supply rated at 149 watts maximum output.
LED driver 14WElectronic LED power supply rated at 14 watts maximum output.
LED driver 150WElectronic LED power supply rated at 150 watts maximum output.
LED driver 151WElectronic LED power supply rated at 151 watts maximum output.
LED driver 152WElectronic LED power supply rated at 152 watts maximum output.
LED driver 153WElectronic LED power supply rated at 153 watts maximum output.
LED driver 154WElectronic LED power supply rated at 154 watts maximum output.
LED driver 155WElectronic LED power supply rated at 155 watts maximum output.
LED driver 156WElectronic LED power supply rated at 156 watts maximum output.
LED driver 157WElectronic LED power supply rated at 157 watts maximum output.
LED driver 158WElectronic LED power supply rated at 158 watts maximum output.
LED driver 159WElectronic LED power supply rated at 159 watts maximum output.
LED driver 15WElectronic LED power supply rated at 15 watts maximum output.
LED driver 160WElectronic LED power supply rated at 160 watts maximum output.
LED driver 161WElectronic LED power supply rated at 161 watts maximum output.
LED driver 162WElectronic LED power supply rated at 162 watts maximum output.
LED driver 163WElectronic LED power supply rated at 163 watts maximum output.
LED driver 164WElectronic LED power supply rated at 164 watts maximum output.
LED driver 165WElectronic LED power supply rated at 165 watts maximum output.
LED driver 166WElectronic LED power supply rated at 166 watts maximum output.
LED driver 167WElectronic LED power supply rated at 167 watts maximum output.
LED driver 168WElectronic LED power supply rated at 168 watts maximum output.
LED driver 169WElectronic LED power supply rated at 169 watts maximum output.
LED driver 16WElectronic LED power supply rated at 16 watts maximum output.
LED driver 170WElectronic LED power supply rated at 170 watts maximum output.
LED driver 171WElectronic LED power supply rated at 171 watts maximum output.
LED driver 172WElectronic LED power supply rated at 172 watts maximum output.
LED driver 173WElectronic LED power supply rated at 173 watts maximum output.
LED driver 174WElectronic LED power supply rated at 174 watts maximum output.
LED driver 175WElectronic LED power supply rated at 175 watts maximum output.
LED driver 176WElectronic LED power supply rated at 176 watts maximum output.
LED driver 177WElectronic LED power supply rated at 177 watts maximum output.
LED driver 178WElectronic LED power supply rated at 178 watts maximum output.
LED driver 179WElectronic LED power supply rated at 179 watts maximum output.
LED driver 17WElectronic LED power supply rated at 17 watts maximum output.
LED driver 180WElectronic LED power supply rated at 180 watts maximum output.
LED driver 181WElectronic LED power supply rated at 181 watts maximum output.
LED driver 182WElectronic LED power supply rated at 182 watts maximum output.
LED driver 183WElectronic LED power supply rated at 183 watts maximum output.
LED driver 184WElectronic LED power supply rated at 184 watts maximum output.
LED driver 185WElectronic LED power supply rated at 185 watts maximum output.
LED driver 186WElectronic LED power supply rated at 186 watts maximum output.
LED driver 187WElectronic LED power supply rated at 187 watts maximum output.
LED driver 188WElectronic LED power supply rated at 188 watts maximum output.
LED driver 189WElectronic LED power supply rated at 189 watts maximum output.
LED driver 18WElectronic LED power supply rated at 18 watts maximum output.
LED driver 190WElectronic LED power supply rated at 190 watts maximum output.
LED driver 191WElectronic LED power supply rated at 191 watts maximum output.
LED driver 192WElectronic LED power supply rated at 192 watts maximum output.
LED driver 193WElectronic LED power supply rated at 193 watts maximum output.
LED driver 194WElectronic LED power supply rated at 194 watts maximum output.
LED driver 195WElectronic LED power supply rated at 195 watts maximum output.
LED driver 196WElectronic LED power supply rated at 196 watts maximum output.
LED driver 197WElectronic LED power supply rated at 197 watts maximum output.
LED driver 198WElectronic LED power supply rated at 198 watts maximum output.
LED driver 199WElectronic LED power supply rated at 199 watts maximum output.
LED driver 19WElectronic LED power supply rated at 19 watts maximum output.
LED driver 1WElectronic LED power supply rated at 1 watts maximum output.
LED driver 200WElectronic LED power supply rated at 200 watts maximum output.
LED driver 201WElectronic LED power supply rated at 201 watts maximum output.
LED driver 202WElectronic LED power supply rated at 202 watts maximum output.
LED driver 203WElectronic LED power supply rated at 203 watts maximum output.
LED driver 204WElectronic LED power supply rated at 204 watts maximum output.
LED driver 205WElectronic LED power supply rated at 205 watts maximum output.
LED driver 206WElectronic LED power supply rated at 206 watts maximum output.
LED driver 207WElectronic LED power supply rated at 207 watts maximum output.
LED driver 208WElectronic LED power supply rated at 208 watts maximum output.
LED driver 209WElectronic LED power supply rated at 209 watts maximum output.
LED driver 20WElectronic LED power supply rated at 20 watts maximum output.
LED driver 210WElectronic LED power supply rated at 210 watts maximum output.
LED driver 211WElectronic LED power supply rated at 211 watts maximum output.
LED driver 212WElectronic LED power supply rated at 212 watts maximum output.
LED driver 213WElectronic LED power supply rated at 213 watts maximum output.
LED driver 214WElectronic LED power supply rated at 214 watts maximum output.
LED driver 215WElectronic LED power supply rated at 215 watts maximum output.
LED driver 216WElectronic LED power supply rated at 216 watts maximum output.
LED driver 217WElectronic LED power supply rated at 217 watts maximum output.
LED driver 218WElectronic LED power supply rated at 218 watts maximum output.
LED driver 219WElectronic LED power supply rated at 219 watts maximum output.
LED driver 21WElectronic LED power supply rated at 21 watts maximum output.
LED driver 220WElectronic LED power supply rated at 220 watts maximum output.
LED driver 221WElectronic LED power supply rated at 221 watts maximum output.
LED driver 222WElectronic LED power supply rated at 222 watts maximum output.
LED driver 223WElectronic LED power supply rated at 223 watts maximum output.
LED driver 224WElectronic LED power supply rated at 224 watts maximum output.
LED driver 225WElectronic LED power supply rated at 225 watts maximum output.
LED driver 226WElectronic LED power supply rated at 226 watts maximum output.
LED driver 227WElectronic LED power supply rated at 227 watts maximum output.
LED driver 228WElectronic LED power supply rated at 228 watts maximum output.
LED driver 229WElectronic LED power supply rated at 229 watts maximum output.
LED driver 22WElectronic LED power supply rated at 22 watts maximum output.
LED driver 230WElectronic LED power supply rated at 230 watts maximum output.
LED driver 231WElectronic LED power supply rated at 231 watts maximum output.
LED driver 232WElectronic LED power supply rated at 232 watts maximum output.
LED driver 233WElectronic LED power supply rated at 233 watts maximum output.
LED driver 234WElectronic LED power supply rated at 234 watts maximum output.
LED driver 235WElectronic LED power supply rated at 235 watts maximum output.
LED driver 236WElectronic LED power supply rated at 236 watts maximum output.
LED driver 237WElectronic LED power supply rated at 237 watts maximum output.
LED driver 238WElectronic LED power supply rated at 238 watts maximum output.
LED driver 239WElectronic LED power supply rated at 239 watts maximum output.
LED driver 23WElectronic LED power supply rated at 23 watts maximum output.
LED driver 240WElectronic LED power supply rated at 240 watts maximum output.
LED driver 241WElectronic LED power supply rated at 241 watts maximum output.
LED driver 242WElectronic LED power supply rated at 242 watts maximum output.
LED driver 243WElectronic LED power supply rated at 243 watts maximum output.
LED driver 244WElectronic LED power supply rated at 244 watts maximum output.
LED driver 245WElectronic LED power supply rated at 245 watts maximum output.
LED driver 246WElectronic LED power supply rated at 246 watts maximum output.
LED driver 247WElectronic LED power supply rated at 247 watts maximum output.
LED driver 248WElectronic LED power supply rated at 248 watts maximum output.
LED driver 249WElectronic LED power supply rated at 249 watts maximum output.
LED driver 24WElectronic LED power supply rated at 24 watts maximum output.
LED driver 250WElectronic LED power supply rated at 250 watts maximum output.
LED driver 251WElectronic LED power supply rated at 251 watts maximum output.
LED driver 252WElectronic LED power supply rated at 252 watts maximum output.
LED driver 253WElectronic LED power supply rated at 253 watts maximum output.
LED driver 254WElectronic LED power supply rated at 254 watts maximum output.
LED driver 255WElectronic LED power supply rated at 255 watts maximum output.
LED driver 256WElectronic LED power supply rated at 256 watts maximum output.
LED driver 257WElectronic LED power supply rated at 257 watts maximum output.
LED driver 258WElectronic LED power supply rated at 258 watts maximum output.
LED driver 259WElectronic LED power supply rated at 259 watts maximum output.
LED driver 25WElectronic LED power supply rated at 25 watts maximum output.
LED driver 260WElectronic LED power supply rated at 260 watts maximum output.
LED driver 261WElectronic LED power supply rated at 261 watts maximum output.
LED driver 262WElectronic LED power supply rated at 262 watts maximum output.
LED driver 263WElectronic LED power supply rated at 263 watts maximum output.
LED driver 264WElectronic LED power supply rated at 264 watts maximum output.
LED driver 265WElectronic LED power supply rated at 265 watts maximum output.
LED driver 266WElectronic LED power supply rated at 266 watts maximum output.
LED driver 267WElectronic LED power supply rated at 267 watts maximum output.
LED driver 268WElectronic LED power supply rated at 268 watts maximum output.
LED driver 269WElectronic LED power supply rated at 269 watts maximum output.
LED driver 26WElectronic LED power supply rated at 26 watts maximum output.
LED driver 270WElectronic LED power supply rated at 270 watts maximum output.
LED driver 271WElectronic LED power supply rated at 271 watts maximum output.
LED driver 272WElectronic LED power supply rated at 272 watts maximum output.
LED driver 273WElectronic LED power supply rated at 273 watts maximum output.
LED driver 274WElectronic LED power supply rated at 274 watts maximum output.
LED driver 275WElectronic LED power supply rated at 275 watts maximum output.
LED driver 276WElectronic LED power supply rated at 276 watts maximum output.
LED driver 277WElectronic LED power supply rated at 277 watts maximum output.
LED driver 278WElectronic LED power supply rated at 278 watts maximum output.
LED driver 279WElectronic LED power supply rated at 279 watts maximum output.
LED driver 27WElectronic LED power supply rated at 27 watts maximum output.
LED driver 280WElectronic LED power supply rated at 280 watts maximum output.
LED driver 281WElectronic LED power supply rated at 281 watts maximum output.
LED driver 282WElectronic LED power supply rated at 282 watts maximum output.
LED driver 283WElectronic LED power supply rated at 283 watts maximum output.
LED driver 284WElectronic LED power supply rated at 284 watts maximum output.
LED driver 285WElectronic LED power supply rated at 285 watts maximum output.
LED driver 286WElectronic LED power supply rated at 286 watts maximum output.
LED driver 287WElectronic LED power supply rated at 287 watts maximum output.
LED driver 288WElectronic LED power supply rated at 288 watts maximum output.
LED driver 289WElectronic LED power supply rated at 289 watts maximum output.
LED driver 28WElectronic LED power supply rated at 28 watts maximum output.
LED driver 290WElectronic LED power supply rated at 290 watts maximum output.
LED driver 291WElectronic LED power supply rated at 291 watts maximum output.
LED driver 292WElectronic LED power supply rated at 292 watts maximum output.
LED driver 293WElectronic LED power supply rated at 293 watts maximum output.
LED driver 294WElectronic LED power supply rated at 294 watts maximum output.
LED driver 295WElectronic LED power supply rated at 295 watts maximum output.
LED driver 296WElectronic LED power supply rated at 296 watts maximum output.
LED driver 297WElectronic LED power supply rated at 297 watts maximum output.
LED driver 298WElectronic LED power supply rated at 298 watts maximum output.
LED driver 299WElectronic LED power supply rated at 299 watts maximum output.
LED driver 29WElectronic LED power supply rated at 29 watts maximum output.
LED driver 2WElectronic LED power supply rated at 2 watts maximum output.
LED driver 300WElectronic LED power supply rated at 300 watts maximum output.
LED driver 301WElectronic LED power supply rated at 301 watts maximum output.
LED driver 302WElectronic LED power supply rated at 302 watts maximum output.
LED driver 303WElectronic LED power supply rated at 303 watts maximum output.
LED driver 304WElectronic LED power supply rated at 304 watts maximum output.
LED driver 305WElectronic LED power supply rated at 305 watts maximum output.
LED driver 306WElectronic LED power supply rated at 306 watts maximum output.
LED driver 307WElectronic LED power supply rated at 307 watts maximum output.
LED driver 308WElectronic LED power supply rated at 308 watts maximum output.
LED driver 309WElectronic LED power supply rated at 309 watts maximum output.
LED driver 30WElectronic LED power supply rated at 30 watts maximum output.
LED driver 310WElectronic LED power supply rated at 310 watts maximum output.
LED driver 311WElectronic LED power supply rated at 311 watts maximum output.
LED driver 312WElectronic LED power supply rated at 312 watts maximum output.
LED driver 313WElectronic LED power supply rated at 313 watts maximum output.
LED driver 314WElectronic LED power supply rated at 314 watts maximum output.
LED driver 315WElectronic LED power supply rated at 315 watts maximum output.
LED driver 316WElectronic LED power supply rated at 316 watts maximum output.
LED driver 317WElectronic LED power supply rated at 317 watts maximum output.
LED driver 318WElectronic LED power supply rated at 318 watts maximum output.
LED driver 319WElectronic LED power supply rated at 319 watts maximum output.
LED driver 31WElectronic LED power supply rated at 31 watts maximum output.
LED driver 320WElectronic LED power supply rated at 320 watts maximum output.
LED driver 321WElectronic LED power supply rated at 321 watts maximum output.
LED driver 322WElectronic LED power supply rated at 322 watts maximum output.
LED driver 323WElectronic LED power supply rated at 323 watts maximum output.
LED driver 324WElectronic LED power supply rated at 324 watts maximum output.
LED driver 325WElectronic LED power supply rated at 325 watts maximum output.
LED driver 326WElectronic LED power supply rated at 326 watts maximum output.
LED driver 327WElectronic LED power supply rated at 327 watts maximum output.
LED driver 328WElectronic LED power supply rated at 328 watts maximum output.
LED driver 329WElectronic LED power supply rated at 329 watts maximum output.
LED driver 32WElectronic LED power supply rated at 32 watts maximum output.
LED driver 330WElectronic LED power supply rated at 330 watts maximum output.
LED driver 331WElectronic LED power supply rated at 331 watts maximum output.
LED driver 332WElectronic LED power supply rated at 332 watts maximum output.
LED driver 333WElectronic LED power supply rated at 333 watts maximum output.
LED driver 334WElectronic LED power supply rated at 334 watts maximum output.
LED driver 335WElectronic LED power supply rated at 335 watts maximum output.
LED driver 336WElectronic LED power supply rated at 336 watts maximum output.
LED driver 337WElectronic LED power supply rated at 337 watts maximum output.
LED driver 338WElectronic LED power supply rated at 338 watts maximum output.
LED driver 339WElectronic LED power supply rated at 339 watts maximum output.
LED driver 33WElectronic LED power supply rated at 33 watts maximum output.
LED driver 340WElectronic LED power supply rated at 340 watts maximum output.
LED driver 341WElectronic LED power supply rated at 341 watts maximum output.
LED driver 342WElectronic LED power supply rated at 342 watts maximum output.
LED driver 343WElectronic LED power supply rated at 343 watts maximum output.
LED driver 344WElectronic LED power supply rated at 344 watts maximum output.
LED driver 345WElectronic LED power supply rated at 345 watts maximum output.
LED driver 346WElectronic LED power supply rated at 346 watts maximum output.
LED driver 347WElectronic LED power supply rated at 347 watts maximum output.
LED driver 348WElectronic LED power supply rated at 348 watts maximum output.
LED driver 349WElectronic LED power supply rated at 349 watts maximum output.
LED driver 34WElectronic LED power supply rated at 34 watts maximum output.
LED driver 350WElectronic LED power supply rated at 350 watts maximum output.
LED driver 351WElectronic LED power supply rated at 351 watts maximum output.
LED driver 352WElectronic LED power supply rated at 352 watts maximum output.
LED driver 353WElectronic LED power supply rated at 353 watts maximum output.
LED driver 354WElectronic LED power supply rated at 354 watts maximum output.
LED driver 355WElectronic LED power supply rated at 355 watts maximum output.
LED driver 356WElectronic LED power supply rated at 356 watts maximum output.
LED driver 357WElectronic LED power supply rated at 357 watts maximum output.
LED driver 358WElectronic LED power supply rated at 358 watts maximum output.
LED driver 359WElectronic LED power supply rated at 359 watts maximum output.
LED driver 35WElectronic LED power supply rated at 35 watts maximum output.
LED driver 360WElectronic LED power supply rated at 360 watts maximum output.
LED driver 361WElectronic LED power supply rated at 361 watts maximum output.
LED driver 362WElectronic LED power supply rated at 362 watts maximum output.
LED driver 363WElectronic LED power supply rated at 363 watts maximum output.
LED driver 364WElectronic LED power supply rated at 364 watts maximum output.
LED driver 365WElectronic LED power supply rated at 365 watts maximum output.
LED driver 366WElectronic LED power supply rated at 366 watts maximum output.
LED driver 367WElectronic LED power supply rated at 367 watts maximum output.
LED driver 368WElectronic LED power supply rated at 368 watts maximum output.
LED driver 369WElectronic LED power supply rated at 369 watts maximum output.
LED driver 36WElectronic LED power supply rated at 36 watts maximum output.
LED driver 370WElectronic LED power supply rated at 370 watts maximum output.
LED driver 371WElectronic LED power supply rated at 371 watts maximum output.
LED driver 372WElectronic LED power supply rated at 372 watts maximum output.
LED driver 373WElectronic LED power supply rated at 373 watts maximum output.
LED driver 374WElectronic LED power supply rated at 374 watts maximum output.
LED driver 375WElectronic LED power supply rated at 375 watts maximum output.
LED driver 376WElectronic LED power supply rated at 376 watts maximum output.
LED driver 377WElectronic LED power supply rated at 377 watts maximum output.
LED driver 378WElectronic LED power supply rated at 378 watts maximum output.
LED driver 379WElectronic LED power supply rated at 379 watts maximum output.
LED driver 37WElectronic LED power supply rated at 37 watts maximum output.
LED driver 380WElectronic LED power supply rated at 380 watts maximum output.
LED driver 381WElectronic LED power supply rated at 381 watts maximum output.
LED driver 382WElectronic LED power supply rated at 382 watts maximum output.
LED driver 383WElectronic LED power supply rated at 383 watts maximum output.
LED driver 384WElectronic LED power supply rated at 384 watts maximum output.
LED driver 385WElectronic LED power supply rated at 385 watts maximum output.
LED driver 386WElectronic LED power supply rated at 386 watts maximum output.
LED driver 387WElectronic LED power supply rated at 387 watts maximum output.
LED driver 388WElectronic LED power supply rated at 388 watts maximum output.
LED driver 389WElectronic LED power supply rated at 389 watts maximum output.
LED driver 38WElectronic LED power supply rated at 38 watts maximum output.
LED driver 390WElectronic LED power supply rated at 390 watts maximum output.
LED driver 391WElectronic LED power supply rated at 391 watts maximum output.
LED driver 392WElectronic LED power supply rated at 392 watts maximum output.
LED driver 393WElectronic LED power supply rated at 393 watts maximum output.
LED driver 394WElectronic LED power supply rated at 394 watts maximum output.
LED driver 395WElectronic LED power supply rated at 395 watts maximum output.
LED driver 396WElectronic LED power supply rated at 396 watts maximum output.
LED driver 397WElectronic LED power supply rated at 397 watts maximum output.
LED driver 398WElectronic LED power supply rated at 398 watts maximum output.
LED driver 399WElectronic LED power supply rated at 399 watts maximum output.
LED driver 39WElectronic LED power supply rated at 39 watts maximum output.
LED driver 3WElectronic LED power supply rated at 3 watts maximum output.
LED driver 400WElectronic LED power supply rated at 400 watts maximum output.
LED driver 401WElectronic LED power supply rated at 401 watts maximum output.
LED driver 402WElectronic LED power supply rated at 402 watts maximum output.
LED driver 403WElectronic LED power supply rated at 403 watts maximum output.
LED driver 404WElectronic LED power supply rated at 404 watts maximum output.
LED driver 405WElectronic LED power supply rated at 405 watts maximum output.
LED driver 406WElectronic LED power supply rated at 406 watts maximum output.
LED driver 407WElectronic LED power supply rated at 407 watts maximum output.
LED driver 408WElectronic LED power supply rated at 408 watts maximum output.
LED driver 409WElectronic LED power supply rated at 409 watts maximum output.
LED driver 40WElectronic LED power supply rated at 40 watts maximum output.
LED driver 410WElectronic LED power supply rated at 410 watts maximum output.
LED driver 411WElectronic LED power supply rated at 411 watts maximum output.
LED driver 412WElectronic LED power supply rated at 412 watts maximum output.
LED driver 413WElectronic LED power supply rated at 413 watts maximum output.
LED driver 414WElectronic LED power supply rated at 414 watts maximum output.
LED driver 415WElectronic LED power supply rated at 415 watts maximum output.
LED driver 416WElectronic LED power supply rated at 416 watts maximum output.
LED driver 417WElectronic LED power supply rated at 417 watts maximum output.
LED driver 418WElectronic LED power supply rated at 418 watts maximum output.
LED driver 419WElectronic LED power supply rated at 419 watts maximum output.
LED driver 41WElectronic LED power supply rated at 41 watts maximum output.
LED driver 420WElectronic LED power supply rated at 420 watts maximum output.
LED driver 421WElectronic LED power supply rated at 421 watts maximum output.
LED driver 422WElectronic LED power supply rated at 422 watts maximum output.
LED driver 423WElectronic LED power supply rated at 423 watts maximum output.
LED driver 424WElectronic LED power supply rated at 424 watts maximum output.
LED driver 425WElectronic LED power supply rated at 425 watts maximum output.
LED driver 426WElectronic LED power supply rated at 426 watts maximum output.
LED driver 427WElectronic LED power supply rated at 427 watts maximum output.
LED driver 428WElectronic LED power supply rated at 428 watts maximum output.
LED driver 429WElectronic LED power supply rated at 429 watts maximum output.
LED driver 42WElectronic LED power supply rated at 42 watts maximum output.
LED driver 430WElectronic LED power supply rated at 430 watts maximum output.
LED driver 431WElectronic LED power supply rated at 431 watts maximum output.
LED driver 432WElectronic LED power supply rated at 432 watts maximum output.
LED driver 433WElectronic LED power supply rated at 433 watts maximum output.
LED driver 434WElectronic LED power supply rated at 434 watts maximum output.
LED driver 435WElectronic LED power supply rated at 435 watts maximum output.
LED driver 436WElectronic LED power supply rated at 436 watts maximum output.
LED driver 437WElectronic LED power supply rated at 437 watts maximum output.
LED driver 438WElectronic LED power supply rated at 438 watts maximum output.
LED driver 439WElectronic LED power supply rated at 439 watts maximum output.
LED driver 43WElectronic LED power supply rated at 43 watts maximum output.
LED driver 440WElectronic LED power supply rated at 440 watts maximum output.
LED driver 441WElectronic LED power supply rated at 441 watts maximum output.
LED driver 442WElectronic LED power supply rated at 442 watts maximum output.
LED driver 443WElectronic LED power supply rated at 443 watts maximum output.
LED driver 444WElectronic LED power supply rated at 444 watts maximum output.
LED driver 445WElectronic LED power supply rated at 445 watts maximum output.
LED driver 446WElectronic LED power supply rated at 446 watts maximum output.
LED driver 447WElectronic LED power supply rated at 447 watts maximum output.
LED driver 448WElectronic LED power supply rated at 448 watts maximum output.
LED driver 449WElectronic LED power supply rated at 449 watts maximum output.
LED driver 44WElectronic LED power supply rated at 44 watts maximum output.
LED driver 450WElectronic LED power supply rated at 450 watts maximum output.
LED driver 451WElectronic LED power supply rated at 451 watts maximum output.
LED driver 452WElectronic LED power supply rated at 452 watts maximum output.
LED driver 453WElectronic LED power supply rated at 453 watts maximum output.
LED driver 454WElectronic LED power supply rated at 454 watts maximum output.
LED driver 455WElectronic LED power supply rated at 455 watts maximum output.
LED driver 456WElectronic LED power supply rated at 456 watts maximum output.
LED driver 457WElectronic LED power supply rated at 457 watts maximum output.
LED driver 458WElectronic LED power supply rated at 458 watts maximum output.
LED driver 459WElectronic LED power supply rated at 459 watts maximum output.
LED driver 45WElectronic LED power supply rated at 45 watts maximum output.
LED driver 460WElectronic LED power supply rated at 460 watts maximum output.
LED driver 461WElectronic LED power supply rated at 461 watts maximum output.
LED driver 462WElectronic LED power supply rated at 462 watts maximum output.
LED driver 463WElectronic LED power supply rated at 463 watts maximum output.
LED driver 464WElectronic LED power supply rated at 464 watts maximum output.
LED driver 465WElectronic LED power supply rated at 465 watts maximum output.
LED driver 466WElectronic LED power supply rated at 466 watts maximum output.
LED driver 467WElectronic LED power supply rated at 467 watts maximum output.
LED driver 468WElectronic LED power supply rated at 468 watts maximum output.
LED driver 469WElectronic LED power supply rated at 469 watts maximum output.
LED driver 46WElectronic LED power supply rated at 46 watts maximum output.
LED driver 470WElectronic LED power supply rated at 470 watts maximum output.
LED driver 471WElectronic LED power supply rated at 471 watts maximum output.
LED driver 472WElectronic LED power supply rated at 472 watts maximum output.
LED driver 473WElectronic LED power supply rated at 473 watts maximum output.
LED driver 474WElectronic LED power supply rated at 474 watts maximum output.
LED driver 475WElectronic LED power supply rated at 475 watts maximum output.
LED driver 476WElectronic LED power supply rated at 476 watts maximum output.
LED driver 477WElectronic LED power supply rated at 477 watts maximum output.
LED driver 478WElectronic LED power supply rated at 478 watts maximum output.
LED driver 479WElectronic LED power supply rated at 479 watts maximum output.
LED driver 47WElectronic LED power supply rated at 47 watts maximum output.
LED driver 480WElectronic LED power supply rated at 480 watts maximum output.
LED driver 481WElectronic LED power supply rated at 481 watts maximum output.
LED driver 482WElectronic LED power supply rated at 482 watts maximum output.
LED driver 483WElectronic LED power supply rated at 483 watts maximum output.
LED driver 484WElectronic LED power supply rated at 484 watts maximum output.
LED driver 485WElectronic LED power supply rated at 485 watts maximum output.
LED driver 486WElectronic LED power supply rated at 486 watts maximum output.
LED driver 487WElectronic LED power supply rated at 487 watts maximum output.
LED driver 488WElectronic LED power supply rated at 488 watts maximum output.
LED driver 489WElectronic LED power supply rated at 489 watts maximum output.
LED driver 48WElectronic LED power supply rated at 48 watts maximum output.
LED driver 490WElectronic LED power supply rated at 490 watts maximum output.
LED driver 491WElectronic LED power supply rated at 491 watts maximum output.
LED driver 492WElectronic LED power supply rated at 492 watts maximum output.
LED driver 493WElectronic LED power supply rated at 493 watts maximum output.
LED driver 494WElectronic LED power supply rated at 494 watts maximum output.
LED driver 495WElectronic LED power supply rated at 495 watts maximum output.
LED driver 496WElectronic LED power supply rated at 496 watts maximum output.
LED driver 497WElectronic LED power supply rated at 497 watts maximum output.
LED driver 498WElectronic LED power supply rated at 498 watts maximum output.
LED driver 499WElectronic LED power supply rated at 499 watts maximum output.
LED driver 49WElectronic LED power supply rated at 49 watts maximum output.
LED driver 4WElectronic LED power supply rated at 4 watts maximum output.
LED driver 500WElectronic LED power supply rated at 500 watts maximum output.
LED driver 50WElectronic LED power supply rated at 50 watts maximum output.
LED driver 51WElectronic LED power supply rated at 51 watts maximum output.
LED driver 52WElectronic LED power supply rated at 52 watts maximum output.
LED driver 53WElectronic LED power supply rated at 53 watts maximum output.
LED driver 54WElectronic LED power supply rated at 54 watts maximum output.
LED driver 55WElectronic LED power supply rated at 55 watts maximum output.
LED driver 56WElectronic LED power supply rated at 56 watts maximum output.
LED driver 57WElectronic LED power supply rated at 57 watts maximum output.
LED driver 58WElectronic LED power supply rated at 58 watts maximum output.
LED driver 59WElectronic LED power supply rated at 59 watts maximum output.
LED driver 5WElectronic LED power supply rated at 5 watts maximum output.
LED driver 60WElectronic LED power supply rated at 60 watts maximum output.
LED driver 61WElectronic LED power supply rated at 61 watts maximum output.
LED driver 62WElectronic LED power supply rated at 62 watts maximum output.
LED driver 63WElectronic LED power supply rated at 63 watts maximum output.
LED driver 64WElectronic LED power supply rated at 64 watts maximum output.
LED driver 65WElectronic LED power supply rated at 65 watts maximum output.
LED driver 66WElectronic LED power supply rated at 66 watts maximum output.
LED driver 67WElectronic LED power supply rated at 67 watts maximum output.
LED driver 68WElectronic LED power supply rated at 68 watts maximum output.
LED driver 69WElectronic LED power supply rated at 69 watts maximum output.
LED driver 6WElectronic LED power supply rated at 6 watts maximum output.
LED driver 70WElectronic LED power supply rated at 70 watts maximum output.
LED driver 71WElectronic LED power supply rated at 71 watts maximum output.
LED driver 72WElectronic LED power supply rated at 72 watts maximum output.
LED driver 73WElectronic LED power supply rated at 73 watts maximum output.
LED driver 74WElectronic LED power supply rated at 74 watts maximum output.
LED driver 75WElectronic LED power supply rated at 75 watts maximum output.
LED driver 76WElectronic LED power supply rated at 76 watts maximum output.
LED driver 77WElectronic LED power supply rated at 77 watts maximum output.
LED driver 78WElectronic LED power supply rated at 78 watts maximum output.
LED driver 79WElectronic LED power supply rated at 79 watts maximum output.
LED driver 7WElectronic LED power supply rated at 7 watts maximum output.
LED driver 80WElectronic LED power supply rated at 80 watts maximum output.
LED driver 81WElectronic LED power supply rated at 81 watts maximum output.
LED driver 82WElectronic LED power supply rated at 82 watts maximum output.
LED driver 83WElectronic LED power supply rated at 83 watts maximum output.
LED driver 84WElectronic LED power supply rated at 84 watts maximum output.
LED driver 85WElectronic LED power supply rated at 85 watts maximum output.
LED driver 86WElectronic LED power supply rated at 86 watts maximum output.
LED driver 87WElectronic LED power supply rated at 87 watts maximum output.
LED driver 88WElectronic LED power supply rated at 88 watts maximum output.
LED driver 89WElectronic LED power supply rated at 89 watts maximum output.
LED driver 8WElectronic LED power supply rated at 8 watts maximum output.
LED driver 90WElectronic LED power supply rated at 90 watts maximum output.
LED driver 91WElectronic LED power supply rated at 91 watts maximum output.
LED driver 92WElectronic LED power supply rated at 92 watts maximum output.
LED driver 93WElectronic LED power supply rated at 93 watts maximum output.
LED driver 94WElectronic LED power supply rated at 94 watts maximum output.
LED driver 95WElectronic LED power supply rated at 95 watts maximum output.
LED driver 96WElectronic LED power supply rated at 96 watts maximum output.
LED driver 97WElectronic LED power supply rated at 97 watts maximum output.
LED driver 98WElectronic LED power supply rated at 98 watts maximum output.
LED driver 99WElectronic LED power supply rated at 99 watts maximum output.
LED driver 9WElectronic LED power supply rated at 9 watts maximum output.
LEED credit (lighting)Points earned under the LEED green-building rating for efficient LED design.
LEED lighting creditPoints earned under LEED green-building certification for energy-efficient LED design, daylight integration, controllability and reduced light pollution.
LensOptical element modifying beam direction and distribution.
Lens (acorn / dome)Small dome lens moulded onto the LED package.
Lens (asymmetric)Lens creating a non-symmetric beam for wall-wash or street lighting.
Lens (collimating)Lens rendering divergent LED rays parallel.
Lens (ellipsoidal)Lens producing an elliptical beam for specific accent applications.
Lens (Fresnel)Thin concentric-ring lens for focusing with reduced thickness.
Lens (linear)Longitudinal optic over a strip controlling beam angle.
Lens (plano-convex)Flat on one side, curved on the other; used in spotlights.
Lens (secondary)Additional optic over the LED reshaping the original beam.
Lens (silicone)Moulded silicone lens with high temperature resistance and clarity.
Lens (TIR)Total Internal Reflection lens for high optical efficiency.
Lens arrayGrid of individual lenses moulded into a single plate for multi-LED luminaires.
Lens capProtective cover placed over an optic during transport or construction.
Lens degradationYellowing or hazing of a plastic lens over time due to UV or heat exposure.
Lens efficiencyPercentage of light entering a lens that exits in the desired direction.
Lens holderMechanical ring or clip securing a secondary lens over an LED.
Lens mouldPrecision tool for injection-moulding silicone or PC LED lenses.
Lens tilt angleAngular offset of a lens in an adjustable optic system.
Level (dimming preset)Fixed brightness value assigned to a button or scene memory.
Level sensor (tank)Sensor occasionally integrated with LED indicator lights for fluid-level display.
Lever-lock connectorQuick-release connector with a locking lever for secure cable termination.
Life-cycle cost analysisEconomic evaluation comparing LED total cost against alternatives over time.
LifetimeUseful life in hours, typically 50 000–100 000 for professional LEDs.
Lifetime (B10)Hours at which 10 percent of a population has failed.
Lifetime (B50)Median hours at which 50 percent of a population has failed.
LiFi (Light Fidelity)High-speed data transmission using modulated LED light.
Lift platform (luminaire)Motorised winch lowering a high-mounted luminaire for maintenance.
Light art installationCreative use of LED as a medium for artistic expression.
Light barRigid LED assembly on an aluminium PCB for linear illumination.
Light boxIlluminated display frame with edge-lit or back-lit LED modules.
Light cannonColloquial term for a high-output LED projector or searchlight.
Light columnOutdoor pole integrating LED luminaire and electrical infrastructure.
Light curtainArray of vertical LED strips creating a luminous curtain effect.
Light domeCeiling-mounted LED panel replicating the appearance of a skylight.
Light engineIntegrated LED source module including die, substrate and primary optics.
Light festivalPublic event featuring temporary LED art installations and projections.
Light fieldThree-dimensional distribution of light in a space.
Light fixture scheduleProject document listing every luminaire type, quantity and location.
Light flagOpaque panel blocking light from a specific area, used in display lighting.
Light graffitiLong-exposure photography technique using hand-held LED tools to draw with light.
Light guideTransparent element transporting and distributing LED light.
Light guide (edge-lit panel)Acrylic panel with micro-engravings distributing edge-fed LED light.
Light guide (fibre)Glass or polymer fibre carrying light to a remote end.
Light harvestingCapturing and redistributing daylight deeper into a building using LED supplements.
Light ladderHorizontal suspended structure carrying multiple adjustable LED luminaires.
Light level surveyOn-site measurement campaign recording lux values across a space.
Light loss factor (LLF)Combined factor accounting for lumen depreciation, dirt and maintenance.
Light mastTall outdoor pole (8-40 m) supporting multiple LED luminaires for area lighting.
Light meter (lux meter)Instrument measuring illuminance in lux on a surface.
Light meter (spot)Luminance meter with a narrow acceptance angle for measuring specific surfaces.
Light output ratio (LOR)Ratio of luminaire flux to total bare-source flux.
Light pipeSolid or hollow tube guiding light from an LED to a remote output point.
Light planComplete set of lighting-design documents for a project.
Light pollutionUnwanted light dispersed skyward or into unnecessary directions.
Light railElectrified track system for repositionable LED luminaires.
Light ringCircular LED strip assembly used as a decorative pendant element.
Light sculptureThree-dimensional artwork incorporating LED light as a primary medium.
Light sensor (analogue)Photocell outputting a 0-10 V signal proportional to ambient light level.
Light sensor (digital)Photocell communicating lux readings via DALI, KNX or Zigbee.
Light shelfHorizontal surface reflecting daylight deeper into a room, sometimes with LED supplement.
Light shelf (interior)Horizontal reflective surface bouncing daylight deeper into a room.
Light slotNarrow linear opening in a ceiling or wall emitting a thin blade of light.
Light source (point)Source with a very small emitting area, producing hard shadows.
Light spill shieldMetal plate or barn door preventing unwanted light beyond the target area.
Light therapy (SAD)Bright LED light box used to treat Seasonal Affective Disorder.
Light towerPortable mast with LED floodlights for temporary construction or event lighting.
Light treeBranching structure with multiple LED luminaires for decorative or event use.
Light trespassUnwanted spill light from a luminaire onto neighbouring property.
Light valveMechanical shutter or digital micro-mirror controlling light passage.
Light wellVertical shaft bringing daylight into lower floors, often supplemented by LED.
LightfastResistance of a material or dye to fading when exposed to light.
Lighting as a Service (LaaS)Business model where the client pays a subscription rather than buying luminaires.
Lighting auditAssessment of an existing installation identifying upgrade opportunities.
Lighting briefClient document outlining requirements and expectations for a lighting project.
Lighting budgetFinancial allocation for luminaires, controls and installation in a project.
Lighting calculation reportDocument presenting DIALux or Relux results with renders and data tables.
Lighting circuitElectrical sub-circuit dedicated to feeding a group of LED luminaires.
Lighting consultantProfessional specialist advising on lighting design and specification.
Lighting contractorTradesperson or company installing LED luminaires and control systems.
Lighting controlSystem for managing and automating the lighting installation.
Lighting control panelWall-mounted or rack-mounted unit housing relays and dimmers for multiple circuits.
Lighting coordinatorProject team member ensuring lighting design integrates with architecture and MEP.
Lighting density (W/m²)Installed lighting power per unit floor area, used for energy-code compliance.
Lighting designProfessional design of lighting for a space or building.
Lighting designerCreative professional responsible for the aesthetic and functional lighting scheme.
Lighting distribution boardSub-panel dedicated to lighting circuits within an electrical installation.
Lighting engineerTechnical professional responsible for photometric calculations and specifications.
Lighting layoutArchitectural plan showing all luminaire positions, types and circuiting.
Lighting maintenance planScheduled programme of cleaning, re-lamping and performance checks.
Lighting maintenance scheduleCalendar of planned maintenance activities for an LED installation.
Lighting management system (LMS)Software for centralised management of complex LED installations.
Lighting mock-upFull-scale sample installation of luminaires for client approval before project rollout.
Lighting plan reviewPeer or authority review of a lighting design for code compliance.
Lighting power density (LPD)Watts of lighting per square metre of floor area (W/m²).
Lighting product datasheetManufacturer document listing photometric, electrical and mechanical specifications.
Lighting programmeTimed sequence of scenes and levels managed by a controller or BMS.
Lighting project specificationWritten description of luminaire and control requirements for tendering.
Lighting protection zoneArea around a lightning rod where LED luminaires need surge protection.
Lighting quality metricAny numerical value describing light quality: CRI, TM-30 Rf, UGR, flicker, etc.
Lighting refurbishmentUpgrading an existing installation with new LED luminaires and controls.
Lighting renderPhotorealistic computer image showing the visual effect of a proposed scheme.
Lighting retrofitReplacing existing lamps or luminaires with LED equivalents.
Lighting scene managerSoftware or hardware storing and recalling multiple preset lighting scenes.
Lighting schedule (project)Table listing every luminaire tag, type, wattage, quantity and location.
Lighting schedule (time-based)Automated timetable controlling when lights switch on, off or dim.
Lighting showroomDisplay space where LED luminaires and profiles can be evaluated in person.
Lighting simulationComputer modelling of illuminance and luminance using DIALux, Relux, etc.
Lighting simulation reportDocument with rendered images and data proving compliance with design standards.
Lighting specification writerProfessional drafting detailed luminaire and control product specifications.
Lighting standard (desk lamp)EN or IES norm defining minimum performance for a task desk light.
Lighting strategy documentHigh-level narrative describing the design intent before detailed calculations.
Lighting supplierCompany selling LED luminaires, profiles, strips and accessories.
Lighting survey (post-installation)Lux and uniformity measurements verifying the installed scheme.
Lighting survey (pre-installation)Site inspection recording existing conditions before an LED upgrade.
Lighting tenderCompetitive bidding process for supply and installation of LED products.
Lighting track accessoryAdapter, connector or end-feed for an electrified track system.
Lighting trespass ordinanceLocal regulation limiting light spill onto neighbouring properties.
Lighting uniformity standardNormative minimum ratio of Emin to Emean for a given application.
Lighting warranty claimProcess for reporting and resolving a defective LED product under warranty.
Lighting zoneDefined area controlled independently for occupancy, daylight or scene switching.
Lightweight luminaireLED fixture weighing under 1 kg, suitable for plasterboard direct-mount.
Limit switchElectromechanical switch detecting the end of travel in a motorised lighting system.
Line driverSignal booster for long DALI or DMX cable runs.
Line lossVoltage or signal degradation along a cable due to resistance or impedance.
Line of light (continuous)Profile-and-strip system creating uninterrupted luminous emission.
Line reactorInductor limiting harmonic currents at the input of large LED driver banks.
Line regulationDriver ability to maintain constant output despite input-voltage variations.
Line voltageMains supply voltage (e.g. 230 V AC in Europe).
Linear fluorescent replacementLED tube or linear module replacing T5 or T8 fluorescent lamps.
Linear lensExtruded lens mounted along a strip inside a profile for beam control.
Linear light enginePre-assembled LED module strip ready for insertion into a trunking system.
Linear luminaireElongated luminaire based on profiles and LED strips.
Linear luminaire systemModular kit of profiles, strips, connectors and end caps forming continuous light lines.
Linear pendantElongated suspended LED luminaire, often several metres in length.
Linear recessedContinuous LED luminaire recessed into a ceiling or wall slot.
Linear surfaceContinuous LED luminaire mounted on the surface of a ceiling or wall.
Linear trunkingLarge-section modular profile system for commercial and industrial lighting.
Linear wall washerElongated LED luminaire producing even, uniform wall illumination.
Link cableShort cable connecting adjacent luminaires in a continuous-row installation.
Lithium-ion battery (Li-ion)Rechargeable battery technology used in modern emergency LED modules.
Live conductor (L)Wire carrying mains voltage from the distribution board to the luminaire.
Live-line workingElectrical work performed with circuits energised—generally avoided for LED installation.
LM-79IES method for measuring total luminaire flux, efficacy and colour.
LM-79 test reportLaboratory document presenting luminaire photometric and electrical test results.
LM-80IES method for measuring LED lumen depreciation over time.
LM-80 test reportLaboratory document presenting LED lumen-depreciation data over 6 000+ hours.
Lm/W (lumens per watt)Unit of luminous efficacy.
Load (inductive)Electrical load with inductance, relevant for dimmer selection.
Load (maximum)Maximum wattage a driver or controller can handle.
Load (minimum)Minimum wattage required by a dimmer for stable operation.
Load (resistive)Electrical load without phase shift between voltage and current.
Load bankResistive test load for verifying emergency generator capacity for LED installations.
Load calculationSumming the wattage of all LED luminaires on a circuit to size cables and breakers.
Load regulationDriver ability to maintain output voltage or current as the LED load varies.
Load sheddingAutomatically reducing lighting power during a grid demand-response event.
Local control overrideWall switch or button allowing occupants to override automatic lighting scenes.
Local isolatorSwitch adjacent to a luminaire for safe maintenance disconnection.
Location classification (hazardous)Zone rating (0, 1, 2 / 20, 21, 22) determining required luminaire protection.
Lock-out / tag-out (LOTO)Safety procedure ensuring circuits are de-energised before maintenance.
Locking clipClip securing a cover or connector that cannot be removed without a tool.
Locking screw (grub / set screw)Small headless screw securing a profile to a bracket.
Log (commissioning)Record of all DALI addresses, group assignments and scene levels set during commissioning.
Log (energy)Continuous data record of lighting energy consumption for monitoring and reporting.
Log (fault)Driver or controller record of error events, accessible via DALI or app.
Log (maintenance)Documented history of cleaning, replacements and performance checks.
Long-life driverLED power supply with an expected MTBF exceeding 100 000 hours.
Long-throw opticLens or reflector concentrating the beam for illumination at a great distance.
Loop-in wiringElectrical wiring method where the mains cable loops from one luminaire to the next.
Looping terminalTerminal block inside a luminaire accepting incoming and outgoing mains cables.
Lossless dimmingDimming method that reduces power proportionally, not wasting energy as heat.
Louver angleEffective shielding angle of a luminaire anti-glare grid measured from the horizontal.
Louver bladeIndividual slat within a louvre or baffle assembly.
Louver depthVertical dimension of a louver blade, determining glare cut-off.
Louver finishSurface treatment (matte, specular, semi-specular) of louver blades.
Louver spacingPitch between adjacent louver blades, affecting light throughput and shielding.
LouvreSlatted grid controlling beam distribution and reducing glare.
Louvre (cross-blade)Grid of intersecting blades providing two-axis glare control.
Louvre (egg-crate)Open-cell louvre for ceiling luminaires providing moderate glare cut-off.
Louvre (honeycomb)Hexagonal-cell anti-glare grid for tight cut-off.
Louvre (parabolic)Curved-blade louvre reflecting light downward while hiding the source.
Low BayLuminaire for 3–6 m heights in warehouses and commercial spaces.
Low-glare luminaireFixture designed for a UGR ≤ 19, suitable for offices and screen-based work.
Low-profile driverDriver with a height under 20 mm for installation in tight ceiling voids.
Low-profile luminaireLuminaire with minimal depth, suitable for shallow ceiling voids.
Low-smoke cableCable producing minimal smoke when burned, essential for escape-route safety.
Low-voltageOperating voltage ≤50 V AC / ≤120 V DC, typical for LED strips.
Low-voltage disconnect (LVD)Circuit cutting power when battery voltage drops too low, protecting the cells.
Low-voltage track12 V or 24 V track system for LED spotlights and miniature pendants.
LSZH (Low Smoke Zero Halogen)Cable with low smoke and no halogens for fire safety.
Lug terminalHeavy-duty crimped terminal for bolted power connections.
Lumen (lm)SI unit of total luminous flux.
Lumen depreciationProgressive reduction of flux over time.
Lumen maintenancePercentage of initial flux retained at a given hour count.
Lumen maintenance factor (Fp)Multiplier applied in calculations for flux reduction over service life.
Lumen packageTotal lumen output specified for an LED module or luminaire.
Lumen per metre (lm/m)Strip luminous output per linear metre.
LuminaireComplete apparatus with LED source, driver, optics and housing.
Luminaire (bollard)Post-mounted outdoor luminaire for pathway illumination.
Luminaire (ceiling-recessed)Luminaire installed flush within a ceiling opening.
Luminaire (pendant)Luminaire suspended from the ceiling by cables, chains or rods.
Luminaire (surface-mounted)Luminaire fixed directly onto a ceiling or wall surface.
Luminaire (track-mounted)Luminaire attached to an electrified track rail.
Luminaire (wall-mounted)Luminaire fixed to a vertical wall surface.
Luminaire classification system (BUG)IES method rating backlight, uplight and glare of outdoor luminaires.
Luminaire dirt depreciation (LDD)Reduction in output caused by dirt accumulating on the luminaire.
Luminaire efficacy rating (LER)IES metric expressing lumens per watt for the complete luminaire.
Luminaire efficiencyRatio of luminaire output to total bare-lamp output.
Luminaire maintenance factor (LMF)Multiplier for luminaire dirt depreciation in calculations.
Luminaire mounting heightVertical distance from the work plane to the luminaire.
Luminaire scheduleSee Lighting schedule.
Luminaire spacing criterion (SC)Maximum ratio of spacing to mounting height for acceptable uniformity.
Luminaire tilt angleAngular offset from the vertical for aimed luminaires such as floodlights.
Luminaire weightMass of the complete fixture, critical for structural mounting calculations.
LuminanceLuminous intensity per unit of projected area, in cd/m².
Luminance (adaptive)Dynamic luminance adjustment based on ambient conditions.
Luminance (average)Mean luminance of a surface or luminaire measured in cd/m².
LuminescenceLight emission not caused by heating: fluorescence, phosphorescence, electroluminescence.
Luminous ceilingEntire ceiling area covered with back-lit LED panels for uniform overhead illumination.
Luminous efficacy of radiation (LER)Theoretical maximum efficacy of the emitted spectrum, in lm/W_optical.
Luminous energyFlux over time, in lumen-hours.
Luminous environmentOverall visual impression created by the interplay of light, surfaces and shadows.
Luminous exitanceFlux leaving a surface per unit area, in lm/m².
Luminous flux (maintained)Minimum flux the luminaire provides throughout its design service life.
Luminous intensityFlux per unit solid angle, in candelas (cd).
Luminous output 100 lm/mLED strip delivering 100 lumens per linear metre of active length.
Luminous output 1000 lm/mLED strip delivering 1000 lumens per linear metre of active length.
Luminous output 1025 lm/mLED strip delivering 1025 lumens per linear metre of active length.
Luminous output 1050 lm/mLED strip delivering 1050 lumens per linear metre of active length.
Luminous output 1075 lm/mLED strip delivering 1075 lumens per linear metre of active length.
Luminous output 1100 lm/mLED strip delivering 1100 lumens per linear metre of active length.
Luminous output 1125 lm/mLED strip delivering 1125 lumens per linear metre of active length.
Luminous output 1150 lm/mLED strip delivering 1150 lumens per linear metre of active length.
Luminous output 1175 lm/mLED strip delivering 1175 lumens per linear metre of active length.
Luminous output 1200 lm/mLED strip delivering 1200 lumens per linear metre of active length.
Luminous output 1225 lm/mLED strip delivering 1225 lumens per linear metre of active length.
Luminous output 125 lm/mLED strip delivering 125 lumens per linear metre of active length.
Luminous output 1250 lm/mLED strip delivering 1250 lumens per linear metre of active length.
Luminous output 1275 lm/mLED strip delivering 1275 lumens per linear metre of active length.
Luminous output 1300 lm/mLED strip delivering 1300 lumens per linear metre of active length.
Luminous output 1325 lm/mLED strip delivering 1325 lumens per linear metre of active length.
Luminous output 1350 lm/mLED strip delivering 1350 lumens per linear metre of active length.
Luminous output 1375 lm/mLED strip delivering 1375 lumens per linear metre of active length.
Luminous output 1400 lm/mLED strip delivering 1400 lumens per linear metre of active length.
Luminous output 1425 lm/mLED strip delivering 1425 lumens per linear metre of active length.
Luminous output 1450 lm/mLED strip delivering 1450 lumens per linear metre of active length.
Luminous output 1475 lm/mLED strip delivering 1475 lumens per linear metre of active length.
Luminous output 150 lm/mLED strip delivering 150 lumens per linear metre of active length.
Luminous output 1500 lm/mLED strip delivering 1500 lumens per linear metre of active length.
Luminous output 1525 lm/mLED strip delivering 1525 lumens per linear metre of active length.
Luminous output 1550 lm/mLED strip delivering 1550 lumens per linear metre of active length.
Luminous output 1575 lm/mLED strip delivering 1575 lumens per linear metre of active length.
Luminous output 1600 lm/mLED strip delivering 1600 lumens per linear metre of active length.
Luminous output 1625 lm/mLED strip delivering 1625 lumens per linear metre of active length.
Luminous output 1650 lm/mLED strip delivering 1650 lumens per linear metre of active length.
Luminous output 1675 lm/mLED strip delivering 1675 lumens per linear metre of active length.
Luminous output 1700 lm/mLED strip delivering 1700 lumens per linear metre of active length.
Luminous output 1725 lm/mLED strip delivering 1725 lumens per linear metre of active length.
Luminous output 175 lm/mLED strip delivering 175 lumens per linear metre of active length.
Luminous output 1750 lm/mLED strip delivering 1750 lumens per linear metre of active length.
Luminous output 1775 lm/mLED strip delivering 1775 lumens per linear metre of active length.
Luminous output 1800 lm/mLED strip delivering 1800 lumens per linear metre of active length.
Luminous output 1825 lm/mLED strip delivering 1825 lumens per linear metre of active length.
Luminous output 1850 lm/mLED strip delivering 1850 lumens per linear metre of active length.
Luminous output 1875 lm/mLED strip delivering 1875 lumens per linear metre of active length.
Luminous output 1900 lm/mLED strip delivering 1900 lumens per linear metre of active length.
Luminous output 1925 lm/mLED strip delivering 1925 lumens per linear metre of active length.
Luminous output 1950 lm/mLED strip delivering 1950 lumens per linear metre of active length.
Luminous output 1975 lm/mLED strip delivering 1975 lumens per linear metre of active length.
Luminous output 200 lm/mLED strip delivering 200 lumens per linear metre of active length.
Luminous output 2000 lm/mLED strip delivering 2000 lumens per linear metre of active length.
Luminous output 2025 lm/mLED strip delivering 2025 lumens per linear metre of active length.
Luminous output 2050 lm/mLED strip delivering 2050 lumens per linear metre of active length.
Luminous output 2075 lm/mLED strip delivering 2075 lumens per linear metre of active length.
Luminous output 2100 lm/mLED strip delivering 2100 lumens per linear metre of active length.
Luminous output 2125 lm/mLED strip delivering 2125 lumens per linear metre of active length.
Luminous output 2150 lm/mLED strip delivering 2150 lumens per linear metre of active length.
Luminous output 2175 lm/mLED strip delivering 2175 lumens per linear metre of active length.
Luminous output 2200 lm/mLED strip delivering 2200 lumens per linear metre of active length.
Luminous output 2225 lm/mLED strip delivering 2225 lumens per linear metre of active length.
Luminous output 225 lm/mLED strip delivering 225 lumens per linear metre of active length.
Luminous output 2250 lm/mLED strip delivering 2250 lumens per linear metre of active length.
Luminous output 2275 lm/mLED strip delivering 2275 lumens per linear metre of active length.
Luminous output 2300 lm/mLED strip delivering 2300 lumens per linear metre of active length.
Luminous output 2325 lm/mLED strip delivering 2325 lumens per linear metre of active length.
Luminous output 2350 lm/mLED strip delivering 2350 lumens per linear metre of active length.
Luminous output 2375 lm/mLED strip delivering 2375 lumens per linear metre of active length.
Luminous output 2400 lm/mLED strip delivering 2400 lumens per linear metre of active length.
Luminous output 2425 lm/mLED strip delivering 2425 lumens per linear metre of active length.
Luminous output 2450 lm/mLED strip delivering 2450 lumens per linear metre of active length.
Luminous output 2475 lm/mLED strip delivering 2475 lumens per linear metre of active length.
Luminous output 25 lm/mLED strip delivering 25 lumens per linear metre of active length.
Luminous output 250 lm/mLED strip delivering 250 lumens per linear metre of active length.
Luminous output 2500 lm/mLED strip delivering 2500 lumens per linear metre of active length.
Luminous output 2525 lm/mLED strip delivering 2525 lumens per linear metre of active length.
Luminous output 2550 lm/mLED strip delivering 2550 lumens per linear metre of active length.
Luminous output 2575 lm/mLED strip delivering 2575 lumens per linear metre of active length.
Luminous output 2600 lm/mLED strip delivering 2600 lumens per linear metre of active length.
Luminous output 2625 lm/mLED strip delivering 2625 lumens per linear metre of active length.
Luminous output 2650 lm/mLED strip delivering 2650 lumens per linear metre of active length.
Luminous output 2675 lm/mLED strip delivering 2675 lumens per linear metre of active length.
Luminous output 2700 lm/mLED strip delivering 2700 lumens per linear metre of active length.
Luminous output 2725 lm/mLED strip delivering 2725 lumens per linear metre of active length.
Luminous output 275 lm/mLED strip delivering 275 lumens per linear metre of active length.
Luminous output 2750 lm/mLED strip delivering 2750 lumens per linear metre of active length.
Luminous output 2775 lm/mLED strip delivering 2775 lumens per linear metre of active length.
Luminous output 2800 lm/mLED strip delivering 2800 lumens per linear metre of active length.
Luminous output 2825 lm/mLED strip delivering 2825 lumens per linear metre of active length.
Luminous output 2850 lm/mLED strip delivering 2850 lumens per linear metre of active length.
Luminous output 2875 lm/mLED strip delivering 2875 lumens per linear metre of active length.
Luminous output 2900 lm/mLED strip delivering 2900 lumens per linear metre of active length.
Luminous output 2925 lm/mLED strip delivering 2925 lumens per linear metre of active length.
Luminous output 2950 lm/mLED strip delivering 2950 lumens per linear metre of active length.
Luminous output 2975 lm/mLED strip delivering 2975 lumens per linear metre of active length.
Luminous output 300 lm/mLED strip delivering 300 lumens per linear metre of active length.
Luminous output 3000 lm/mLED strip delivering 3000 lumens per linear metre of active length.
Luminous output 3025 lm/mLED strip delivering 3025 lumens per linear metre of active length.
Luminous output 3050 lm/mLED strip delivering 3050 lumens per linear metre of active length.
Luminous output 3075 lm/mLED strip delivering 3075 lumens per linear metre of active length.
Luminous output 3100 lm/mLED strip delivering 3100 lumens per linear metre of active length.
Luminous output 3125 lm/mLED strip delivering 3125 lumens per linear metre of active length.
Luminous output 3150 lm/mLED strip delivering 3150 lumens per linear metre of active length.
Luminous output 3175 lm/mLED strip delivering 3175 lumens per linear metre of active length.
Luminous output 3200 lm/mLED strip delivering 3200 lumens per linear metre of active length.
Luminous output 3225 lm/mLED strip delivering 3225 lumens per linear metre of active length.
Luminous output 325 lm/mLED strip delivering 325 lumens per linear metre of active length.
Luminous output 3250 lm/mLED strip delivering 3250 lumens per linear metre of active length.
Luminous output 3275 lm/mLED strip delivering 3275 lumens per linear metre of active length.
Luminous output 3300 lm/mLED strip delivering 3300 lumens per linear metre of active length.
Luminous output 3325 lm/mLED strip delivering 3325 lumens per linear metre of active length.
Luminous output 3350 lm/mLED strip delivering 3350 lumens per linear metre of active length.
Luminous output 3375 lm/mLED strip delivering 3375 lumens per linear metre of active length.
Luminous output 3400 lm/mLED strip delivering 3400 lumens per linear metre of active length.
Luminous output 3425 lm/mLED strip delivering 3425 lumens per linear metre of active length.
Luminous output 3450 lm/mLED strip delivering 3450 lumens per linear metre of active length.
Luminous output 3475 lm/mLED strip delivering 3475 lumens per linear metre of active length.
Luminous output 350 lm/mLED strip delivering 350 lumens per linear metre of active length.
Luminous output 3500 lm/mLED strip delivering 3500 lumens per linear metre of active length.
Luminous output 3525 lm/mLED strip delivering 3525 lumens per linear metre of active length.
Luminous output 3550 lm/mLED strip delivering 3550 lumens per linear metre of active length.
Luminous output 3575 lm/mLED strip delivering 3575 lumens per linear metre of active length.
Luminous output 3600 lm/mLED strip delivering 3600 lumens per linear metre of active length.
Luminous output 3625 lm/mLED strip delivering 3625 lumens per linear metre of active length.
Luminous output 3650 lm/mLED strip delivering 3650 lumens per linear metre of active length.
Luminous output 3675 lm/mLED strip delivering 3675 lumens per linear metre of active length.
Luminous output 3700 lm/mLED strip delivering 3700 lumens per linear metre of active length.
Luminous output 3725 lm/mLED strip delivering 3725 lumens per linear metre of active length.
Luminous output 375 lm/mLED strip delivering 375 lumens per linear metre of active length.
Luminous output 3750 lm/mLED strip delivering 3750 lumens per linear metre of active length.
Luminous output 3775 lm/mLED strip delivering 3775 lumens per linear metre of active length.
Luminous output 3800 lm/mLED strip delivering 3800 lumens per linear metre of active length.
Luminous output 3825 lm/mLED strip delivering 3825 lumens per linear metre of active length.
Luminous output 3850 lm/mLED strip delivering 3850 lumens per linear metre of active length.
Luminous output 3875 lm/mLED strip delivering 3875 lumens per linear metre of active length.
Luminous output 3900 lm/mLED strip delivering 3900 lumens per linear metre of active length.
Luminous output 3925 lm/mLED strip delivering 3925 lumens per linear metre of active length.
Luminous output 3950 lm/mLED strip delivering 3950 lumens per linear metre of active length.
Luminous output 3975 lm/mLED strip delivering 3975 lumens per linear metre of active length.
Luminous output 400 lm/mLED strip delivering 400 lumens per linear metre of active length.
Luminous output 4000 lm/mLED strip delivering 4000 lumens per linear metre of active length.
Luminous output 4025 lm/mLED strip delivering 4025 lumens per linear metre of active length.
Luminous output 4050 lm/mLED strip delivering 4050 lumens per linear metre of active length.
Luminous output 4075 lm/mLED strip delivering 4075 lumens per linear metre of active length.
Luminous output 4100 lm/mLED strip delivering 4100 lumens per linear metre of active length.
Luminous output 4125 lm/mLED strip delivering 4125 lumens per linear metre of active length.
Luminous output 4150 lm/mLED strip delivering 4150 lumens per linear metre of active length.
Luminous output 4175 lm/mLED strip delivering 4175 lumens per linear metre of active length.
Luminous output 4200 lm/mLED strip delivering 4200 lumens per linear metre of active length.
Luminous output 4225 lm/mLED strip delivering 4225 lumens per linear metre of active length.
Luminous output 425 lm/mLED strip delivering 425 lumens per linear metre of active length.
Luminous output 4250 lm/mLED strip delivering 4250 lumens per linear metre of active length.
Luminous output 4275 lm/mLED strip delivering 4275 lumens per linear metre of active length.
Luminous output 4300 lm/mLED strip delivering 4300 lumens per linear metre of active length.
Luminous output 4325 lm/mLED strip delivering 4325 lumens per linear metre of active length.
Luminous output 4350 lm/mLED strip delivering 4350 lumens per linear metre of active length.
Luminous output 4375 lm/mLED strip delivering 4375 lumens per linear metre of active length.
Luminous output 4400 lm/mLED strip delivering 4400 lumens per linear metre of active length.
Luminous output 4425 lm/mLED strip delivering 4425 lumens per linear metre of active length.
Luminous output 4450 lm/mLED strip delivering 4450 lumens per linear metre of active length.
Luminous output 4475 lm/mLED strip delivering 4475 lumens per linear metre of active length.
Luminous output 450 lm/mLED strip delivering 450 lumens per linear metre of active length.
Luminous output 4500 lm/mLED strip delivering 4500 lumens per linear metre of active length.
Luminous output 4525 lm/mLED strip delivering 4525 lumens per linear metre of active length.
Luminous output 4550 lm/mLED strip delivering 4550 lumens per linear metre of active length.
Luminous output 4575 lm/mLED strip delivering 4575 lumens per linear metre of active length.
Luminous output 4600 lm/mLED strip delivering 4600 lumens per linear metre of active length.
Luminous output 4625 lm/mLED strip delivering 4625 lumens per linear metre of active length.
Luminous output 4650 lm/mLED strip delivering 4650 lumens per linear metre of active length.
Luminous output 4675 lm/mLED strip delivering 4675 lumens per linear metre of active length.
Luminous output 4700 lm/mLED strip delivering 4700 lumens per linear metre of active length.
Luminous output 4725 lm/mLED strip delivering 4725 lumens per linear metre of active length.
Luminous output 475 lm/mLED strip delivering 475 lumens per linear metre of active length.
Luminous output 4750 lm/mLED strip delivering 4750 lumens per linear metre of active length.
Luminous output 4775 lm/mLED strip delivering 4775 lumens per linear metre of active length.
Luminous output 4800 lm/mLED strip delivering 4800 lumens per linear metre of active length.
Luminous output 4825 lm/mLED strip delivering 4825 lumens per linear metre of active length.
Luminous output 4850 lm/mLED strip delivering 4850 lumens per linear metre of active length.
Luminous output 4875 lm/mLED strip delivering 4875 lumens per linear metre of active length.
Luminous output 4900 lm/mLED strip delivering 4900 lumens per linear metre of active length.
Luminous output 4925 lm/mLED strip delivering 4925 lumens per linear metre of active length.
Luminous output 4950 lm/mLED strip delivering 4950 lumens per linear metre of active length.
Luminous output 4975 lm/mLED strip delivering 4975 lumens per linear metre of active length.
Luminous output 50 lm/mLED strip delivering 50 lumens per linear metre of active length.
Luminous output 500 lm/mLED strip delivering 500 lumens per linear metre of active length.
Luminous output 5000 lm/mLED strip delivering 5000 lumens per linear metre of active length.
Luminous output 525 lm/mLED strip delivering 525 lumens per linear metre of active length.
Luminous output 550 lm/mLED strip delivering 550 lumens per linear metre of active length.
Luminous output 575 lm/mLED strip delivering 575 lumens per linear metre of active length.
Luminous output 600 lm/mLED strip delivering 600 lumens per linear metre of active length.
Luminous output 625 lm/mLED strip delivering 625 lumens per linear metre of active length.
Luminous output 650 lm/mLED strip delivering 650 lumens per linear metre of active length.
Luminous output 675 lm/mLED strip delivering 675 lumens per linear metre of active length.
Luminous output 700 lm/mLED strip delivering 700 lumens per linear metre of active length.
Luminous output 725 lm/mLED strip delivering 725 lumens per linear metre of active length.
Luminous output 75 lm/mLED strip delivering 75 lumens per linear metre of active length.
Luminous output 750 lm/mLED strip delivering 750 lumens per linear metre of active length.
Luminous output 775 lm/mLED strip delivering 775 lumens per linear metre of active length.
Luminous output 800 lm/mLED strip delivering 800 lumens per linear metre of active length.
Luminous output 825 lm/mLED strip delivering 825 lumens per linear metre of active length.
Luminous output 850 lm/mLED strip delivering 850 lumens per linear metre of active length.
Luminous output 875 lm/mLED strip delivering 875 lumens per linear metre of active length.
Luminous output 900 lm/mLED strip delivering 900 lumens per linear metre of active length.
Luminous output 925 lm/mLED strip delivering 925 lumens per linear metre of active length.
Luminous output 950 lm/mLED strip delivering 950 lumens per linear metre of active length.
Luminous output 975 lm/mLED strip delivering 975 lumens per linear metre of active length.
Luminous textileFabric with embedded optical fibres or micro-LEDs for illuminated surfaces.
Lux (lx)SI unit of illuminance; one lumen per square metre.
Lux contourIso-lux line on a plan drawing connecting points of equal illuminance.
Lux level (emergency)Minimum lux on escape routes (typically 1 lx on the floor centre line).
Lux level (office)Recommended maintained illuminance for office tasks, typically 300-500 lx.
Lux level (recommended)Standard-specified illuminance value for a given visual task.
Lux level (retail)Recommended illuminance for retail, typically 300-750 lx depending on merchandise.
Lux level (warehouse)Recommended illuminance for storage areas, typically 100-200 lx.
Lux mappingSystematic grid of lux readings documenting the illuminance distribution on site.
Lux meterInstrument measuring illuminance in lux.
Lux standard art gallery 300 lxLighting standards recommend approximately 300 lux maintained illuminance for art gallery applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard bathroom vanity 400 lxLighting standards recommend approximately 400 lux maintained illuminance for bathroom vanity applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard bedroom reading 300 lxLighting standards recommend approximately 300 lux maintained illuminance for bedroom reading applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard car park indoor 75 lxLighting standards recommend approximately 75 lux maintained illuminance for car park indoor applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard church nave 100 lxLighting standards recommend approximately 100 lux maintained illuminance for church nave applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard cinema foyer 200 lxLighting standards recommend approximately 200 lux maintained illuminance for cinema foyer applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard classroom 300 lxLighting standards recommend approximately 300 lux maintained illuminance for classroom applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard classroom board 500 lxLighting standards recommend approximately 500 lux maintained illuminance for classroom board applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard cleanroom ISO5 750 lxLighting standards recommend approximately 750 lux maintained illuminance for cleanroom ISO5 applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard commercial kitchen 500 lxLighting standards recommend approximately 500 lux maintained illuminance for commercial kitchen applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard corridor general 100 lxLighting standards recommend approximately 100 lux maintained illuminance for corridor general applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard cycle path 15 lxLighting standards recommend approximately 15 lux maintained illuminance for cycle path applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard dental exam 1000 lxLighting standards recommend approximately 1000 lux maintained illuminance for dental exam applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard emergency escape 1 lxLighting standards recommend approximately 1 lux maintained illuminance for emergency escape applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard factory fine assembly 1000 lxLighting standards recommend approximately 1000 lux maintained illuminance for factory fine assembly applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard factory inspection 1500 lxLighting standards recommend approximately 1500 lux maintained illuminance for factory inspection applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard football broadcast 2000 lxLighting standards recommend approximately 2000 lux maintained illuminance for football broadcast applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard football training 200 lxLighting standards recommend approximately 200 lux maintained illuminance for football training applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard gym floor 300 lxLighting standards recommend approximately 300 lux maintained illuminance for gym floor applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard home office 500 lxLighting standards recommend approximately 500 lux maintained illuminance for home office applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard hospital exam 1000 lxLighting standards recommend approximately 1000 lux maintained illuminance for hospital exam applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard hospital ward 100 lxLighting standards recommend approximately 100 lux maintained illuminance for hospital ward applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard hotel bedroom 150 lxLighting standards recommend approximately 150 lux maintained illuminance for hotel bedroom applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard hotel lobby 300 lxLighting standards recommend approximately 300 lux maintained illuminance for hotel lobby applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard jewellery bench 1500 lxLighting standards recommend approximately 1500 lux maintained illuminance for jewellery bench applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard kitchen worktop 500 lxLighting standards recommend approximately 500 lux maintained illuminance for kitchen worktop applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard laboratory 500 lxLighting standards recommend approximately 500 lux maintained illuminance for laboratory applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard library reading 500 lxLighting standards recommend approximately 500 lux maintained illuminance for library reading applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard living room ambient 150 lxLighting standards recommend approximately 150 lux maintained illuminance for living room ambient applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard loading dock 150 lxLighting standards recommend approximately 150 lux maintained illuminance for loading dock applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard museum sensitive 50 lxLighting standards recommend approximately 50 lux maintained illuminance for museum sensitive applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard office CAD 750 lxLighting standards recommend approximately 750 lux maintained illuminance for office CAD applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard office desk 500 lxLighting standards recommend approximately 500 lux maintained illuminance for office desk applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard operating theatre 10000 lxLighting standards recommend approximately 10000 lux maintained illuminance for operating theatre applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard park path 10 lxLighting standards recommend approximately 10 lux maintained illuminance for park path applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard pedestrian crossing 50 lxLighting standards recommend approximately 50 lux maintained illuminance for pedestrian crossing applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard petrol forecourt 150 lxLighting standards recommend approximately 150 lux maintained illuminance for petrol forecourt applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard photography studio 750 lxLighting standards recommend approximately 750 lux maintained illuminance for photography studio applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard restaurant dining 150 lxLighting standards recommend approximately 150 lux maintained illuminance for restaurant dining applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard retail general 300 lxLighting standards recommend approximately 300 lux maintained illuminance for retail general applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard retail jewellery 750 lxLighting standards recommend approximately 750 lux maintained illuminance for retail jewellery applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard server room 300 lxLighting standards recommend approximately 300 lux maintained illuminance for server room applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard sports broadcast 1500 lxLighting standards recommend approximately 1500 lux maintained illuminance for sports broadcast applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard sports training 300 lxLighting standards recommend approximately 300 lux maintained illuminance for sports training applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard stairway 150 lxLighting standards recommend approximately 150 lux maintained illuminance for stairway applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard street residential 10 lxLighting standards recommend approximately 10 lux maintained illuminance for street residential applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard street urban 20 lxLighting standards recommend approximately 20 lux maintained illuminance for street urban applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard swimming pool 200 lxLighting standards recommend approximately 200 lux maintained illuminance for swimming pool applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard tennis indoor 500 lxLighting standards recommend approximately 500 lux maintained illuminance for tennis indoor applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard textile inspection 1000 lxLighting standards recommend approximately 1000 lux maintained illuminance for textile inspection applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard theatre stage 300 lxLighting standards recommend approximately 300 lux maintained illuminance for theatre stage applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard tunnel interior 100 lxLighting standards recommend approximately 100 lux maintained illuminance for tunnel interior applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard TV studio 1000 lxLighting standards recommend approximately 1000 lux maintained illuminance for TV studio applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard warehouse general 150 lxLighting standards recommend approximately 150 lux maintained illuminance for warehouse general applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard wine cellar 50 lxLighting standards recommend approximately 50 lux maintained illuminance for wine cellar applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux standard yoga studio 200 lxLighting standards recommend approximately 200 lux maintained illuminance for yoga studio applications. Actual values vary by national standard (EN 12464, IESNA, AS/NZS) and specific visual task requirements.
Lux targetDesign illuminance value that the installation must achieve after maintenance factors.

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M

MacAdam ellipseChromaticity tolerance zone; SDCM 1–3 indicates high uniformity.
MacAdam stepSingle unit of the SDCM scale.
Machine-readable labelQR or barcode on a luminaire linking to digital product data.
Macro (controller)Sequence of control commands executed with a single button press.
Magnetic ballastLegacy inductive ballast for fluorescent lamps, now replaced by LED drivers.
Magnetic interferenceDisruption of DMX or DALI signals by nearby magnetic fields.
Magnetic mountingMagnet-based system for rapid, drill-free installation.
Magnetic trackRail system using magnets for quick insertion and removal of LED modules.
Main distribution board (MDB)Primary electrical panel feeding sub-circuits including lighting.
Mains voltageLocal utility supply voltage, typically 230 V AC in Europe.
Maintained luminaireEmergency luminaire that operates both on mains and battery power.
MaintenancePeriodic cleaning, replacement and verification of an LED installation.
Maintenance (predictive)Data-driven strategy forecasting failures to optimise service.
Maintenance accessPhysical route for reaching luminaires to perform cleaning and replacement.
Maintenance factor (MF)Combined coefficient for luminous decay and dirt in design calculations.
Maintenance schedulePlanned timetable for cleaning and inspecting an LED installation.
Maintenance-free luminaireSealed LED fixture designed to operate without servicing for its entire life.
Manual overridePhysical switch allowing occupants to bypass automatic lighting controls.
Manufacturer warranty periodDuration of the performance guarantee, typically 3-7 years for professional LED.
Mapping (pixel)Assigning individual addresses to each LED in an addressable system.
Margin (power — 20 percent rule)Over-sizing the PSU by at least 20 percent for reliability.
Marine-grade stainless steel316L stainless steel for luminaire hardware in coastal environments.
Mark-up (specification)Annotations on a lighting drawing indicating changes or substitutions.
Marker lightLow-intensity luminaire indicating a pathway, step or hazard.
Mask (light)Opaque element blocking light from specific areas of the beam.
Masking tape (installation)Temporary tape protecting profile finishes during construction.
Mass (thermal)Capacity of a profile to absorb and release heat, stabilising temperature.
Mast (lighting)Pole or column supporting outdoor LED luminaires.
Master (DALI)Device initiating commands on the DALI bus.
Master dimmerPrimary dimming device whose signal is replicated by slave amplifiers.
Master-slaveConfiguration where one controller dictates behaviour of follower devices.
Master-slave wiringConfiguration where one controller dictates the output of follower devices.
Matched pairTwo luminaires or modules selected for identical colour and flux within 1 SDCM.
Material (ABS)ABS used in LED profiles, luminaires, heat sinks or optical components.
Material (acetal (POM))acetal (POM) used in LED profiles, luminaires, heat sinks or optical components.
Material (alumina ceramic (Al₂O₃))alumina ceramic (Al₂O₃) used in LED profiles, luminaires, heat sinks or optical components.
Material (aluminium 1050)aluminium 1050 used in LED profiles, luminaires, heat sinks or optical components.
Material (aluminium 5005)aluminium 5005 used in LED profiles, luminaires, heat sinks or optical components.
Material (aluminium 5052)aluminium 5052 used in LED profiles, luminaires, heat sinks or optical components.
Material (aluminium 6060-T5)aluminium 6060-T5 used in LED profiles, luminaires, heat sinks or optical components.
Material (aluminium 6063-T5)aluminium 6063-T5 used in LED profiles, luminaires, heat sinks or optical components.
Material (aluminium 6063-T6)aluminium 6063-T6 used in LED profiles, luminaires, heat sinks or optical components.
Material (aluminium 6082-T6)aluminium 6082-T6 used in LED profiles, luminaires, heat sinks or optical components.
Material (aluminium 7075-T6)aluminium 7075-T6 used in LED profiles, luminaires, heat sinks or optical components.
Material (aluminium nitride (AlN))aluminium nitride (AlN) used in LED profiles, luminaires, heat sinks or optical components.
Material (beryllium oxide (BeO))beryllium oxide (BeO) used in LED profiles, luminaires, heat sinks or optical components.
Material (borosilicate glass)borosilicate glass used in LED profiles, luminaires, heat sinks or optical components.
Material (brass CuZn39Pb3)brass CuZn39Pb3 used in LED profiles, luminaires, heat sinks or optical components.
Material (bronze CuSn8)bronze CuSn8 used in LED profiles, luminaires, heat sinks or optical components.
Material (carbon fibre composite)carbon fibre composite used in LED profiles, luminaires, heat sinks or optical components.
Material (cast iron)cast iron used in LED profiles, luminaires, heat sinks or optical components.
Material (copper C101)copper C101 used in LED profiles, luminaires, heat sinks or optical components.
Material (copper C110)copper C110 used in LED profiles, luminaires, heat sinks or optical components.
Material (die-cast aluminium ADC12)die-cast aluminium ADC12 used in LED profiles, luminaires, heat sinks or optical components.
Material (die-cast zinc Zamak 5)die-cast zinc Zamak 5 used in LED profiles, luminaires, heat sinks or optical components.
Material (encapsulant)Silicone or resin protecting the LED die from moisture and contaminants.
Material (EPDM rubber)EPDM rubber used in LED profiles, luminaires, heat sinks or optical components.
Material (fibreglass GRP)fibreglass GRP used in LED profiles, luminaires, heat sinks or optical components.
Material (float glass)float glass used in LED profiles, luminaires, heat sinks or optical components.
Material (galvanised steel)galvanised steel used in LED profiles, luminaires, heat sinks or optical components.
Material (HDPE)HDPE used in LED profiles, luminaires, heat sinks or optical components.
Material (Inconel)Inconel used in LED profiles, luminaires, heat sinks or optical components.
Material (LDPE)LDPE used in LED profiles, luminaires, heat sinks or optical components.
Material (magnesium AZ31)magnesium AZ31 used in LED profiles, luminaires, heat sinks or optical components.
Material (neoprene)neoprene used in LED profiles, luminaires, heat sinks or optical components.
Material (nylon PA12 (SLS 3D print))nylon PA12 (SLS 3D print) used in LED profiles, luminaires, heat sinks or optical components.
Material (nylon PA6)nylon PA6 used in LED profiles, luminaires, heat sinks or optical components.
Material (nylon PA66)nylon PA66 used in LED profiles, luminaires, heat sinks or optical components.
Material (PBT (polybutylene terephthalate))PBT (polybutylene terephthalate) used in LED profiles, luminaires, heat sinks or optical components.
Material (PEEK)PEEK used in LED profiles, luminaires, heat sinks or optical components.
Material (PET)PET used in LED profiles, luminaires, heat sinks or optical components.
Material (phenolic resin)phenolic resin used in LED profiles, luminaires, heat sinks or optical components.
Material (polycarbonate (PC))polycarbonate (PC) used in LED profiles, luminaires, heat sinks or optical components.
Material (polycarbonate UV-stabilised)polycarbonate UV-stabilised used in LED profiles, luminaires, heat sinks or optical components.
Material (polyester film (Mylar))polyester film (Mylar) used in LED profiles, luminaires, heat sinks or optical components.
Material (polyethylene (PE))polyethylene (PE) used in LED profiles, luminaires, heat sinks or optical components.
Material (polyimide (Kapton))polyimide (Kapton) used in LED profiles, luminaires, heat sinks or optical components.
Material (polypropylene (PP))polypropylene (PP) used in LED profiles, luminaires, heat sinks or optical components.
Material (polystyrene (PS))polystyrene (PS) used in LED profiles, luminaires, heat sinks or optical components.
Material (polyurethane (PU))polyurethane (PU) used in LED profiles, luminaires, heat sinks or optical components.
Material (PTFE (Teflon))PTFE (Teflon) used in LED profiles, luminaires, heat sinks or optical components.
Material (PVC flexible)PVC flexible used in LED profiles, luminaires, heat sinks or optical components.
Material (PVC rigid)PVC rigid used in LED profiles, luminaires, heat sinks or optical components.
Material (sapphire (Al₂O₃))sapphire (Al₂O₃) used in LED profiles, luminaires, heat sinks or optical components.
Material (silicon carbide (SiC))silicon carbide (SiC) used in LED profiles, luminaires, heat sinks or optical components.
Material (silicone HTV)silicone HTV used in LED profiles, luminaires, heat sinks or optical components.
Material (silicone optical grade)silicone optical grade used in LED profiles, luminaires, heat sinks or optical components.
Material (silicone RTV)silicone RTV used in LED profiles, luminaires, heat sinks or optical components.
Material (soda-lime glass)soda-lime glass used in LED profiles, luminaires, heat sinks or optical components.
Material (stainless steel 303)stainless steel 303 used in LED profiles, luminaires, heat sinks or optical components.
Material (stainless steel 304)stainless steel 304 used in LED profiles, luminaires, heat sinks or optical components.
Material (stainless steel 316)stainless steel 316 used in LED profiles, luminaires, heat sinks or optical components.
Material (stainless steel 316L)stainless steel 316L used in LED profiles, luminaires, heat sinks or optical components.
Material (tempered glass 4mm)tempered glass 4mm used in LED profiles, luminaires, heat sinks or optical components.
Material (tempered glass 6mm)tempered glass 6mm used in LED profiles, luminaires, heat sinks or optical components.
Material (thermal grease (silicone))thermal grease (silicone) used in LED profiles, luminaires, heat sinks or optical components.
Material (thermal pad (graphite))thermal pad (graphite) used in LED profiles, luminaires, heat sinks or optical components.
Material (thermal pad (silicone))thermal pad (silicone) used in LED profiles, luminaires, heat sinks or optical components.
Material (titanium Grade 2)titanium Grade 2 used in LED profiles, luminaires, heat sinks or optical components.
Material (titanium Grade 5)titanium Grade 5 used in LED profiles, luminaires, heat sinks or optical components.
Material (zinc alloy Zamak 3)zinc alloy Zamak 3 used in LED profiles, luminaires, heat sinks or optical components.
Material (zirconia ceramic)zirconia ceramic used in LED profiles, luminaires, heat sinks or optical components.
Material Safety Data Sheet (MSDS)Document detailing chemical properties and hazards of LED materials.
Matrix (extrusion die)Steel tool through which aluminium is extruded.
Matrix (LED)Two-dimensional array of LEDs for displays, panels and signage.
Matter (protocol)IP-based smart-home interoperability standard supporting lighting control.
Maximum ambient temperature (Tmax)Highest ambient temperature at which the luminaire meets its rated life.
Maximum cable length (power)Longest permissible power-cable run before voltage drop exceeds tolerance.
Maximum cable length (signal)Longest permissible control-cable run before signal integrity degrades.
Maximum run 1 mLED strip maximum single-feed run length of 1 metres before voltage drop becomes excessive.
Maximum run 10 mLED strip maximum single-feed run length of 10 metres before voltage drop becomes excessive.
Maximum run 12 mLED strip maximum single-feed run length of 12 metres before voltage drop becomes excessive.
Maximum run 15 mLED strip maximum single-feed run length of 15 metres before voltage drop becomes excessive.
Maximum run 2 mLED strip maximum single-feed run length of 2 metres before voltage drop becomes excessive.
Maximum run 20 mLED strip maximum single-feed run length of 20 metres before voltage drop becomes excessive.
Maximum run 25 mLED strip maximum single-feed run length of 25 metres before voltage drop becomes excessive.
Maximum run 3 mLED strip maximum single-feed run length of 3 metres before voltage drop becomes excessive.
Maximum run 30 mLED strip maximum single-feed run length of 30 metres before voltage drop becomes excessive.
Maximum run 4 mLED strip maximum single-feed run length of 4 metres before voltage drop becomes excessive.
Maximum run 40 mLED strip maximum single-feed run length of 40 metres before voltage drop becomes excessive.
Maximum run 5 mLED strip maximum single-feed run length of 5 metres before voltage drop becomes excessive.
Maximum run 50 mLED strip maximum single-feed run length of 50 metres before voltage drop becomes excessive.
Maximum run 6 mLED strip maximum single-feed run length of 6 metres before voltage drop becomes excessive.
Maximum run 7 mLED strip maximum single-feed run length of 7 metres before voltage drop becomes excessive.
Maximum run 8 mLED strip maximum single-feed run length of 8 metres before voltage drop becomes excessive.
Maximum run 9 mLED strip maximum single-feed run length of 9 metres before voltage drop becomes excessive.
MCPCB (Metal-Core PCB)PCB with a metal core for superior thermal dissipation.
Mean time between failures (MTBF)Statistical measure of driver or controller reliability in hours.
Mean WellLeading manufacturer of professional LED power supplies.
Mean Well ELG seriesPopular outdoor constant-current/constant-voltage driver series.
Mean Well HLG seriesIndustrial and high-bay LED driver series.
Mean Well LPV seriesEconomy constant-voltage driver series.
Mean Well NPF seriesCompact constant-current or constant-voltage driver series.
Mean Well XLG seriesAdjustable-output LED driver series with DIP-switch configuration.
Mechanical drawingEngineering drawing showing physical dimensions and mounting details.
Mechanical lifeNumber of switching or adjustment cycles a luminaire mechanism can withstand.
media wall techniqueAddressable LED strips or panels on a feature wall display dynamic colour content or ambient patterns synchronised with the room audio-visual system.
Melanopic luxIlluminance weighted to the melanopsin sensitivity of intrinsically photosensitive retinal ganglion cells.
Melanopic/photopic ratio (M/P)Ratio used in HCL design quantifying circadian stimulation of a source.
MelatoninSleep hormone influenced by blue light, relevant to HCL.
Membrane keypadThin sealed keypad on a lighting controller rated for frequent use.
Membrane switchThin, sealed push-button used on lighting controllers and keypads.
Memory (last level)Driver feature restoring the previous dimming level after a power cycle.
Mercury vapour lampLegacy HID lamp type now prohibited in many markets, replaced by LED.
Mercury-freeLED products contain no mercury, unlike fluorescent lamps.
Mesh networkWireless mesh where each device relays signals to neighbours.
Metal halide (MH)HID lamp type now largely replaced by LED in commercial and industrial use.
Metal-clad switchHeavy-duty switch in a cast-metal enclosure for industrial environments.
MetamerismTwo colours matching under one source but differing under another.
Metering (sub-meter)Dedicated energy meter on a lighting distribution board for consumption tracking.
Method statementDocument describing the safe procedure for installing LED luminaires on site.
Micro controller unit (MCU)Small processor inside LED controllers and smart drivers.
Micro-controller unit (MCU)Small processor inside controllers and smart drivers.
Micro-dimmingVery fine dimming resolution (e.g. 16-bit, 65 536 steps) for imperceptible transitions.
Micro-LEDMicrometre-scale LED for ultra-high-resolution displays.
Micro-opticMiniaturised lens or prism for per-LED beam control.
Micro-optic arrayGrid of miniature lenses for per-LED beam control in a linear luminaire.
Micro-prismatic filmThin adhesive film with micro-prisms converting a diffuse cover to a directional one.
Mid-power LEDLED rated 0.1–0.5 W, the most common in professional strips.
Mid-span power injectionFeeding additional power at an intermediate point along a long strip run.
Migration (lighting upgrade)Phased transition from legacy lamps to a new LED installation.
Milk acrylicColloquial term for opal PMMA diffuser, white like milk.
Milling (CNC)Precision machining of aluminium for custom profile modifications.
Mini profileProfile under 10 mm height for discreet and furniture installations.
Minimum loadLowest wattage a dimmer requires to operate stably without flickering.
Minimum load (dimmer)Lowest wattage a dimmer requires for stable operation without flickering.
Minimum order quantity (MOQ)Smallest batch a manufacturer will produce, relevant for custom profiles.
Mirror opticHighly reflective internal surface directing light in a luminaire.
Mirror-finish reflectorPolished aluminium or vacuum-metallised reflector for maximum efficiency.
Mismatch (colour)Visible difference in CCT or tint between adjacent luminaires or strip segments.
Mitre cut45-degree angle cut at the end of a profile for corner joints.
Mitre joint (profile)Two mitre-cut profiles meeting to form a seamless right-angle corner.
Mixing chamberInternal volume where light from multiple LEDs blends before exiting.
Mobile app (lighting)Smartphone application for configuring, controlling and monitoring LED luminaires.
Mock-up roomFull-scale test installation space where proposed lighting is evaluated before approval.
ModbusSerial communication protocol for industrial LED-installation control.
Model (BIM / Revit)3D digital model of a luminaire for Building Information Modelling workflows.
Modelling (3D lighting)Creating a three-dimensional virtual model of a space with luminaire data for simulation.
Modelling ratioRatio of cylindrical to horizontal illuminance, indicating three-dimensional perception.
Modified spectrumLED output with adjusted phosphor blend or filtering for a specific application.
ModularitySystem composed of standardised, interchangeable and expandable modules.
Module (emergency)Battery-backed unit powering LEDs during a blackout.
Module (LED)Pre-assembled LED unit on a PCB with optional optics.
Module (Zhaga)LED module conforming to Zhaga specifications for interchangeability.
Module connectorElectrical and mechanical interface between an LED module and a luminaire body.
Module efficiencyLuminous efficacy of an LED module measured before luminaire optical losses.
Module lumen outputTotal flux from an LED module measured per IES LM-79 or CIE S 025.
Module output 10 lmLED module producing 10 lumens total luminous flux.
Module output 100 lmLED module producing 100 lumens total luminous flux.
Module output 110 lmLED module producing 110 lumens total luminous flux.
Module output 120 lmLED module producing 120 lumens total luminous flux.
Module output 130 lmLED module producing 130 lumens total luminous flux.
Module output 140 lmLED module producing 140 lumens total luminous flux.
Module output 150 lmLED module producing 150 lumens total luminous flux.
Module output 160 lmLED module producing 160 lumens total luminous flux.
Module output 170 lmLED module producing 170 lumens total luminous flux.
Module output 180 lmLED module producing 180 lumens total luminous flux.
Module output 190 lmLED module producing 190 lumens total luminous flux.
Module output 20 lmLED module producing 20 lumens total luminous flux.
Module output 200 lmLED module producing 200 lumens total luminous flux.
Module output 210 lmLED module producing 210 lumens total luminous flux.
Module output 220 lmLED module producing 220 lumens total luminous flux.
Module output 230 lmLED module producing 230 lumens total luminous flux.
Module output 240 lmLED module producing 240 lumens total luminous flux.
Module output 250 lmLED module producing 250 lumens total luminous flux.
Module output 260 lmLED module producing 260 lumens total luminous flux.
Module output 270 lmLED module producing 270 lumens total luminous flux.
Module output 280 lmLED module producing 280 lumens total luminous flux.
Module output 290 lmLED module producing 290 lumens total luminous flux.
Module output 30 lmLED module producing 30 lumens total luminous flux.
Module output 300 lmLED module producing 300 lumens total luminous flux.
Module output 310 lmLED module producing 310 lumens total luminous flux.
Module output 320 lmLED module producing 320 lumens total luminous flux.
Module output 330 lmLED module producing 330 lumens total luminous flux.
Module output 340 lmLED module producing 340 lumens total luminous flux.
Module output 350 lmLED module producing 350 lumens total luminous flux.
Module output 360 lmLED module producing 360 lumens total luminous flux.
Module output 370 lmLED module producing 370 lumens total luminous flux.
Module output 380 lmLED module producing 380 lumens total luminous flux.
Module output 390 lmLED module producing 390 lumens total luminous flux.
Module output 40 lmLED module producing 40 lumens total luminous flux.
Module output 400 lmLED module producing 400 lumens total luminous flux.
Module output 410 lmLED module producing 410 lumens total luminous flux.
Module output 420 lmLED module producing 420 lumens total luminous flux.
Module output 430 lmLED module producing 430 lumens total luminous flux.
Module output 440 lmLED module producing 440 lumens total luminous flux.
Module output 450 lmLED module producing 450 lumens total luminous flux.
Module output 460 lmLED module producing 460 lumens total luminous flux.
Module output 470 lmLED module producing 470 lumens total luminous flux.
Module output 480 lmLED module producing 480 lumens total luminous flux.
Module output 490 lmLED module producing 490 lumens total luminous flux.
Module output 50 lmLED module producing 50 lumens total luminous flux.
Module output 500 lmLED module producing 500 lumens total luminous flux.
Module output 510 lmLED module producing 510 lumens total luminous flux.
Module output 520 lmLED module producing 520 lumens total luminous flux.
Module output 530 lmLED module producing 530 lumens total luminous flux.
Module output 540 lmLED module producing 540 lumens total luminous flux.
Module output 550 lmLED module producing 550 lumens total luminous flux.
Module output 560 lmLED module producing 560 lumens total luminous flux.
Module output 570 lmLED module producing 570 lumens total luminous flux.
Module output 580 lmLED module producing 580 lumens total luminous flux.
Module output 590 lmLED module producing 590 lumens total luminous flux.
Module output 60 lmLED module producing 60 lumens total luminous flux.
Module output 600 lmLED module producing 600 lumens total luminous flux.
Module output 610 lmLED module producing 610 lumens total luminous flux.
Module output 620 lmLED module producing 620 lumens total luminous flux.
Module output 630 lmLED module producing 630 lumens total luminous flux.
Module output 640 lmLED module producing 640 lumens total luminous flux.
Module output 650 lmLED module producing 650 lumens total luminous flux.
Module output 660 lmLED module producing 660 lumens total luminous flux.
Module output 670 lmLED module producing 670 lumens total luminous flux.
Module output 680 lmLED module producing 680 lumens total luminous flux.
Module output 690 lmLED module producing 690 lumens total luminous flux.
Module output 70 lmLED module producing 70 lumens total luminous flux.
Module output 700 lmLED module producing 700 lumens total luminous flux.
Module output 710 lmLED module producing 710 lumens total luminous flux.
Module output 720 lmLED module producing 720 lumens total luminous flux.
Module output 730 lmLED module producing 730 lumens total luminous flux.
Module output 740 lmLED module producing 740 lumens total luminous flux.
Module output 750 lmLED module producing 750 lumens total luminous flux.
Module output 760 lmLED module producing 760 lumens total luminous flux.
Module output 770 lmLED module producing 770 lumens total luminous flux.
Module output 780 lmLED module producing 780 lumens total luminous flux.
Module output 790 lmLED module producing 790 lumens total luminous flux.
Module output 80 lmLED module producing 80 lumens total luminous flux.
Module output 800 lmLED module producing 800 lumens total luminous flux.
Module output 90 lmLED module producing 90 lumens total luminous flux.
Module replacementSwapping a failed LED module without replacing the entire luminaire.
Module temperature (Tc point)Specified measurement point on an LED module for thermal monitoring.
Moisture barrierLayer or seal preventing water vapour ingress into a luminaire.
Moisture ingressWater penetration into a luminaire, potentially causing electrical failure.
Moisture-resistant driverDriver rated for damp environments (IP44 or above).
Molex connectorIndustry-standard connector for internal luminaire wiring.
Momentary switchPush-button that is active only while pressed, returning to off on release.
Monitoring (energy)Real-time tracking of LED system power consumption via smart controllers.
Mono-crystalline LEDLED die grown on a single-crystal substrate for maximum uniformity.
MonopointSingle-outlet ceiling canopy powering one pendant luminaire.
MosfetField-effect transistor for PWM switching in drivers and controllers.
Motion sensorSensor detecting movement to trigger automatic lighting.
Mounting (3M VHB tape)Accessory: 3M VHB tape for LED profile or luminaire installation.
Mounting (adhesive foam tape)Accessory: adhesive foam tape for LED profile or luminaire installation.
Mounting (angle bracket aluminium)Accessory: angle bracket aluminium for LED profile or luminaire installation.
Mounting (angle bracket steel)Accessory: angle bracket steel for LED profile or luminaire installation.
Mounting (bracket)Using a metal bracket to fix a profile to a surface.
Mounting (C-clamp)Accessory: C-clamp for LED profile or luminaire installation.
Mounting (ceiling clip spring)Accessory: ceiling clip spring for LED profile or luminaire installation.
Mounting (ceiling rose round)Accessory: ceiling rose round for LED profile or luminaire installation.
Mounting (ceiling rose square)Accessory: ceiling rose square for LED profile or luminaire installation.
Mounting (chain suspension)Accessory: chain suspension for LED profile or luminaire installation.
Mounting (channel clip metal)Accessory: channel clip metal for LED profile or luminaire installation.
Mounting (channel clip plastic)Accessory: channel clip plastic for LED profile or luminaire installation.
Mounting (clip-on)Quick snap-fit installation without screws.
Mounting (concealed screw channel)Accessory: concealed screw channel for LED profile or luminaire installation.
Mounting (corner bracket adjustable)Accessory: corner bracket adjustable for LED profile or luminaire installation.
Mounting (counter-sunk screw M3)Accessory: counter-sunk screw M3 for LED profile or luminaire installation.
Mounting (counter-sunk screw M4)Accessory: counter-sunk screw M4 for LED profile or luminaire installation.
Mounting (DIN-rail adapter)Accessory: DIN-rail adapter for LED profile or luminaire installation.
Mounting (double-sided foam pad)Accessory: double-sided foam pad for LED profile or luminaire installation.
Mounting (eye bolt M6)Accessory: eye bolt M6 for LED profile or luminaire installation.
Mounting (eye bolt M8)Accessory: eye bolt M8 for LED profile or luminaire installation.
Mounting (flush bracket)Accessory: flush bracket for LED profile or luminaire installation.
Mounting (gutter clip)Accessory: gutter clip for LED profile or luminaire installation.
Mounting (hook magnet neodymium)Accessory: hook magnet neodymium for LED profile or luminaire installation.
Mounting (joining plate aluminium)Accessory: joining plate aluminium for LED profile or luminaire installation.
Mounting (joining plate steel)Accessory: joining plate steel for LED profile or luminaire installation.
Mounting (L-bracket aluminium)Accessory: L-bracket aluminium for LED profile or luminaire installation.
Mounting (L-bracket steel)Accessory: L-bracket steel for LED profile or luminaire installation.
Mounting (magnetic mounting plate)Accessory: magnetic mounting plate for LED profile or luminaire installation.
Mounting (masonry anchor M5)Accessory: masonry anchor M5 for LED profile or luminaire installation.
Mounting (masonry anchor M6)Accessory: masonry anchor M6 for LED profile or luminaire installation.
Mounting (pendant cable 1.5m)Accessory: pendant cable 1.5m for LED profile or luminaire installation.
Mounting (pendant cable 1m)Accessory: pendant cable 1m for LED profile or luminaire installation.
Mounting (pendant cable 2m)Accessory: pendant cable 2m for LED profile or luminaire installation.
Mounting (pendant cable 3m)Accessory: pendant cable 3m for LED profile or luminaire installation.
Mounting (pendant rod 100cm)Accessory: pendant rod 100cm for LED profile or luminaire installation.
Mounting (pendant rod 30cm)Accessory: pendant rod 30cm for LED profile or luminaire installation.
Mounting (pendant rod 50cm)Accessory: pendant rod 50cm for LED profile or luminaire installation.
Mounting (pendant)Profile hanging from the ceiling via cables or rods.
Mounting (rawl plug 6mm)Accessory: rawl plug 6mm for LED profile or luminaire installation.
Mounting (rawl plug 8mm)Accessory: rawl plug 8mm for LED profile or luminaire installation.
Mounting (recessed)Profile set into a groove in the host surface.
Mounting (rivet aluminium)Accessory: rivet aluminium for LED profile or luminaire installation.
Mounting (rivet steel)Accessory: rivet steel for LED profile or luminaire installation.
Mounting (rosette ceiling black)Accessory: rosette ceiling black for LED profile or luminaire installation.
Mounting (rosette ceiling chrome)Accessory: rosette ceiling chrome for LED profile or luminaire installation.
Mounting (rosette ceiling white)Accessory: rosette ceiling white for LED profile or luminaire installation.
Mounting (safety cable 1m)Accessory: safety cable 1m for LED profile or luminaire installation.
Mounting (safety cable 2m)Accessory: safety cable 2m for LED profile or luminaire installation.
Mounting (self-tapping screw 3.5×16)Accessory: self-tapping screw 3.5×16 for LED profile or luminaire installation.
Mounting (self-tapping screw 3.5×25)Accessory: self-tapping screw 3.5×25 for LED profile or luminaire installation.
Mounting (self-tapping screw 4×30)Accessory: self-tapping screw 4×30 for LED profile or luminaire installation.
Mounting (snap-lock rail clip)Accessory: snap-lock rail clip for LED profile or luminaire installation.
Mounting (spring anchor ceiling)Accessory: spring anchor ceiling for LED profile or luminaire installation.
Mounting (spring steel clip narrow)Accessory: spring steel clip narrow for LED profile or luminaire installation.
Mounting (spring steel clip wide)Accessory: spring steel clip wide for LED profile or luminaire installation.
Mounting (suction cup mount)Accessory: suction cup mount for LED profile or luminaire installation.
Mounting (surface)Profile applied directly onto a surface.
Mounting (suspension wire gripper)Accessory: suspension wire gripper for LED profile or luminaire installation.
Mounting (T-bar ceiling clip)Accessory: T-bar ceiling clip for LED profile or luminaire installation.
Mounting (threaded rod M4×1m)Accessory: threaded rod M4×1m for LED profile or luminaire installation.
Mounting (threaded rod M6×1m)Accessory: threaded rod M6×1m for LED profile or luminaire installation.
Mounting (timber screw 3.5×30)Accessory: timber screw 3.5×30 for LED profile or luminaire installation.
Mounting (timber screw 4×40)Accessory: timber screw 4×40 for LED profile or luminaire installation.
Mounting (toggle bolt M5)Accessory: toggle bolt M5 for LED profile or luminaire installation.
Mounting (toggle bolt M6)Accessory: toggle bolt M6 for LED profile or luminaire installation.
Mounting (torsion spring pair)Accessory: torsion spring pair for LED profile or luminaire installation.
Mounting (truss clamp)Accessory: truss clamp for LED profile or luminaire installation.
Mounting (U-bolt M6)Accessory: U-bolt M6 for LED profile or luminaire installation.
Mounting (U-bracket)Accessory: U-bracket for LED profile or luminaire installation.
Mounting (vibration isolator mount)Accessory: vibration isolator mount for LED profile or luminaire installation.
Mounting (wall bracket decorative)Accessory: wall bracket decorative for LED profile or luminaire installation.
Mounting (wall plug 6mm)Accessory: wall plug 6mm for LED profile or luminaire installation.
Mounting (wall plug 8mm)Accessory: wall plug 8mm for LED profile or luminaire installation.
Mounting (wall)Profile fixed to a vertical surface.
Mounting (wire cable 1.5m steel)Accessory: wire cable 1.5m steel for LED profile or luminaire installation.
Mounting (wire cable 2m steel)Accessory: wire cable 2m steel for LED profile or luminaire installation.
Mounting (Z-clip pair)Accessory: Z-clip pair for LED profile or luminaire installation.
Mounting adapterIntermediate plate or bracket adapting a luminaire to a non-standard surface.
Mounting depth (minimum)Shallowest ceiling or wall void that can accommodate a recessed luminaire.
Mounting templatePaper or plastic guide placed on the surface to mark screw holes accurately.
Mounting weight limitMaximum luminaire mass permitted for a specific mounting method.
Movable luminairePortable or adjustable fixture, as opposed to a fixed installation.
MQTTLightweight IoT messaging protocol used in smart-lighting systems.
MR16Multi-faceted reflector lamp format, 16/8 inch (51 mm) diameter, now available in LED.
Multi-channel driverDriver with multiple independent outputs for different LED groups.
Multi-circuit trackElectrified rail with two or more independent circuits for flexible zoning.
Multi-driver luminaireLuminaire containing more than one driver for separate control of channels.
Multi-sensorSingle housing combining occupancy, daylight and sometimes temperature sensors.
Multi-storey lighting designCoordinated LED scheme spanning multiple floors of a building.
Muting (alarm)Temporarily silencing a fault alarm on a lighting controller for maintenance.

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N

Nano-structured lensLens with surface features at the nanometre scale for ultra-precise beam control.
Nano-textureSurface treatment on lenses or covers for controlled light diffusion at the nano scale.
Nanometre (nm)Unit of light wavelength (1 nm = 10⁻⁹ m).
Narrow beamBeam angle below 20 degrees for focused accent lighting.
Narrow distribution (Type I)IES roadway distribution with a narrow lateral spread for pathway lighting.
Natural ventilation luminaireLuminaire designed for open or naturally ventilated ceiling plenums.
Navigation light (marine)Coloured LED lamp required by maritime law on vessels and structures.
Near-field photometryLight measurement close to the source, capturing full spatial detail.
NEC (National Electrical Code)US electrical-installation code impacting LED luminaire wiring.
Nema socketStandard photocell receptacle on North American outdoor LED luminaires.
Neon flex (bottom-emitting)Neon flex with light output from the bottom face.
Neon flex (LED)Flexible silicone tube with an integrated strip replicating the neon look.
Neon flex (side-emitting)Neon flex with light output from the sides.
Neon flex (top-emitting)Neon flex with light output from the top face.
Neon sign (LED replacement)LED channel-letter or flex-neon module replacing traditional glass neon.
Net-zero building lightingLED system designed to consume no more energy than on-site renewables generate.
Net-zero lightingLED installation whose annual energy consumption is fully offset by on-site renewable generation, contributing to net-zero-energy building targets.
Network latencyDelay between a control command and the luminaire response, in milliseconds.
Network nodeSingle connected device in a smart or mesh lighting network.
Network topologyPhysical and logical layout of a lighting control network.
Neutral conductor (N)Return conductor in an AC system carrying unbalanced current.
Neutral WhiteColour temperature around 4 000 K, a balanced tone between warm and cool.
Neutral white (4000 K)Balanced white tone perceived as neither warm nor cool.
NF C 15-100French electrical installation.
NFC (Near Field Communication)Short-range protocol for programming LED drivers.
NFPA 70 (NEC)US National Electrical Code.
NiCd batteryNickel-cadmium battery used in legacy emergency luminaires.
niche highlighting techniqueSmall LED profile inside a wall recess focuses attention on a displayed object through localised brightness contrast against the surrounding ambient light level.
Night modeLow-intensity lighting state for after-hours security or comfort.
Night-sky complianceOutdoor lighting designed to minimise upward light in dark-sky communities.
NiMH batteryNickel-metal-hydride battery common in modern emergency LED fittings.
NitUnit of luminance equal to 1 cd/m².
Noise (audible)Buzzing or humming from a driver, often caused by magnetostriction or capacitor whine.
Noise (electrical)Unwanted electrical signals interfering with LED control communications.
Noise floor (sensor)Minimum detectable signal level of a daylight or occupancy sensor.
Nominal currentManufacturer-specified standard operating current for an LED.
Nominal fluxCatalogue-listed lumen output under standard test conditions.
Nominal powerStated wattage of a luminaire under standard operating conditions.
Nominal voltageStandard operating voltage of an LED strip (e.g. 24 V DC).
Non-contact voltage testerPen-type device detecting live mains cables near LED installations.
Non-dimmable driverPower supply operating at fixed full output with no dimming interface.
Non-maintained emergencyEmergency luminaire lighting only when mains power fails.
Non-maintained luminaireEmergency fixture that illuminates only when mains power fails.
Non-shunted lamp holderTombstone socket for single-ended LED tubes requiring live and neutral separation.
Norm / StandardTechnical document defining requirements and limits for products.
Normal-mode surgeVoltage spike between line and neutral, the most common surge type.
Normally closed (NC)Relay or switch contact that is closed in the de-energised state.
Normally open (NO)Relay or switch contact that is open in the de-energised state.
Notch filterOptical filter removing a narrow band of wavelengths from the spectrum.
NTC thermistorNegative-temperature-coefficient resistor used for inrush-current limiting.
Number of LEDs per metreChip density per metre of strip, a key uniformity parameter.
Nut runnerPowered tool for tightening mounting bolts to a specified torque.
Nylon anchorPlastic wall plug for light-duty LED profile fixings into masonry.
Nylon cable glandPlastic cable entry fitting providing IP68 sealing.
Nylon washerInsulating washer preventing galvanic corrosion between dissimilar metals.

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O

Objective lensFront optical element in a projector luminaire forming the exit beam.
Obstruction lightRed LED beacon on tall structures warning aircraft.
Occupancy sensorSensor detecting room presence to switch lighting on or off.
Occupancy timeoutDelay after last detected movement before lights switch off or dim.
Off-grid lightingLED system powered by batteries and solar panels, independent of the mains.
Off-state powerResidual power consumed by a driver or controller when the LEDs are off.
Offset bracketMounting bracket positioning the profile a set distance from the mounting surface.
Ohm (Ω)Unit of electrical resistance.
Oil-resistant cableCable with an outer jacket resistant to mineral oils, for industrial environments.
OLED (Organic LED)Organic LED on a thin film for diffused surface light.
On-site acceptance testPost-installation verification that the lighting meets design specifications.
Opacity (cover)Degree of non-transparency; the complement of transmittance.
OpalMilky-white diffusing material hiding individual LEDs.
Opal (high-transmission)Opal cover engineered for high transmittance above 80 percent.
Open circuitBreak in an electrical path preventing current flow.
Open protocolStandardised, non-proprietary communication standard.
Open-area emergency lightingIllumination preventing panic in large open spaces during power failure.
Open-circuit voltage (Voc)Driver output voltage when no LED load is connected.
Operating hoursCumulative time a luminaire has been switched on.
Operating temperature rangeAmbient temperature limits for safe LED operation.
Optic (asymmetric)Optical element producing a non-symmetric wall-wash beam.
Optic (bat-wing)Optic producing a wide, flat distribution for uniform illuminance.
Optic (collimating)Lens making divergent LED rays parallel.
Optic (interchangeable)System allowing lens replacement to change beam angle.
Optic (linear)Extruded lens running the full strip length.
Optic (primary)Lens integrated into the LED package.
Optic (secondary)Additional lens or reflector over the LED reshaping the beam.
Optic 100° beamSecondary optic or lens producing a 100-degree beam angle at half-peak intensity.
Optic 101° beamSecondary optic or lens producing a 101-degree beam angle at half-peak intensity.
Optic 102° beamSecondary optic or lens producing a 102-degree beam angle at half-peak intensity.
Optic 103° beamSecondary optic or lens producing a 103-degree beam angle at half-peak intensity.
Optic 104° beamSecondary optic or lens producing a 104-degree beam angle at half-peak intensity.
Optic 105° beamSecondary optic or lens producing a 105-degree beam angle at half-peak intensity.
Optic 106° beamSecondary optic or lens producing a 106-degree beam angle at half-peak intensity.
Optic 107° beamSecondary optic or lens producing a 107-degree beam angle at half-peak intensity.
Optic 108° beamSecondary optic or lens producing a 108-degree beam angle at half-peak intensity.
Optic 109° beamSecondary optic or lens producing a 109-degree beam angle at half-peak intensity.
Optic 10° beamSecondary optic or lens producing a 10-degree beam angle at half-peak intensity.
Optic 110° beamSecondary optic or lens producing a 110-degree beam angle at half-peak intensity.
Optic 111° beamSecondary optic or lens producing a 111-degree beam angle at half-peak intensity.
Optic 112° beamSecondary optic or lens producing a 112-degree beam angle at half-peak intensity.
Optic 113° beamSecondary optic or lens producing a 113-degree beam angle at half-peak intensity.
Optic 114° beamSecondary optic or lens producing a 114-degree beam angle at half-peak intensity.
Optic 115° beamSecondary optic or lens producing a 115-degree beam angle at half-peak intensity.
Optic 116° beamSecondary optic or lens producing a 116-degree beam angle at half-peak intensity.
Optic 117° beamSecondary optic or lens producing a 117-degree beam angle at half-peak intensity.
Optic 118° beamSecondary optic or lens producing a 118-degree beam angle at half-peak intensity.
Optic 119° beamSecondary optic or lens producing a 119-degree beam angle at half-peak intensity.
Optic 11° beamSecondary optic or lens producing a 11-degree beam angle at half-peak intensity.
Optic 120° beamSecondary optic or lens producing a 120-degree beam angle at half-peak intensity.
Optic 121° beamSecondary optic or lens producing a 121-degree beam angle at half-peak intensity.
Optic 122° beamSecondary optic or lens producing a 122-degree beam angle at half-peak intensity.
Optic 123° beamSecondary optic or lens producing a 123-degree beam angle at half-peak intensity.
Optic 124° beamSecondary optic or lens producing a 124-degree beam angle at half-peak intensity.
Optic 125° beamSecondary optic or lens producing a 125-degree beam angle at half-peak intensity.
Optic 126° beamSecondary optic or lens producing a 126-degree beam angle at half-peak intensity.
Optic 127° beamSecondary optic or lens producing a 127-degree beam angle at half-peak intensity.
Optic 128° beamSecondary optic or lens producing a 128-degree beam angle at half-peak intensity.
Optic 129° beamSecondary optic or lens producing a 129-degree beam angle at half-peak intensity.
Optic 12° beamSecondary optic or lens producing a 12-degree beam angle at half-peak intensity.
Optic 130° beamSecondary optic or lens producing a 130-degree beam angle at half-peak intensity.
Optic 131° beamSecondary optic or lens producing a 131-degree beam angle at half-peak intensity.
Optic 132° beamSecondary optic or lens producing a 132-degree beam angle at half-peak intensity.
Optic 133° beamSecondary optic or lens producing a 133-degree beam angle at half-peak intensity.
Optic 134° beamSecondary optic or lens producing a 134-degree beam angle at half-peak intensity.
Optic 135° beamSecondary optic or lens producing a 135-degree beam angle at half-peak intensity.
Optic 136° beamSecondary optic or lens producing a 136-degree beam angle at half-peak intensity.
Optic 137° beamSecondary optic or lens producing a 137-degree beam angle at half-peak intensity.
Optic 138° beamSecondary optic or lens producing a 138-degree beam angle at half-peak intensity.
Optic 139° beamSecondary optic or lens producing a 139-degree beam angle at half-peak intensity.
Optic 13° beamSecondary optic or lens producing a 13-degree beam angle at half-peak intensity.
Optic 140° beamSecondary optic or lens producing a 140-degree beam angle at half-peak intensity.
Optic 141° beamSecondary optic or lens producing a 141-degree beam angle at half-peak intensity.
Optic 142° beamSecondary optic or lens producing a 142-degree beam angle at half-peak intensity.
Optic 143° beamSecondary optic or lens producing a 143-degree beam angle at half-peak intensity.
Optic 144° beamSecondary optic or lens producing a 144-degree beam angle at half-peak intensity.
Optic 145° beamSecondary optic or lens producing a 145-degree beam angle at half-peak intensity.
Optic 146° beamSecondary optic or lens producing a 146-degree beam angle at half-peak intensity.
Optic 147° beamSecondary optic or lens producing a 147-degree beam angle at half-peak intensity.
Optic 148° beamSecondary optic or lens producing a 148-degree beam angle at half-peak intensity.
Optic 149° beamSecondary optic or lens producing a 149-degree beam angle at half-peak intensity.
Optic 14° beamSecondary optic or lens producing a 14-degree beam angle at half-peak intensity.
Optic 150° beamSecondary optic or lens producing a 150-degree beam angle at half-peak intensity.
Optic 151° beamSecondary optic or lens producing a 151-degree beam angle at half-peak intensity.
Optic 152° beamSecondary optic or lens producing a 152-degree beam angle at half-peak intensity.
Optic 153° beamSecondary optic or lens producing a 153-degree beam angle at half-peak intensity.
Optic 154° beamSecondary optic or lens producing a 154-degree beam angle at half-peak intensity.
Optic 155° beamSecondary optic or lens producing a 155-degree beam angle at half-peak intensity.
Optic 156° beamSecondary optic or lens producing a 156-degree beam angle at half-peak intensity.
Optic 157° beamSecondary optic or lens producing a 157-degree beam angle at half-peak intensity.
Optic 158° beamSecondary optic or lens producing a 158-degree beam angle at half-peak intensity.
Optic 159° beamSecondary optic or lens producing a 159-degree beam angle at half-peak intensity.
Optic 15° beamSecondary optic or lens producing a 15-degree beam angle at half-peak intensity.
Optic 160° beamSecondary optic or lens producing a 160-degree beam angle at half-peak intensity.
Optic 161° beamSecondary optic or lens producing a 161-degree beam angle at half-peak intensity.
Optic 162° beamSecondary optic or lens producing a 162-degree beam angle at half-peak intensity.
Optic 163° beamSecondary optic or lens producing a 163-degree beam angle at half-peak intensity.
Optic 164° beamSecondary optic or lens producing a 164-degree beam angle at half-peak intensity.
Optic 165° beamSecondary optic or lens producing a 165-degree beam angle at half-peak intensity.
Optic 166° beamSecondary optic or lens producing a 166-degree beam angle at half-peak intensity.
Optic 167° beamSecondary optic or lens producing a 167-degree beam angle at half-peak intensity.
Optic 168° beamSecondary optic or lens producing a 168-degree beam angle at half-peak intensity.
Optic 169° beamSecondary optic or lens producing a 169-degree beam angle at half-peak intensity.
Optic 16° beamSecondary optic or lens producing a 16-degree beam angle at half-peak intensity.
Optic 170° beamSecondary optic or lens producing a 170-degree beam angle at half-peak intensity.
Optic 171° beamSecondary optic or lens producing a 171-degree beam angle at half-peak intensity.
Optic 172° beamSecondary optic or lens producing a 172-degree beam angle at half-peak intensity.
Optic 173° beamSecondary optic or lens producing a 173-degree beam angle at half-peak intensity.
Optic 174° beamSecondary optic or lens producing a 174-degree beam angle at half-peak intensity.
Optic 175° beamSecondary optic or lens producing a 175-degree beam angle at half-peak intensity.
Optic 176° beamSecondary optic or lens producing a 176-degree beam angle at half-peak intensity.
Optic 177° beamSecondary optic or lens producing a 177-degree beam angle at half-peak intensity.
Optic 178° beamSecondary optic or lens producing a 178-degree beam angle at half-peak intensity.
Optic 179° beamSecondary optic or lens producing a 179-degree beam angle at half-peak intensity.
Optic 17° beamSecondary optic or lens producing a 17-degree beam angle at half-peak intensity.
Optic 180° beamSecondary optic or lens producing a 180-degree beam angle at half-peak intensity.
Optic 18° beamSecondary optic or lens producing a 18-degree beam angle at half-peak intensity.
Optic 19° beamSecondary optic or lens producing a 19-degree beam angle at half-peak intensity.
Optic 1° beamSecondary optic or lens producing a 1-degree beam angle at half-peak intensity.
Optic 20° beamSecondary optic or lens producing a 20-degree beam angle at half-peak intensity.
Optic 21° beamSecondary optic or lens producing a 21-degree beam angle at half-peak intensity.
Optic 22° beamSecondary optic or lens producing a 22-degree beam angle at half-peak intensity.
Optic 23° beamSecondary optic or lens producing a 23-degree beam angle at half-peak intensity.
Optic 24° beamSecondary optic or lens producing a 24-degree beam angle at half-peak intensity.
Optic 25° beamSecondary optic or lens producing a 25-degree beam angle at half-peak intensity.
Optic 26° beamSecondary optic or lens producing a 26-degree beam angle at half-peak intensity.
Optic 27° beamSecondary optic or lens producing a 27-degree beam angle at half-peak intensity.
Optic 28° beamSecondary optic or lens producing a 28-degree beam angle at half-peak intensity.
Optic 29° beamSecondary optic or lens producing a 29-degree beam angle at half-peak intensity.
Optic 2° beamSecondary optic or lens producing a 2-degree beam angle at half-peak intensity.
Optic 30° beamSecondary optic or lens producing a 30-degree beam angle at half-peak intensity.
Optic 31° beamSecondary optic or lens producing a 31-degree beam angle at half-peak intensity.
Optic 32° beamSecondary optic or lens producing a 32-degree beam angle at half-peak intensity.
Optic 33° beamSecondary optic or lens producing a 33-degree beam angle at half-peak intensity.
Optic 34° beamSecondary optic or lens producing a 34-degree beam angle at half-peak intensity.
Optic 35° beamSecondary optic or lens producing a 35-degree beam angle at half-peak intensity.
Optic 36° beamSecondary optic or lens producing a 36-degree beam angle at half-peak intensity.
Optic 37° beamSecondary optic or lens producing a 37-degree beam angle at half-peak intensity.
Optic 38° beamSecondary optic or lens producing a 38-degree beam angle at half-peak intensity.
Optic 39° beamSecondary optic or lens producing a 39-degree beam angle at half-peak intensity.
Optic 3° beamSecondary optic or lens producing a 3-degree beam angle at half-peak intensity.
Optic 40° beamSecondary optic or lens producing a 40-degree beam angle at half-peak intensity.
Optic 41° beamSecondary optic or lens producing a 41-degree beam angle at half-peak intensity.
Optic 42° beamSecondary optic or lens producing a 42-degree beam angle at half-peak intensity.
Optic 43° beamSecondary optic or lens producing a 43-degree beam angle at half-peak intensity.
Optic 44° beamSecondary optic or lens producing a 44-degree beam angle at half-peak intensity.
Optic 45° beamSecondary optic or lens producing a 45-degree beam angle at half-peak intensity.
Optic 46° beamSecondary optic or lens producing a 46-degree beam angle at half-peak intensity.
Optic 47° beamSecondary optic or lens producing a 47-degree beam angle at half-peak intensity.
Optic 48° beamSecondary optic or lens producing a 48-degree beam angle at half-peak intensity.
Optic 49° beamSecondary optic or lens producing a 49-degree beam angle at half-peak intensity.
Optic 4° beamSecondary optic or lens producing a 4-degree beam angle at half-peak intensity.
Optic 50° beamSecondary optic or lens producing a 50-degree beam angle at half-peak intensity.
Optic 51° beamSecondary optic or lens producing a 51-degree beam angle at half-peak intensity.
Optic 52° beamSecondary optic or lens producing a 52-degree beam angle at half-peak intensity.
Optic 53° beamSecondary optic or lens producing a 53-degree beam angle at half-peak intensity.
Optic 54° beamSecondary optic or lens producing a 54-degree beam angle at half-peak intensity.
Optic 55° beamSecondary optic or lens producing a 55-degree beam angle at half-peak intensity.
Optic 56° beamSecondary optic or lens producing a 56-degree beam angle at half-peak intensity.
Optic 57° beamSecondary optic or lens producing a 57-degree beam angle at half-peak intensity.
Optic 58° beamSecondary optic or lens producing a 58-degree beam angle at half-peak intensity.
Optic 59° beamSecondary optic or lens producing a 59-degree beam angle at half-peak intensity.
Optic 5° beamSecondary optic or lens producing a 5-degree beam angle at half-peak intensity.
Optic 60° beamSecondary optic or lens producing a 60-degree beam angle at half-peak intensity.
Optic 61° beamSecondary optic or lens producing a 61-degree beam angle at half-peak intensity.
Optic 62° beamSecondary optic or lens producing a 62-degree beam angle at half-peak intensity.
Optic 63° beamSecondary optic or lens producing a 63-degree beam angle at half-peak intensity.
Optic 64° beamSecondary optic or lens producing a 64-degree beam angle at half-peak intensity.
Optic 65° beamSecondary optic or lens producing a 65-degree beam angle at half-peak intensity.
Optic 66° beamSecondary optic or lens producing a 66-degree beam angle at half-peak intensity.
Optic 67° beamSecondary optic or lens producing a 67-degree beam angle at half-peak intensity.
Optic 68° beamSecondary optic or lens producing a 68-degree beam angle at half-peak intensity.
Optic 69° beamSecondary optic or lens producing a 69-degree beam angle at half-peak intensity.
Optic 6° beamSecondary optic or lens producing a 6-degree beam angle at half-peak intensity.
Optic 70° beamSecondary optic or lens producing a 70-degree beam angle at half-peak intensity.
Optic 71° beamSecondary optic or lens producing a 71-degree beam angle at half-peak intensity.
Optic 72° beamSecondary optic or lens producing a 72-degree beam angle at half-peak intensity.
Optic 73° beamSecondary optic or lens producing a 73-degree beam angle at half-peak intensity.
Optic 74° beamSecondary optic or lens producing a 74-degree beam angle at half-peak intensity.
Optic 75° beamSecondary optic or lens producing a 75-degree beam angle at half-peak intensity.
Optic 76° beamSecondary optic or lens producing a 76-degree beam angle at half-peak intensity.
Optic 77° beamSecondary optic or lens producing a 77-degree beam angle at half-peak intensity.
Optic 78° beamSecondary optic or lens producing a 78-degree beam angle at half-peak intensity.
Optic 79° beamSecondary optic or lens producing a 79-degree beam angle at half-peak intensity.
Optic 7° beamSecondary optic or lens producing a 7-degree beam angle at half-peak intensity.
Optic 80° beamSecondary optic or lens producing a 80-degree beam angle at half-peak intensity.
Optic 81° beamSecondary optic or lens producing a 81-degree beam angle at half-peak intensity.
Optic 82° beamSecondary optic or lens producing a 82-degree beam angle at half-peak intensity.
Optic 83° beamSecondary optic or lens producing a 83-degree beam angle at half-peak intensity.
Optic 84° beamSecondary optic or lens producing a 84-degree beam angle at half-peak intensity.
Optic 85° beamSecondary optic or lens producing a 85-degree beam angle at half-peak intensity.
Optic 86° beamSecondary optic or lens producing a 86-degree beam angle at half-peak intensity.
Optic 87° beamSecondary optic or lens producing a 87-degree beam angle at half-peak intensity.
Optic 88° beamSecondary optic or lens producing a 88-degree beam angle at half-peak intensity.
Optic 89° beamSecondary optic or lens producing a 89-degree beam angle at half-peak intensity.
Optic 8° beamSecondary optic or lens producing a 8-degree beam angle at half-peak intensity.
Optic 90° beamSecondary optic or lens producing a 90-degree beam angle at half-peak intensity.
Optic 91° beamSecondary optic or lens producing a 91-degree beam angle at half-peak intensity.
Optic 92° beamSecondary optic or lens producing a 92-degree beam angle at half-peak intensity.
Optic 93° beamSecondary optic or lens producing a 93-degree beam angle at half-peak intensity.
Optic 94° beamSecondary optic or lens producing a 94-degree beam angle at half-peak intensity.
Optic 95° beamSecondary optic or lens producing a 95-degree beam angle at half-peak intensity.
Optic 96° beamSecondary optic or lens producing a 96-degree beam angle at half-peak intensity.
Optic 97° beamSecondary optic or lens producing a 97-degree beam angle at half-peak intensity.
Optic 98° beamSecondary optic or lens producing a 98-degree beam angle at half-peak intensity.
Optic 99° beamSecondary optic or lens producing a 99-degree beam angle at half-peak intensity.
Optic 9° beamSecondary optic or lens producing a 9-degree beam angle at half-peak intensity.
Optical benchPrecision rail system for measuring LED beam characteristics in a laboratory.
Optical bondingLaminating a lens to a cover with index-matched adhesive to eliminate air-gap reflections.
Optical centrePoint on a lens or reflector through which the principal ray passes.
Optical cross-talkUnwanted light leaking between adjacent luminaire compartments.
Optical efficiencyRatio of useful light exiting the luminaire to total light generated by the LEDs.
Optical fibreGlass or polymer fibre for transporting light to remote locations.
Optical fibre bundleGroup of fibres transmitting LED light to multiple remote points.
Optical fibre end-glowFibre-optic strand emitting light from its tip, used for starry-ceiling effects.
Optical fibre side-glowFibre-optic strand emitting light along its length for linear accents.
Optical isolatorComponent preventing unwanted light feedback between LED modules.
Optical pathRoute taken by light from source to illuminated surface.
Optical path lengthProduct of physical distance and refractive index a photon traverses.
Optical sensorGeneric term for any light-detecting device (photodiode, phototransistor, LDR).
Optical waveguideTransparent panel or rod guiding light by total internal reflection.
Optimisation (energy)Adjusting lighting levels and schedules to minimise electricity consumption.
Orange-peel textureSurface finish on a reflector providing a semi-diffuse, glare-reducing reflection.
Orientation (landscape)Luminaire mounted with its long axis horizontal.
Orientation (portrait)Luminaire mounted with its long axis vertical.
Orphan nodeWireless mesh device that has lost connection to the network.
OscilloscopeElectronic instrument for viewing PWM and dimming waveforms in LED circuits.
OTA firmware updateOver-the-air software upgrade for wireless LED controllers and drivers.
Out-of-box experienceFirst-time setup simplicity of a smart-lighting product by a consumer.
Outdoor-rated cableCable with UV-stabilised jacket suitable for permanent exterior installation.
Output (luminous)Total flux emitted by an LED system, in lumens.
Output 100 lm/mLED strip emitting 100 lumens per linear metre.
Output 1000 lm/mLED strip emitting 1000 lumens per linear metre.
Output 1050 lm/mLED strip emitting 1050 lumens per linear metre.
Output 1100 lm/mLED strip emitting 1100 lumens per linear metre.
Output 1150 lm/mLED strip emitting 1150 lumens per linear metre.
Output 1200 lm/mLED strip emitting 1200 lumens per linear metre.
Output 1250 lm/mLED strip emitting 1250 lumens per linear metre.
Output 1300 lm/mLED strip emitting 1300 lumens per linear metre.
Output 1350 lm/mLED strip emitting 1350 lumens per linear metre.
Output 1400 lm/mLED strip emitting 1400 lumens per linear metre.
Output 1450 lm/mLED strip emitting 1450 lumens per linear metre.
Output 150 lm/mLED strip emitting 150 lumens per linear metre.
Output 1500 lm/mLED strip emitting 1500 lumens per linear metre.
Output 1550 lm/mLED strip emitting 1550 lumens per linear metre.
Output 1600 lm/mLED strip emitting 1600 lumens per linear metre.
Output 1650 lm/mLED strip emitting 1650 lumens per linear metre.
Output 1700 lm/mLED strip emitting 1700 lumens per linear metre.
Output 1750 lm/mLED strip emitting 1750 lumens per linear metre.
Output 1800 lm/mLED strip emitting 1800 lumens per linear metre.
Output 1850 lm/mLED strip emitting 1850 lumens per linear metre.
Output 1900 lm/mLED strip emitting 1900 lumens per linear metre.
Output 1950 lm/mLED strip emitting 1950 lumens per linear metre.
Output 200 lm/mLED strip emitting 200 lumens per linear metre.
Output 2000 lm/mLED strip emitting 2000 lumens per linear metre.
Output 2050 lm/mLED strip emitting 2050 lumens per linear metre.
Output 2100 lm/mLED strip emitting 2100 lumens per linear metre.
Output 2150 lm/mLED strip emitting 2150 lumens per linear metre.
Output 2200 lm/mLED strip emitting 2200 lumens per linear metre.
Output 2250 lm/mLED strip emitting 2250 lumens per linear metre.
Output 2300 lm/mLED strip emitting 2300 lumens per linear metre.
Output 2350 lm/mLED strip emitting 2350 lumens per linear metre.
Output 2400 lm/mLED strip emitting 2400 lumens per linear metre.
Output 2450 lm/mLED strip emitting 2450 lumens per linear metre.
Output 250 lm/mLED strip emitting 250 lumens per linear metre.
Output 2500 lm/mLED strip emitting 2500 lumens per linear metre.
Output 2550 lm/mLED strip emitting 2550 lumens per linear metre.
Output 2600 lm/mLED strip emitting 2600 lumens per linear metre.
Output 2650 lm/mLED strip emitting 2650 lumens per linear metre.
Output 2700 lm/mLED strip emitting 2700 lumens per linear metre.
Output 2750 lm/mLED strip emitting 2750 lumens per linear metre.
Output 2800 lm/mLED strip emitting 2800 lumens per linear metre.
Output 2850 lm/mLED strip emitting 2850 lumens per linear metre.
Output 2900 lm/mLED strip emitting 2900 lumens per linear metre.
Output 2950 lm/mLED strip emitting 2950 lumens per linear metre.
Output 300 lm/mLED strip emitting 300 lumens per linear metre.
Output 3000 lm/mLED strip emitting 3000 lumens per linear metre.
Output 3050 lm/mLED strip emitting 3050 lumens per linear metre.
Output 3100 lm/mLED strip emitting 3100 lumens per linear metre.
Output 3150 lm/mLED strip emitting 3150 lumens per linear metre.
Output 3200 lm/mLED strip emitting 3200 lumens per linear metre.
Output 3250 lm/mLED strip emitting 3250 lumens per linear metre.
Output 3300 lm/mLED strip emitting 3300 lumens per linear metre.
Output 3350 lm/mLED strip emitting 3350 lumens per linear metre.
Output 3400 lm/mLED strip emitting 3400 lumens per linear metre.
Output 3450 lm/mLED strip emitting 3450 lumens per linear metre.
Output 350 lm/mLED strip emitting 350 lumens per linear metre.
Output 3500 lm/mLED strip emitting 3500 lumens per linear metre.
Output 3550 lm/mLED strip emitting 3550 lumens per linear metre.
Output 3600 lm/mLED strip emitting 3600 lumens per linear metre.
Output 3650 lm/mLED strip emitting 3650 lumens per linear metre.
Output 3700 lm/mLED strip emitting 3700 lumens per linear metre.
Output 3750 lm/mLED strip emitting 3750 lumens per linear metre.
Output 3800 lm/mLED strip emitting 3800 lumens per linear metre.
Output 3850 lm/mLED strip emitting 3850 lumens per linear metre.
Output 3900 lm/mLED strip emitting 3900 lumens per linear metre.
Output 3950 lm/mLED strip emitting 3950 lumens per linear metre.
Output 400 lm/mLED strip emitting 400 lumens per linear metre.
Output 4000 lm/mLED strip emitting 4000 lumens per linear metre.
Output 4050 lm/mLED strip emitting 4050 lumens per linear metre.
Output 4100 lm/mLED strip emitting 4100 lumens per linear metre.
Output 4150 lm/mLED strip emitting 4150 lumens per linear metre.
Output 4200 lm/mLED strip emitting 4200 lumens per linear metre.
Output 4250 lm/mLED strip emitting 4250 lumens per linear metre.
Output 4300 lm/mLED strip emitting 4300 lumens per linear metre.
Output 4350 lm/mLED strip emitting 4350 lumens per linear metre.
Output 4400 lm/mLED strip emitting 4400 lumens per linear metre.
Output 4450 lm/mLED strip emitting 4450 lumens per linear metre.
Output 450 lm/mLED strip emitting 450 lumens per linear metre.
Output 4500 lm/mLED strip emitting 4500 lumens per linear metre.
Output 4550 lm/mLED strip emitting 4550 lumens per linear metre.
Output 4600 lm/mLED strip emitting 4600 lumens per linear metre.
Output 4650 lm/mLED strip emitting 4650 lumens per linear metre.
Output 4700 lm/mLED strip emitting 4700 lumens per linear metre.
Output 4750 lm/mLED strip emitting 4750 lumens per linear metre.
Output 4800 lm/mLED strip emitting 4800 lumens per linear metre.
Output 4850 lm/mLED strip emitting 4850 lumens per linear metre.
Output 4900 lm/mLED strip emitting 4900 lumens per linear metre.
Output 4950 lm/mLED strip emitting 4950 lumens per linear metre.
Output 50 lm/mLED strip emitting 50 lumens per linear metre.
Output 500 lm/mLED strip emitting 500 lumens per linear metre.
Output 5000 lm/mLED strip emitting 5000 lumens per linear metre.
Output 550 lm/mLED strip emitting 550 lumens per linear metre.
Output 600 lm/mLED strip emitting 600 lumens per linear metre.
Output 650 lm/mLED strip emitting 650 lumens per linear metre.
Output 700 lm/mLED strip emitting 700 lumens per linear metre.
Output 750 lm/mLED strip emitting 750 lumens per linear metre.
Output 800 lm/mLED strip emitting 800 lumens per linear metre.
Output 850 lm/mLED strip emitting 850 lumens per linear metre.
Output 900 lm/mLED strip emitting 900 lumens per linear metre.
Output 950 lm/mLED strip emitting 950 lumens per linear metre.
Output connector (driver)Terminal or socket on the LED side of a power supply.
Output current (adjustable)Driver feature allowing the LED drive current to be set by DIP switch, NFC or DALI.
Output rippleResidual AC component on the driver DC output, expressed as peak-to-peak millivolts.
Outrigger armArm extending a luminaire away from a pole or wall.
Over-specificationSpecifying higher-performance products than necessary, increasing cost without benefit.
Over-temperature shutdownDriver protection feature cutting output when internal temperature is critical.
Over-voltage lockoutDriver refusing to start when mains voltage exceeds the rated input range.
Overcurrent protectionCircuit protecting LEDs from currents exceeding rated values.
OverdrivingOperating an LED above rated current; increases flux but shortens life.
Overhead crane area lightingLED illumination designed to avoid interference with overhead-crane travel.
Overheating protectionThermal cut-out or derating preventing LED damage from excessive temperature.
Overvoltage protectionDevice clamping voltage above the maximum allowed level.
Owner project requirements (OPR)Document defining the client performance expectations for the lighting system.
Oxide layer 10 micronAnodic oxide coating of 10 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 11 micronAnodic oxide coating of 11 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 12 micronAnodic oxide coating of 12 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 13 micronAnodic oxide coating of 13 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 14 micronAnodic oxide coating of 14 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 15 micronAnodic oxide coating of 15 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 16 micronAnodic oxide coating of 16 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 17 micronAnodic oxide coating of 17 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 18 micronAnodic oxide coating of 18 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 19 micronAnodic oxide coating of 19 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 20 micronAnodic oxide coating of 20 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 21 micronAnodic oxide coating of 21 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 22 micronAnodic oxide coating of 22 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 23 micronAnodic oxide coating of 23 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 24 micronAnodic oxide coating of 24 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 25 micronAnodic oxide coating of 25 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 26 micronAnodic oxide coating of 26 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 27 micronAnodic oxide coating of 27 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 28 micronAnodic oxide coating of 28 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 29 micronAnodic oxide coating of 29 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 30 micronAnodic oxide coating of 30 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 31 micronAnodic oxide coating of 31 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 32 micronAnodic oxide coating of 32 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 33 micronAnodic oxide coating of 33 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 34 micronAnodic oxide coating of 34 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 35 micronAnodic oxide coating of 35 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 36 micronAnodic oxide coating of 36 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 37 micronAnodic oxide coating of 37 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 38 micronAnodic oxide coating of 38 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 39 micronAnodic oxide coating of 39 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 40 micronAnodic oxide coating of 40 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 41 micronAnodic oxide coating of 41 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 42 micronAnodic oxide coating of 42 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 43 micronAnodic oxide coating of 43 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 44 micronAnodic oxide coating of 44 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 45 micronAnodic oxide coating of 45 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 46 micronAnodic oxide coating of 46 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 47 micronAnodic oxide coating of 47 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 48 micronAnodic oxide coating of 48 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 49 micronAnodic oxide coating of 49 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 5 micronAnodic oxide coating of 5 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 50 micronAnodic oxide coating of 50 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 6 micronAnodic oxide coating of 6 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 7 micronAnodic oxide coating of 7 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 8 micronAnodic oxide coating of 8 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.
Oxide layer 9 micronAnodic oxide coating of 9 um on aluminium LED profiles. Standard Type II is 5-25 um decorative; hard Type III exceeds 25 um for wear resistance in high-traffic architectural installations.

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P

Pad (solder)Conductive area on a strip for soldering wires.
Panel (LED)Flat luminaire with edge-lit or direct-lit LEDs for uniform illumination.
PAR (Parabolic Aluminised Reflector)Lamp format now available in LED versions (PAR20, PAR30, PAR38).
Passive coolingHeat dissipation by natural convection and radiation only.
Passive infrared (PIR)Sensor type detecting body heat for occupancy detection.
Payload (data)Useful data content within a protocol frame, e.g. DMX channel values.
PCB (aluminium / MCPCB)Metal-core PCB for improved thermal dissipation.
PCB (ceramic)Ceramic-substrate PCB for very high thermal performance.
PCB (double-sided)PCB with copper traces on both sides for complex LED circuits.
PCB (flexible / FPCB)Flexible polyimide substrate enabling strip bending.
PCB (multi-layer)PCB with more than two copper layers for complex routing.
PCB (Printed Circuit Board)Board carrying LEDs and electronic components.
PCB (rigid)Non-flexible FR4 or aluminium PCB for rigid light bars.
Peak wavelengthWavelength at the maximum of the LED emission spectrum.
Peak wavelength 366 nmLED with peak spectral emission at 366 nanometres.
Peak wavelength 367 nmLED with peak spectral emission at 367 nanometres.
Peak wavelength 368 nmLED with peak spectral emission at 368 nanometres.
Peak wavelength 369 nmLED with peak spectral emission at 369 nanometres.
Peak wavelength 371 nmLED with peak spectral emission at 371 nanometres.
Peak wavelength 372 nmLED with peak spectral emission at 372 nanometres.
Peak wavelength 373 nmLED with peak spectral emission at 373 nanometres.
Peak wavelength 374 nmLED with peak spectral emission at 374 nanometres.
Peak wavelength 376 nmLED with peak spectral emission at 376 nanometres.
Peak wavelength 377 nmLED with peak spectral emission at 377 nanometres.
Peak wavelength 378 nmLED with peak spectral emission at 378 nanometres.
Peak wavelength 379 nmLED with peak spectral emission at 379 nanometres.
Peak wavelength 381 nmLED with peak spectral emission at 381 nanometres.
Peak wavelength 382 nmLED with peak spectral emission at 382 nanometres.
Peak wavelength 383 nmLED with peak spectral emission at 383 nanometres.
Peak wavelength 384 nmLED with peak spectral emission at 384 nanometres.
Peak wavelength 386 nmLED with peak spectral emission at 386 nanometres.
Peak wavelength 387 nmLED with peak spectral emission at 387 nanometres.
Peak wavelength 388 nmLED with peak spectral emission at 388 nanometres.
Peak wavelength 389 nmLED with peak spectral emission at 389 nanometres.
Peak wavelength 391 nmLED with peak spectral emission at 391 nanometres.
Peak wavelength 392 nmLED with peak spectral emission at 392 nanometres.
Peak wavelength 393 nmLED with peak spectral emission at 393 nanometres.
Peak wavelength 394 nmLED with peak spectral emission at 394 nanometres.
Peak wavelength 396 nmLED with peak spectral emission at 396 nanometres.
Peak wavelength 397 nmLED with peak spectral emission at 397 nanometres.
Peak wavelength 398 nmLED with peak spectral emission at 398 nanometres.
Peak wavelength 399 nmLED with peak spectral emission at 399 nanometres.
Peak wavelength 401 nmLED with peak spectral emission at 401 nanometres.
Peak wavelength 402 nmLED with peak spectral emission at 402 nanometres.
Peak wavelength 403 nmLED with peak spectral emission at 403 nanometres.
Peak wavelength 404 nmLED with peak spectral emission at 404 nanometres.
Peak wavelength 406 nmLED with peak spectral emission at 406 nanometres.
Peak wavelength 407 nmLED with peak spectral emission at 407 nanometres.
Peak wavelength 408 nmLED with peak spectral emission at 408 nanometres.
Peak wavelength 409 nmLED with peak spectral emission at 409 nanometres.
Peak wavelength 411 nmLED with peak spectral emission at 411 nanometres.
Peak wavelength 412 nmLED with peak spectral emission at 412 nanometres.
Peak wavelength 413 nmLED with peak spectral emission at 413 nanometres.
Peak wavelength 414 nmLED with peak spectral emission at 414 nanometres.
Peak wavelength 416 nmLED with peak spectral emission at 416 nanometres.
Peak wavelength 417 nmLED with peak spectral emission at 417 nanometres.
Peak wavelength 418 nmLED with peak spectral emission at 418 nanometres.
Peak wavelength 419 nmLED with peak spectral emission at 419 nanometres.
Peak wavelength 421 nmLED with peak spectral emission at 421 nanometres.
Peak wavelength 422 nmLED with peak spectral emission at 422 nanometres.
Peak wavelength 423 nmLED with peak spectral emission at 423 nanometres.
Peak wavelength 424 nmLED with peak spectral emission at 424 nanometres.
Peak wavelength 426 nmLED with peak spectral emission at 426 nanometres.
Peak wavelength 427 nmLED with peak spectral emission at 427 nanometres.
Peak wavelength 428 nmLED with peak spectral emission at 428 nanometres.
Peak wavelength 429 nmLED with peak spectral emission at 429 nanometres.
Peak wavelength 431 nmLED with peak spectral emission at 431 nanometres.
Peak wavelength 432 nmLED with peak spectral emission at 432 nanometres.
Peak wavelength 433 nmLED with peak spectral emission at 433 nanometres.
Peak wavelength 434 nmLED with peak spectral emission at 434 nanometres.
Peak wavelength 436 nmLED with peak spectral emission at 436 nanometres.
Peak wavelength 437 nmLED with peak spectral emission at 437 nanometres.
Peak wavelength 438 nmLED with peak spectral emission at 438 nanometres.
Peak wavelength 439 nmLED with peak spectral emission at 439 nanometres.
Peak wavelength 441 nmLED with peak spectral emission at 441 nanometres.
Peak wavelength 442 nmLED with peak spectral emission at 442 nanometres.
Peak wavelength 443 nmLED with peak spectral emission at 443 nanometres.
Peak wavelength 444 nmLED with peak spectral emission at 444 nanometres.
Peak wavelength 446 nmLED with peak spectral emission at 446 nanometres.
Peak wavelength 447 nmLED with peak spectral emission at 447 nanometres.
Peak wavelength 448 nmLED with peak spectral emission at 448 nanometres.
Peak wavelength 449 nmLED with peak spectral emission at 449 nanometres.
Peak wavelength 451 nmLED with peak spectral emission at 451 nanometres.
Peak wavelength 452 nmLED with peak spectral emission at 452 nanometres.
Peak wavelength 453 nmLED with peak spectral emission at 453 nanometres.
Peak wavelength 454 nmLED with peak spectral emission at 454 nanometres.
Peak wavelength 456 nmLED with peak spectral emission at 456 nanometres.
Peak wavelength 457 nmLED with peak spectral emission at 457 nanometres.
Peak wavelength 458 nmLED with peak spectral emission at 458 nanometres.
Peak wavelength 459 nmLED with peak spectral emission at 459 nanometres.
Peak wavelength 461 nmLED with peak spectral emission at 461 nanometres.
Peak wavelength 462 nmLED with peak spectral emission at 462 nanometres.
Peak wavelength 463 nmLED with peak spectral emission at 463 nanometres.
Peak wavelength 464 nmLED with peak spectral emission at 464 nanometres.
Peak wavelength 466 nmLED with peak spectral emission at 466 nanometres.
Peak wavelength 467 nmLED with peak spectral emission at 467 nanometres.
Peak wavelength 468 nmLED with peak spectral emission at 468 nanometres.
Peak wavelength 469 nmLED with peak spectral emission at 469 nanometres.
Peak wavelength 471 nmLED with peak spectral emission at 471 nanometres.
Peak wavelength 472 nmLED with peak spectral emission at 472 nanometres.
Peak wavelength 473 nmLED with peak spectral emission at 473 nanometres.
Peak wavelength 474 nmLED with peak spectral emission at 474 nanometres.
Peak wavelength 476 nmLED with peak spectral emission at 476 nanometres.
Peak wavelength 477 nmLED with peak spectral emission at 477 nanometres.
Peak wavelength 478 nmLED with peak spectral emission at 478 nanometres.
Peak wavelength 479 nmLED with peak spectral emission at 479 nanometres.
Peak wavelength 481 nmLED with peak spectral emission at 481 nanometres.
Peak wavelength 482 nmLED with peak spectral emission at 482 nanometres.
Peak wavelength 483 nmLED with peak spectral emission at 483 nanometres.
Peak wavelength 484 nmLED with peak spectral emission at 484 nanometres.
Peak wavelength 486 nmLED with peak spectral emission at 486 nanometres.
Peak wavelength 487 nmLED with peak spectral emission at 487 nanometres.
Peak wavelength 488 nmLED with peak spectral emission at 488 nanometres.
Peak wavelength 489 nmLED with peak spectral emission at 489 nanometres.
Peak wavelength 491 nmLED with peak spectral emission at 491 nanometres.
Peak wavelength 492 nmLED with peak spectral emission at 492 nanometres.
Peak wavelength 493 nmLED with peak spectral emission at 493 nanometres.
Peak wavelength 494 nmLED with peak spectral emission at 494 nanometres.
Peak wavelength 496 nmLED with peak spectral emission at 496 nanometres.
Peak wavelength 497 nmLED with peak spectral emission at 497 nanometres.
Peak wavelength 498 nmLED with peak spectral emission at 498 nanometres.
Peak wavelength 499 nmLED with peak spectral emission at 499 nanometres.
Peak wavelength 501 nmLED with peak spectral emission at 501 nanometres.
Peak wavelength 502 nmLED with peak spectral emission at 502 nanometres.
Peak wavelength 503 nmLED with peak spectral emission at 503 nanometres.
Peak wavelength 504 nmLED with peak spectral emission at 504 nanometres.
Peak wavelength 506 nmLED with peak spectral emission at 506 nanometres.
Peak wavelength 507 nmLED with peak spectral emission at 507 nanometres.
Peak wavelength 508 nmLED with peak spectral emission at 508 nanometres.
Peak wavelength 509 nmLED with peak spectral emission at 509 nanometres.
Peak wavelength 511 nmLED with peak spectral emission at 511 nanometres.
Peak wavelength 512 nmLED with peak spectral emission at 512 nanometres.
Peak wavelength 513 nmLED with peak spectral emission at 513 nanometres.
Peak wavelength 514 nmLED with peak spectral emission at 514 nanometres.
Peak wavelength 516 nmLED with peak spectral emission at 516 nanometres.
Peak wavelength 517 nmLED with peak spectral emission at 517 nanometres.
Peak wavelength 518 nmLED with peak spectral emission at 518 nanometres.
Peak wavelength 519 nmLED with peak spectral emission at 519 nanometres.
Peak wavelength 521 nmLED with peak spectral emission at 521 nanometres.
Peak wavelength 522 nmLED with peak spectral emission at 522 nanometres.
Peak wavelength 523 nmLED with peak spectral emission at 523 nanometres.
Peak wavelength 524 nmLED with peak spectral emission at 524 nanometres.
Peak wavelength 526 nmLED with peak spectral emission at 526 nanometres.
Peak wavelength 527 nmLED with peak spectral emission at 527 nanometres.
Peak wavelength 528 nmLED with peak spectral emission at 528 nanometres.
Peak wavelength 529 nmLED with peak spectral emission at 529 nanometres.
Peak wavelength 531 nmLED with peak spectral emission at 531 nanometres.
Peak wavelength 532 nmLED with peak spectral emission at 532 nanometres.
Peak wavelength 533 nmLED with peak spectral emission at 533 nanometres.
Peak wavelength 534 nmLED with peak spectral emission at 534 nanometres.
Peak wavelength 536 nmLED with peak spectral emission at 536 nanometres.
Peak wavelength 537 nmLED with peak spectral emission at 537 nanometres.
Peak wavelength 538 nmLED with peak spectral emission at 538 nanometres.
Peak wavelength 539 nmLED with peak spectral emission at 539 nanometres.
Peak wavelength 541 nmLED with peak spectral emission at 541 nanometres.
Peak wavelength 542 nmLED with peak spectral emission at 542 nanometres.
Peak wavelength 543 nmLED with peak spectral emission at 543 nanometres.
Peak wavelength 544 nmLED with peak spectral emission at 544 nanometres.
Peak wavelength 546 nmLED with peak spectral emission at 546 nanometres.
Peak wavelength 547 nmLED with peak spectral emission at 547 nanometres.
Peak wavelength 548 nmLED with peak spectral emission at 548 nanometres.
Peak wavelength 549 nmLED with peak spectral emission at 549 nanometres.
Peak wavelength 551 nmLED with peak spectral emission at 551 nanometres.
Peak wavelength 552 nmLED with peak spectral emission at 552 nanometres.
Peak wavelength 553 nmLED with peak spectral emission at 553 nanometres.
Peak wavelength 554 nmLED with peak spectral emission at 554 nanometres.
Peak wavelength 556 nmLED with peak spectral emission at 556 nanometres.
Peak wavelength 557 nmLED with peak spectral emission at 557 nanometres.
Peak wavelength 558 nmLED with peak spectral emission at 558 nanometres.
Peak wavelength 559 nmLED with peak spectral emission at 559 nanometres.
Peak wavelength 561 nmLED with peak spectral emission at 561 nanometres.
Peak wavelength 562 nmLED with peak spectral emission at 562 nanometres.
Peak wavelength 563 nmLED with peak spectral emission at 563 nanometres.
Peak wavelength 564 nmLED with peak spectral emission at 564 nanometres.
Peak wavelength 566 nmLED with peak spectral emission at 566 nanometres.
Peak wavelength 567 nmLED with peak spectral emission at 567 nanometres.
Peak wavelength 568 nmLED with peak spectral emission at 568 nanometres.
Peak wavelength 569 nmLED with peak spectral emission at 569 nanometres.
Peak wavelength 571 nmLED with peak spectral emission at 571 nanometres.
Peak wavelength 572 nmLED with peak spectral emission at 572 nanometres.
Peak wavelength 573 nmLED with peak spectral emission at 573 nanometres.
Peak wavelength 574 nmLED with peak spectral emission at 574 nanometres.
Peak wavelength 576 nmLED with peak spectral emission at 576 nanometres.
Peak wavelength 577 nmLED with peak spectral emission at 577 nanometres.
Peak wavelength 578 nmLED with peak spectral emission at 578 nanometres.
Peak wavelength 579 nmLED with peak spectral emission at 579 nanometres.
Peak wavelength 581 nmLED with peak spectral emission at 581 nanometres.
Peak wavelength 582 nmLED with peak spectral emission at 582 nanometres.
Peak wavelength 583 nmLED with peak spectral emission at 583 nanometres.
Peak wavelength 584 nmLED with peak spectral emission at 584 nanometres.
Peak wavelength 586 nmLED with peak spectral emission at 586 nanometres.
Peak wavelength 587 nmLED with peak spectral emission at 587 nanometres.
Peak wavelength 588 nmLED with peak spectral emission at 588 nanometres.
Peak wavelength 589 nmLED with peak spectral emission at 589 nanometres.
Peak wavelength 591 nmLED with peak spectral emission at 591 nanometres.
Peak wavelength 592 nmLED with peak spectral emission at 592 nanometres.
Peak wavelength 593 nmLED with peak spectral emission at 593 nanometres.
Peak wavelength 594 nmLED with peak spectral emission at 594 nanometres.
Peak wavelength 596 nmLED with peak spectral emission at 596 nanometres.
Peak wavelength 597 nmLED with peak spectral emission at 597 nanometres.
Peak wavelength 598 nmLED with peak spectral emission at 598 nanometres.
Peak wavelength 599 nmLED with peak spectral emission at 599 nanometres.
Peak wavelength 601 nmLED with peak spectral emission at 601 nanometres.
Peak wavelength 602 nmLED with peak spectral emission at 602 nanometres.
Peak wavelength 603 nmLED with peak spectral emission at 603 nanometres.
Peak wavelength 604 nmLED with peak spectral emission at 604 nanometres.
Peak wavelength 606 nmLED with peak spectral emission at 606 nanometres.
Peak wavelength 607 nmLED with peak spectral emission at 607 nanometres.
Peak wavelength 608 nmLED with peak spectral emission at 608 nanometres.
Peak wavelength 609 nmLED with peak spectral emission at 609 nanometres.
Peak wavelength 611 nmLED with peak spectral emission at 611 nanometres.
Peak wavelength 612 nmLED with peak spectral emission at 612 nanometres.
Peak wavelength 613 nmLED with peak spectral emission at 613 nanometres.
Peak wavelength 614 nmLED with peak spectral emission at 614 nanometres.
Peak wavelength 616 nmLED with peak spectral emission at 616 nanometres.
Peak wavelength 617 nmLED with peak spectral emission at 617 nanometres.
Peak wavelength 618 nmLED with peak spectral emission at 618 nanometres.
Peak wavelength 619 nmLED with peak spectral emission at 619 nanometres.
Peak wavelength 621 nmLED with peak spectral emission at 621 nanometres.
Peak wavelength 622 nmLED with peak spectral emission at 622 nanometres.
Peak wavelength 623 nmLED with peak spectral emission at 623 nanometres.
Peak wavelength 624 nmLED with peak spectral emission at 624 nanometres.
Peak wavelength 626 nmLED with peak spectral emission at 626 nanometres.
Peak wavelength 627 nmLED with peak spectral emission at 627 nanometres.
Peak wavelength 628 nmLED with peak spectral emission at 628 nanometres.
Peak wavelength 629 nmLED with peak spectral emission at 629 nanometres.
Peak wavelength 631 nmLED with peak spectral emission at 631 nanometres.
Peak wavelength 632 nmLED with peak spectral emission at 632 nanometres.
Peak wavelength 633 nmLED with peak spectral emission at 633 nanometres.
Peak wavelength 634 nmLED with peak spectral emission at 634 nanometres.
Peak wavelength 636 nmLED with peak spectral emission at 636 nanometres.
Peak wavelength 637 nmLED with peak spectral emission at 637 nanometres.
Peak wavelength 638 nmLED with peak spectral emission at 638 nanometres.
Peak wavelength 639 nmLED with peak spectral emission at 639 nanometres.
Peak wavelength 641 nmLED with peak spectral emission at 641 nanometres.
Peak wavelength 642 nmLED with peak spectral emission at 642 nanometres.
Peak wavelength 643 nmLED with peak spectral emission at 643 nanometres.
Peak wavelength 644 nmLED with peak spectral emission at 644 nanometres.
Peak wavelength 646 nmLED with peak spectral emission at 646 nanometres.
Peak wavelength 647 nmLED with peak spectral emission at 647 nanometres.
Peak wavelength 648 nmLED with peak spectral emission at 648 nanometres.
Peak wavelength 649 nmLED with peak spectral emission at 649 nanometres.
Peak wavelength 651 nmLED with peak spectral emission at 651 nanometres.
Peak wavelength 652 nmLED with peak spectral emission at 652 nanometres.
Peak wavelength 653 nmLED with peak spectral emission at 653 nanometres.
Peak wavelength 654 nmLED with peak spectral emission at 654 nanometres.
Peak wavelength 656 nmLED with peak spectral emission at 656 nanometres.
Peak wavelength 657 nmLED with peak spectral emission at 657 nanometres.
Peak wavelength 658 nmLED with peak spectral emission at 658 nanometres.
Peak wavelength 659 nmLED with peak spectral emission at 659 nanometres.
Peak wavelength 661 nmLED with peak spectral emission at 661 nanometres.
Peak wavelength 662 nmLED with peak spectral emission at 662 nanometres.
Peak wavelength 663 nmLED with peak spectral emission at 663 nanometres.
Peak wavelength 664 nmLED with peak spectral emission at 664 nanometres.
Peak wavelength 666 nmLED with peak spectral emission at 666 nanometres.
Peak wavelength 667 nmLED with peak spectral emission at 667 nanometres.
Peak wavelength 668 nmLED with peak spectral emission at 668 nanometres.
Peak wavelength 669 nmLED with peak spectral emission at 669 nanometres.
Peak wavelength 671 nmLED with peak spectral emission at 671 nanometres.
Peak wavelength 672 nmLED with peak spectral emission at 672 nanometres.
Peak wavelength 673 nmLED with peak spectral emission at 673 nanometres.
Peak wavelength 674 nmLED with peak spectral emission at 674 nanometres.
Peak wavelength 676 nmLED with peak spectral emission at 676 nanometres.
Peak wavelength 677 nmLED with peak spectral emission at 677 nanometres.
Peak wavelength 678 nmLED with peak spectral emission at 678 nanometres.
Peak wavelength 679 nmLED with peak spectral emission at 679 nanometres.
Peak wavelength 681 nmLED with peak spectral emission at 681 nanometres.
Peak wavelength 682 nmLED with peak spectral emission at 682 nanometres.
Peak wavelength 683 nmLED with peak spectral emission at 683 nanometres.
Peak wavelength 684 nmLED with peak spectral emission at 684 nanometres.
Peak wavelength 686 nmLED with peak spectral emission at 686 nanometres.
Peak wavelength 687 nmLED with peak spectral emission at 687 nanometres.
Peak wavelength 688 nmLED with peak spectral emission at 688 nanometres.
Peak wavelength 689 nmLED with peak spectral emission at 689 nanometres.
Peak wavelength 691 nmLED with peak spectral emission at 691 nanometres.
Peak wavelength 692 nmLED with peak spectral emission at 692 nanometres.
Peak wavelength 693 nmLED with peak spectral emission at 693 nanometres.
Peak wavelength 694 nmLED with peak spectral emission at 694 nanometres.
Peak wavelength 696 nmLED with peak spectral emission at 696 nanometres.
Peak wavelength 697 nmLED with peak spectral emission at 697 nanometres.
Peak wavelength 698 nmLED with peak spectral emission at 698 nanometres.
Peak wavelength 699 nmLED with peak spectral emission at 699 nanometres.
Peak wavelength 701 nmLED with peak spectral emission at 701 nanometres.
Peak wavelength 702 nmLED with peak spectral emission at 702 nanometres.
Peak wavelength 703 nmLED with peak spectral emission at 703 nanometres.
Peak wavelength 704 nmLED with peak spectral emission at 704 nanometres.
Peak wavelength 706 nmLED with peak spectral emission at 706 nanometres.
Peak wavelength 707 nmLED with peak spectral emission at 707 nanometres.
Peak wavelength 708 nmLED with peak spectral emission at 708 nanometres.
Peak wavelength 709 nmLED with peak spectral emission at 709 nanometres.
Peak wavelength 711 nmLED with peak spectral emission at 711 nanometres.
Peak wavelength 712 nmLED with peak spectral emission at 712 nanometres.
Peak wavelength 713 nmLED with peak spectral emission at 713 nanometres.
Peak wavelength 714 nmLED with peak spectral emission at 714 nanometres.
Peak wavelength 716 nmLED with peak spectral emission at 716 nanometres.
Peak wavelength 717 nmLED with peak spectral emission at 717 nanometres.
Peak wavelength 718 nmLED with peak spectral emission at 718 nanometres.
Peak wavelength 719 nmLED with peak spectral emission at 719 nanometres.
Peak wavelength 721 nmLED with peak spectral emission at 721 nanometres.
Peak wavelength 722 nmLED with peak spectral emission at 722 nanometres.
Peak wavelength 723 nmLED with peak spectral emission at 723 nanometres.
Peak wavelength 724 nmLED with peak spectral emission at 724 nanometres.
Peak wavelength 726 nmLED with peak spectral emission at 726 nanometres.
Peak wavelength 727 nmLED with peak spectral emission at 727 nanometres.
Peak wavelength 728 nmLED with peak spectral emission at 728 nanometres.
Peak wavelength 729 nmLED with peak spectral emission at 729 nanometres.
Peak wavelength 731 nmLED with peak spectral emission at 731 nanometres.
Peak wavelength 732 nmLED with peak spectral emission at 732 nanometres.
Peak wavelength 733 nmLED with peak spectral emission at 733 nanometres.
Peak wavelength 734 nmLED with peak spectral emission at 734 nanometres.
Peak wavelength 736 nmLED with peak spectral emission at 736 nanometres.
Peak wavelength 737 nmLED with peak spectral emission at 737 nanometres.
Peak wavelength 738 nmLED with peak spectral emission at 738 nanometres.
Peak wavelength 739 nmLED with peak spectral emission at 739 nanometres.
Peak wavelength 741 nmLED with peak spectral emission at 741 nanometres.
Peak wavelength 742 nmLED with peak spectral emission at 742 nanometres.
Peak wavelength 743 nmLED with peak spectral emission at 743 nanometres.
Peak wavelength 744 nmLED with peak spectral emission at 744 nanometres.
Peak wavelength 746 nmLED with peak spectral emission at 746 nanometres.
Peak wavelength 747 nmLED with peak spectral emission at 747 nanometres.
Peak wavelength 748 nmLED with peak spectral emission at 748 nanometres.
Peak wavelength 749 nmLED with peak spectral emission at 749 nanometres.
Peak wavelength 751 nmLED with peak spectral emission at 751 nanometres.
Peak wavelength 752 nmLED with peak spectral emission at 752 nanometres.
Peak wavelength 753 nmLED with peak spectral emission at 753 nanometres.
Peak wavelength 754 nmLED with peak spectral emission at 754 nanometres.
Peak wavelength 756 nmLED with peak spectral emission at 756 nanometres.
Peak wavelength 757 nmLED with peak spectral emission at 757 nanometres.
Peak wavelength 758 nmLED with peak spectral emission at 758 nanometres.
Peak wavelength 759 nmLED with peak spectral emission at 759 nanometres.
Peak wavelength 761 nmLED with peak spectral emission at 761 nanometres.
Peak wavelength 762 nmLED with peak spectral emission at 762 nanometres.
Peak wavelength 763 nmLED with peak spectral emission at 763 nanometres.
Peak wavelength 764 nmLED with peak spectral emission at 764 nanometres.
Peak wavelength 766 nmLED with peak spectral emission at 766 nanometres.
Peak wavelength 767 nmLED with peak spectral emission at 767 nanometres.
Peak wavelength 768 nmLED with peak spectral emission at 768 nanometres.
Peak wavelength 769 nmLED with peak spectral emission at 769 nanometres.
Peak wavelength 771 nmLED with peak spectral emission at 771 nanometres.
Peak wavelength 772 nmLED with peak spectral emission at 772 nanometres.
Peak wavelength 773 nmLED with peak spectral emission at 773 nanometres.
Peak wavelength 774 nmLED with peak spectral emission at 774 nanometres.
Peak wavelength 776 nmLED with peak spectral emission at 776 nanometres.
Peak wavelength 777 nmLED with peak spectral emission at 777 nanometres.
Peak wavelength 778 nmLED with peak spectral emission at 778 nanometres.
Peak wavelength 779 nmLED with peak spectral emission at 779 nanometres.
Pendant cableSteel wire suspending LED profiles from the ceiling.
Pendant rodRigid rod suspending LED profiles from the ceiling.
Pendant rose / canopyCeiling plate covering the cable termination point.
Percent flickerDifference between max and min light output expressed as a percentage.
perimeter slot techniqueContinuous trimless LED profile around the room perimeter creates an uninterrupted halo of light that elegantly defines the spatial boundary.
PF (Power Factor)Ratio of active to apparent power; ideal value is 1.
PFC (Power Factor Correction)Active or passive circuit bringing PF close to unity.
Phase angleTiming of the TRIAC trigger within the AC half-cycle, controlling dimming level.
PhosphorLuminescent material converting blue LED light into other wavelengths.
Phosphor (KSF / narrow-band red)Potassium fluorosilicate phosphor producing narrow red emission for high R9.
Phosphor (quantum dot)Nanoscale semiconductor particles providing narrow-band colour conversion.
Phosphor (remote)Phosphor placed away from the die for better uniformity and longevity.
Phosphor (YAG)Yttrium aluminium garnet phosphor, the most common for white LEDs.
Phosphor platePre-formed phosphor sheet placed at a distance from the LED array.
Photobiological riskRetinal hazard from exposure to intense LED radiation (EN 62471).
Photobiological risk groupClassification from Exempt to RG3 based on emission hazard level.
PhotocellLight-sensitive device switching outdoor luminaires on at dusk and off at dawn.
PhotodiodeSensor converting light into current for measurement and feedback.
PhotometryScience of measuring light in terms of human visual perception.
PhotonElementary particle of light, emitted when an electron recombines in the LED.
Photopic visionDaytime vision mediated by cone cells, sensitive to colour.
PhotosensorLight-level sensor for automatic brightness regulation.
Pilot lightSmall indicator LED showing that a circuit is energised.
PinoutPin configuration of a connector (polarity, colour channels, data lines).
Pitch (LED)Centre-to-centre distance between two consecutive LEDs on a strip.
PixelSingle controllable LED point in an addressable strip.
Pixel (addressable)Strip LED individually controllable for dynamic effects.
Pixel (density)Number of addressable LEDs per metre.
Pixel (mapping)Software for creating graphical content on LED arrays.
Pixel (pitch)Centre-to-centre distance between addressable pixels.
Plasterboard (drywall)Gypsum board commonly used as a host surface for recessed LED profiles.
PMMAPolymethyl methacrylate; transparent plastic for covers and diffusers.
POE (Power over Ethernet)Power and data on an Ethernet cable for LED luminaires.
PolarityPositive/negative terminal orientation; LEDs operate only with correct polarity.
Polycarbonate (PC)High-impact transparent plastic, an alternative to PMMA for covers.
PolyimideHigh-temperature polymer substrate of flexible LED strips.
Polyurethane (PU)Resin for protective coating (potting) of outdoor LED strips.
PotentiometerVariable resistor used as a manual dimming control.
PottingResin-filling a profile or strip for IP and mechanical protection.
Power (absorbed)Electrical power consumed by the LED system, in watts.
Power (active / real)Useful power consumed by the load, in watts (W).
Power (apparent)Product of RMS voltage and current, in volt-amperes (VA).
Power (reactive)Non-useful power component stored and returned by capacitors/inductors, in VAR.
Power meterInstrument measuring watts, VA, PF and THD of an LED installation.
Power per metre (W/m)Strip consumption per linear metre.
Power supplyDevice converting mains AC to DC for LED strips.
Power supply (bench / laboratory)Adjustable PSU for testing and prototyping LED systems.
Power supply (DIN rail)PSU designed for mounting inside an electrical distribution board.
Power supply (enclosed)PSU with a perforated metal casing, typically for indoor use.
Power supply (open frame)PSU without an enclosure, intended for integration inside a luminaire.
Power supply (outdoor / IP67)Sealed PSU for outdoor or damp-location installation.
Power supply (redundant)Dual-PSU setup ensuring continuity if one unit fails.
Power supply 1 WLED power supply with 1 W maximum output capacity.
Power supply 10 WLED power supply with 10 W maximum output capacity.
Power supply 100 WLED power supply with 100 W maximum output capacity.
Power supply 1000 WLED power supply with 1000 W maximum output capacity.
Power supply 108 WLED power supply with 108 W maximum output capacity.
Power supply 1100 WLED power supply with 1100 W maximum output capacity.
Power supply 12 WLED power supply with 12 W maximum output capacity.
Power supply 120 WLED power supply with 120 W maximum output capacity.
Power supply 1200 WLED power supply with 1200 W maximum output capacity.
Power supply 132 WLED power supply with 132 W maximum output capacity.
Power supply 1320 WLED power supply with 1320 W maximum output capacity.
Power supply 15 WLED power supply with 15 W maximum output capacity.
Power supply 150 WLED power supply with 150 W maximum output capacity.
Power supply 1500 WLED power supply with 1500 W maximum output capacity.
Power supply 160 WLED power supply with 160 W maximum output capacity.
Power supply 18 WLED power supply with 18 W maximum output capacity.
Power supply 180 WLED power supply with 180 W maximum output capacity.
Power supply 185 WLED power supply with 185 W maximum output capacity.
Power supply 192 WLED power supply with 192 W maximum output capacity.
Power supply 2 WLED power supply with 2 W maximum output capacity.
Power supply 20 WLED power supply with 20 W maximum output capacity.
Power supply 200 WLED power supply with 200 W maximum output capacity.
Power supply 216 WLED power supply with 216 W maximum output capacity.
Power supply 24 WLED power supply with 24 W maximum output capacity.
Power supply 240 WLED power supply with 240 W maximum output capacity.
Power supply 25 WLED power supply with 25 W maximum output capacity.
Power supply 250 WLED power supply with 250 W maximum output capacity.
Power supply 288 WLED power supply with 288 W maximum output capacity.
Power supply 3 WLED power supply with 3 W maximum output capacity.
Power supply 30 WLED power supply with 30 W maximum output capacity.
Power supply 300 WLED power supply with 300 W maximum output capacity.
Power supply 320 WLED power supply with 320 W maximum output capacity.
Power supply 35 WLED power supply with 35 W maximum output capacity.
Power supply 350 WLED power supply with 350 W maximum output capacity.
Power supply 36 WLED power supply with 36 W maximum output capacity.
Power supply 360 WLED power supply with 360 W maximum output capacity.
Power supply 384 WLED power supply with 384 W maximum output capacity.
Power supply 4 WLED power supply with 4 W maximum output capacity.
Power supply 40 WLED power supply with 40 W maximum output capacity.
Power supply 400 WLED power supply with 400 W maximum output capacity.
Power supply 45 WLED power supply with 45 W maximum output capacity.
Power supply 48 WLED power supply with 48 W maximum output capacity.
Power supply 480 WLED power supply with 480 W maximum output capacity.
Power supply 5 WLED power supply with 5 W maximum output capacity.
Power supply 50 WLED power supply with 50 W maximum output capacity.
Power supply 500 WLED power supply with 500 W maximum output capacity.
Power supply 520 WLED power supply with 520 W maximum output capacity.
Power supply 54 WLED power supply with 54 W maximum output capacity.
Power supply 6 WLED power supply with 6 W maximum output capacity.
Power supply 60 WLED power supply with 60 W maximum output capacity.
Power supply 600 WLED power supply with 600 W maximum output capacity.
Power supply 650 WLED power supply with 650 W maximum output capacity.
Power supply 7 WLED power supply with 7 W maximum output capacity.
Power supply 700 WLED power supply with 700 W maximum output capacity.
Power supply 72 WLED power supply with 72 W maximum output capacity.
Power supply 720 WLED power supply with 720 W maximum output capacity.
Power supply 75 WLED power supply with 75 W maximum output capacity.
Power supply 750 WLED power supply with 750 W maximum output capacity.
Power supply 8 WLED power supply with 8 W maximum output capacity.
Power supply 80 WLED power supply with 80 W maximum output capacity.
Power supply 800 WLED power supply with 800 W maximum output capacity.
Power supply 850 WLED power supply with 850 W maximum output capacity.
Power supply 9 WLED power supply with 9 W maximum output capacity.
Power supply 900 WLED power supply with 900 W maximum output capacity.
Power supply 96 WLED power supply with 96 W maximum output capacity.
Power supply 960 WLED power supply with 960 W maximum output capacity.
Pressfit / Press-inCable-retention fitting maintaining IP integrity.
ProfileExtruded aluminium element housing an LED strip, serving as heat sink and support.
Profile (angle / corner 30°)Profile with a 30-degree cross-section for grazing applications.
Profile (angle / corner 45°)Profile with a 45-degree cross-section for diagonal illumination.
Profile (angle / corner 60°)Profile with a 60-degree cross-section for specific angular applications.
Profile (architectural)Design profile for aesthetic integration in premium projects.
Profile (asymmetric)Non-symmetric cross-section for wall-wash applications.
Profile (circular)Round cross-section for decorative suspended applications.
Profile (corner — external)Profile designed for outside room corners.
Profile (corner — internal)Profile designed for inside room corners.
Profile (custom / bespoke)Profile manufactured to unique project specifications.
Profile (decorative)Visible-design profile forming part of the interior décor.
Profile (double)Two channels for independent strips (direct and indirect).
Profile (drywall / plasterboard)Profile with wings for plasterboard embedding.
Profile (elliptical)Oval cross-section for elegant suspended installations.
Profile (flexible)Silicone or thin aluminium that can follow curves.
Profile (floor-recessed)Reinforced profile for flush-floor mounting with a walkable cover.
Profile (furniture / cabinet)Slim profile for cabinetry and furnishing integration.
Profile (glass-slot)Profile with a groove for illuminating glass panels.
Profile (handrail)Profile integrated into handrails for step marking.
Profile (LED)Extruded aluminium accommodating strip, cover and accessories.
Profile (linear)Straight-run profile for continuous lines of light.
Profile (magnetic track)Magnetic rail for quick module insertion and removal.
Profile (mini / slim)Ultra-compact profile for space-constrained installations.
Profile (pendant / suspended)Profile for ceiling suspension, often with up/down emission.
Profile (plaster-in / trimless)Profile plastered flush into a ceiling or wall with no visible frame.
Profile (recessed ceiling)Profile flush-mounted in a suspended ceiling with a trim flange.
Profile (recessed narrow)Minimal-width recessed profile for thin grooves.
Profile (recessed wall)Profile set into a wall and plastered flush.
Profile (recessed)Profile for embedding into a routed slot.
Profile (rectangular)Rectangular cross-section, versatile.
Profile (silicone / neon flex)Flexible silicone tube creating a neon-flex effect.
Profile (skirting / baseboard)Profile integrated into wall baseboards for floor-level light.
Profile (square)Square cross-section for exposed or suspended runs.
Profile (stair / step)Profile for stair-nosing illumination.
Profile (surface-mounted)Profile applied directly without recessing.
Profile (tile-in)Profile for recessing into tiled surfaces.
Profile (triangular)Triangular cross-section for corner applications.
Profile (trunking)Large-section linear profile forming a continuous system.
Profile (U-shape)U-shaped cross-section, the most common type.
Profile (wall / vertical)Profile for wall-wash, step-marker or decorative wall applications.
Profile (watertight / sealed)Profile with IP65–IP68 sealing.
Profile 100×100 mmAluminium LED profile with 100 mm width and 100 mm height cross-section.
Profile 100×30 mmAluminium LED profile with 100 mm width and 30 mm height cross-section.
Profile 100×40 mmAluminium LED profile with 100 mm width and 40 mm height cross-section.
Profile 100×50 mmAluminium LED profile with 100 mm width and 50 mm height cross-section.
Profile 100×70 mmAluminium LED profile with 100 mm width and 70 mm height cross-section.
Profile 10×8 mmAluminium LED profile with 10 mm width and 8 mm height cross-section.
Profile 110×35 mmAluminium LED profile with 110 mm width and 35 mm height cross-section.
Profile 120×40 mmAluminium LED profile with 120 mm width and 40 mm height cross-section.
Profile 120×50 mmAluminium LED profile with 120 mm width and 50 mm height cross-section.
Profile 120×60 mmAluminium LED profile with 120 mm width and 60 mm height cross-section.
Profile 120×80 mmAluminium LED profile with 120 mm width and 80 mm height cross-section.
Profile 12×8 mmAluminium LED profile with 12 mm width and 8 mm height cross-section.
Profile 130×40 mmAluminium LED profile with 130 mm width and 40 mm height cross-section.
Profile 140×50 mmAluminium LED profile with 140 mm width and 50 mm height cross-section.
Profile 14×7 mmAluminium LED profile with 14 mm width and 7 mm height cross-section.
Profile 150×37 mmAluminium LED profile with 150 mm width and 37 mm height cross-section.
Profile 150×50 mmAluminium LED profile with 150 mm width and 50 mm height cross-section.
Profile 150×60 mmAluminium LED profile with 150 mm width and 60 mm height cross-section.
Profile 150×75 mmAluminium LED profile with 150 mm width and 75 mm height cross-section.
Profile 15×15 mmAluminium LED profile with 15 mm width and 15 mm height cross-section.
Profile 15×6 mmAluminium LED profile with 15 mm width and 6 mm height cross-section.
Profile 160×60 mmAluminium LED profile with 160 mm width and 60 mm height cross-section.
Profile 16×9 mmAluminium LED profile with 16 mm width and 9 mm height cross-section.
Profile 17×8 mmAluminium LED profile with 17 mm width and 8 mm height cross-section.
Profile 180×50 mmAluminium LED profile with 180 mm width and 50 mm height cross-section.
Profile 180×80 mmAluminium LED profile with 180 mm width and 80 mm height cross-section.
Profile 18×13 mmAluminium LED profile with 18 mm width and 13 mm height cross-section.
Profile 200×60 mmAluminium LED profile with 200 mm width and 60 mm height cross-section.
Profile 200×80 mmAluminium LED profile with 200 mm width and 80 mm height cross-section.
Profile 20×10 mmAluminium LED profile with 20 mm width and 10 mm height cross-section.
Profile 20×15 mmAluminium LED profile with 20 mm width and 15 mm height cross-section.
Profile 20×20 mmAluminium LED profile with 20 mm width and 20 mm height cross-section.
Profile 22×6 mmAluminium LED profile with 22 mm width and 6 mm height cross-section.
Profile 24×12 mmAluminium LED profile with 24 mm width and 12 mm height cross-section.
Profile 250×80 mmAluminium LED profile with 250 mm width and 80 mm height cross-section.
Profile 25×15 mmAluminium LED profile with 25 mm width and 15 mm height cross-section.
Profile 25×20 mmAluminium LED profile with 25 mm width and 20 mm height cross-section.
Profile 25×25 mmAluminium LED profile with 25 mm width and 25 mm height cross-section.
Profile 27×11 mmAluminium LED profile with 27 mm width and 11 mm height cross-section.
Profile 27×20 mmAluminium LED profile with 27 mm width and 20 mm height cross-section.
Profile 28×14 mmAluminium LED profile with 28 mm width and 14 mm height cross-section.
Profile 30×10 mmAluminium LED profile with 30 mm width and 10 mm height cross-section.
Profile 30×20 mmAluminium LED profile with 30 mm width and 20 mm height cross-section.
Profile 30×25 mmAluminium LED profile with 30 mm width and 25 mm height cross-section.
Profile 30×30 mmAluminium LED profile with 30 mm width and 30 mm height cross-section.
Profile 33×12 mmAluminium LED profile with 33 mm width and 12 mm height cross-section.
Profile 35×15 mmAluminium LED profile with 35 mm width and 15 mm height cross-section.
Profile 35×25 mmAluminium LED profile with 35 mm width and 25 mm height cross-section.
Profile 35×35 mmAluminium LED profile with 35 mm width and 35 mm height cross-section.
Profile 38×14 mmAluminium LED profile with 38 mm width and 14 mm height cross-section.
Profile 38×28 mmAluminium LED profile with 38 mm width and 28 mm height cross-section.
Profile 40×20 mmAluminium LED profile with 40 mm width and 20 mm height cross-section.
Profile 40×30 mmAluminium LED profile with 40 mm width and 30 mm height cross-section.
Profile 40×35 mmAluminium LED profile with 40 mm width and 35 mm height cross-section.
Profile 40×40 mmAluminium LED profile with 40 mm width and 40 mm height cross-section.
Profile 42×22 mmAluminium LED profile with 42 mm width and 22 mm height cross-section.
Profile 45×18 mmAluminium LED profile with 45 mm width and 18 mm height cross-section.
Profile 45×30 mmAluminium LED profile with 45 mm width and 30 mm height cross-section.
Profile 45×45 mmAluminium LED profile with 45 mm width and 45 mm height cross-section.
Profile 48×16 mmAluminium LED profile with 48 mm width and 16 mm height cross-section.
Profile 48×36 mmAluminium LED profile with 48 mm width and 36 mm height cross-section.
Profile 50×20 mmAluminium LED profile with 50 mm width and 20 mm height cross-section.
Profile 50×25 mmAluminium LED profile with 50 mm width and 25 mm height cross-section.
Profile 50×35 mmAluminium LED profile with 50 mm width and 35 mm height cross-section.
Profile 50×50 mmAluminium LED profile with 50 mm width and 50 mm height cross-section.
Profile 55×25 mmAluminium LED profile with 55 mm width and 25 mm height cross-section.
Profile 55×55 mmAluminium LED profile with 55 mm width and 55 mm height cross-section.
Profile 58×24 mmAluminium LED profile with 58 mm width and 24 mm height cross-section.
Profile 60×20 mmAluminium LED profile with 60 mm width and 20 mm height cross-section.
Profile 60×30 mmAluminium LED profile with 60 mm width and 30 mm height cross-section.
Profile 60×40 mmAluminium LED profile with 60 mm width and 40 mm height cross-section.
Profile 60×60 mmAluminium LED profile with 60 mm width and 60 mm height cross-section.
Profile 65×27 mmAluminium LED profile with 65 mm width and 27 mm height cross-section.
Profile 65×35 mmAluminium LED profile with 65 mm width and 35 mm height cross-section.
Profile 70×25 mmAluminium LED profile with 70 mm width and 25 mm height cross-section.
Profile 70×35 mmAluminium LED profile with 70 mm width and 35 mm height cross-section.
Profile 70×70 mmAluminium LED profile with 70 mm width and 70 mm height cross-section.
Profile 75×30 mmAluminium LED profile with 75 mm width and 30 mm height cross-section.
Profile 75×50 mmAluminium LED profile with 75 mm width and 50 mm height cross-section.
Profile 75×75 mmAluminium LED profile with 75 mm width and 75 mm height cross-section.
Profile 80×25 mmAluminium LED profile with 80 mm width and 25 mm height cross-section.
Profile 80×35 mmAluminium LED profile with 80 mm width and 35 mm height cross-section.
Profile 80×40 mmAluminium LED profile with 80 mm width and 40 mm height cross-section.
Profile 80×55 mmAluminium LED profile with 80 mm width and 55 mm height cross-section.
Profile 80×80 mmAluminium LED profile with 80 mm width and 80 mm height cross-section.
Profile 90×35 mmAluminium LED profile with 90 mm width and 35 mm height cross-section.
Profile 90×45 mmAluminium LED profile with 90 mm width and 45 mm height cross-section.
Profile 90×60 mmAluminium LED profile with 90 mm width and 60 mm height cross-section.
Profile 90×90 mmAluminium LED profile with 90 mm width and 90 mm height cross-section.
Profile depth (recess)Space needed inside the host structure for a recessed profile.
Profile finish (anthracite RAL 7016 fine texture)Aluminium profile finished in fine-textured anthracite for architectural integration.
Profile finish (antique brass)Aluminium profile finished in aged brass patina for architectural integration.
Profile finish (bead-blasted natural)Aluminium profile finished in fine matte natural aluminium for architectural integration.
Profile finish (black RAL 9005)Aluminium profile finished in jet black for architectural integration.
Profile finish (black RAL 9017)Aluminium profile finished in traffic black for architectural integration.
Profile finish (black textured)Aluminium profile finished in textured matte black for architectural integration.
Profile finish (bronze RAL 8019)Aluminium profile finished in grey brown bronze for architectural integration.
Profile finish (brown RAL 8003)Aluminium profile finished in clay brown for architectural integration.
Profile finish (brown RAL 8014)Aluminium profile finished in sepia brown for architectural integration.
Profile finish (brushed brass)Aluminium profile finished in warm golden brass for architectural integration.
Profile finish (burgundy RAL 3004)Aluminium profile finished in wine red for architectural integration.
Profile finish (carbon fibre effect)Aluminium profile finished in woven carbon pattern for architectural integration.
Profile finish (champagne gold)Aluminium profile finished in warm metallic champagne for architectural integration.
Profile finish (charcoal RAL 7021)Aluminium profile finished in dark charcoal for architectural integration.
Profile finish (cobalt blue RAL 5013)Aluminium profile finished in deep blue for architectural integration.
Profile finish (concrete effect)Aluminium profile finished in grey concrete texture for architectural integration.
Profile finish (copper)Aluminium profile finished in natural copper tone for architectural integration.
Profile finish (corten steel effect)Aluminium profile finished in weathered-steel look for architectural integration.
Profile finish (cream RAL 9001)Aluminium profile finished in soft cream for architectural integration.
Profile finish (dark bronze)Aluminium profile finished in deep bronze tone for architectural integration.
Profile finish (dark grey RAL 7021)Aluminium profile finished in black grey for architectural integration.
Profile finish (forest green RAL 6009)Aluminium profile finished in dark green for architectural integration.
Profile finish (grey RAL 7016)Aluminium profile finished in anthracite grey for architectural integration.
Profile finish (grey RAL 7035)Aluminium profile finished in light grey for architectural integration.
Profile finish (grey RAL 7040)Aluminium profile finished in window grey for architectural integration.
Profile finish (ivory RAL 1014)Aluminium profile finished in warm ivory for architectural integration.
Profile finish (light bronze)Aluminium profile finished in warm bronze tone for architectural integration.
Profile finish (marble effect)Aluminium profile finished in white marble texture for architectural integration.
Profile finish (matt chrome)Aluminium profile finished in soft chrome for architectural integration.
Profile finish (olive RAL 6003)Aluminium profile finished in military olive for architectural integration.
Profile finish (oxidised copper)Aluminium profile finished in green patina copper for architectural integration.
Profile finish (pastel green RAL 6019)Aluminium profile finished in soft green for architectural integration.
Profile finish (patina green)Aluminium profile finished in verdigris copper patina for architectural integration.
Profile finish (pearl white RAL 1013)Aluminium profile finished in oyster white for architectural integration.
Profile finish (polished chrome)Aluminium profile finished in mirror chrome for architectural integration.
Profile finish (rose gold)Aluminium profile finished in copper-pink metallic for architectural integration.
Profile finish (rust effect)Aluminium profile finished in decorative rust patina for architectural integration.
Profile finish (sand RAL 1015)Aluminium profile finished in light sand for architectural integration.
Profile finish (satin nickel)Aluminium profile finished in brushed nickel silver for architectural integration.
Profile finish (signal red RAL 3001)Aluminium profile finished in vivid red for architectural integration.
Profile finish (slate grey RAL 7015)Aluminium profile finished in blue-grey slate for architectural integration.
Profile finish (steel blue RAL 5011)Aluminium profile finished in navy blue for architectural integration.
Profile finish (terracotta RAL 8023)Aluminium profile finished in warm terracotta for architectural integration.
Profile finish (titanium)Aluminium profile finished in dark titanium metallic for architectural integration.
Profile finish (traffic yellow RAL 1023)Aluminium profile finished in bright yellow for architectural integration.
Profile finish (white RAL 9003)Aluminium profile finished in signal white for architectural integration.
Profile finish (white RAL 9010)Aluminium profile finished in pure white for architectural integration.
Profile finish (white RAL 9016)Aluminium profile finished in traffic white for architectural integration.
Profile finish (wood-grain cherry)Aluminium profile finished in realistic cherry veneer finish for architectural integration.
Profile finish (wood-grain maple)Aluminium profile finished in realistic maple veneer finish for architectural integration.
Profile finish (wood-grain oak)Aluminium profile finished in realistic oak veneer finish for architectural integration.
Profile finish (wood-grain walnut)Aluminium profile finished in realistic walnut veneer finish for architectural integration.
Profile finish (wood-grain wenge)Aluminium profile finished in realistic wenge veneer finish for architectural integration.
Profile height 10 mmAluminium LED profile with an external height of 10 mm.
Profile height 100 mmAluminium LED profile with an external height of 100 mm.
Profile height 11 mmAluminium LED profile with an external height of 11 mm.
Profile height 12 mmAluminium LED profile with an external height of 12 mm.
Profile height 13 mmAluminium LED profile with an external height of 13 mm.
Profile height 14 mmAluminium LED profile with an external height of 14 mm.
Profile height 15 mmAluminium LED profile with an external height of 15 mm.
Profile height 16 mmAluminium LED profile with an external height of 16 mm.
Profile height 17 mmAluminium LED profile with an external height of 17 mm.
Profile height 18 mmAluminium LED profile with an external height of 18 mm.
Profile height 20 mmAluminium LED profile with an external height of 20 mm.
Profile height 22 mmAluminium LED profile with an external height of 22 mm.
Profile height 25 mmAluminium LED profile with an external height of 25 mm.
Profile height 27 mmAluminium LED profile with an external height of 27 mm.
Profile height 30 mmAluminium LED profile with an external height of 30 mm.
Profile height 33 mmAluminium LED profile with an external height of 33 mm.
Profile height 35 mmAluminium LED profile with an external height of 35 mm.
Profile height 38 mmAluminium LED profile with an external height of 38 mm.
Profile height 40 mmAluminium LED profile with an external height of 40 mm.
Profile height 45 mmAluminium LED profile with an external height of 45 mm.
Profile height 50 mmAluminium LED profile with an external height of 50 mm.
Profile height 55 mmAluminium LED profile with an external height of 55 mm.
Profile height 6 mmAluminium LED profile with an external height of 6 mm.
Profile height 60 mmAluminium LED profile with an external height of 60 mm.
Profile height 65 mmAluminium LED profile with an external height of 65 mm.
Profile height 7 mmAluminium LED profile with an external height of 7 mm.
Profile height 70 mmAluminium LED profile with an external height of 70 mm.
Profile height 75 mmAluminium LED profile with an external height of 75 mm.
Profile height 8 mmAluminium LED profile with an external height of 8 mm.
Profile height 80 mmAluminium LED profile with an external height of 80 mm.
Profile height 9 mmAluminium LED profile with an external height of 9 mm.
Profile height 90 mmAluminium LED profile with an external height of 90 mm.
Profile length 0.10 mAluminium LED profile cut to a length of 0.10 metres.
Profile length 0.15 mAluminium LED profile cut to a length of 0.15 metres.
Profile length 0.20 mAluminium LED profile cut to a length of 0.20 metres.
Profile length 0.25 mAluminium LED profile cut to a length of 0.25 metres.
Profile length 0.30 mAluminium LED profile cut to a length of 0.30 metres.
Profile length 0.35 mAluminium LED profile cut to a length of 0.35 metres.
Profile length 0.40 mAluminium LED profile cut to a length of 0.40 metres.
Profile length 0.45 mAluminium LED profile cut to a length of 0.45 metres.
Profile length 0.50 mAluminium LED profile cut to a length of 0.50 metres.
Profile length 0.55 mAluminium LED profile cut to a length of 0.55 metres.
Profile length 0.60 mAluminium LED profile cut to a length of 0.60 metres.
Profile length 0.65 mAluminium LED profile cut to a length of 0.65 metres.
Profile length 0.70 mAluminium LED profile cut to a length of 0.70 metres.
Profile length 0.75 mAluminium LED profile cut to a length of 0.75 metres.
Profile length 0.80 mAluminium LED profile cut to a length of 0.80 metres.
Profile length 0.85 mAluminium LED profile cut to a length of 0.85 metres.
Profile length 0.90 mAluminium LED profile cut to a length of 0.90 metres.
Profile length 0.95 mAluminium LED profile cut to a length of 0.95 metres.
Profile length 1.00 mAluminium LED profile cut to a length of 1.00 metres.
Profile length 1.05 mAluminium LED profile cut to a length of 1.05 metres.
Profile length 1.10 mAluminium LED profile cut to a length of 1.10 metres.
Profile length 1.15 mAluminium LED profile cut to a length of 1.15 metres.
Profile length 1.20 mAluminium LED profile cut to a length of 1.20 metres.
Profile length 1.25 mAluminium LED profile cut to a length of 1.25 metres.
Profile length 1.30 mAluminium LED profile cut to a length of 1.30 metres.
Profile length 1.35 mAluminium LED profile cut to a length of 1.35 metres.
Profile length 1.40 mAluminium LED profile cut to a length of 1.40 metres.
Profile length 1.45 mAluminium LED profile cut to a length of 1.45 metres.
Profile length 1.50 mAluminium LED profile cut to a length of 1.50 metres.
Profile length 1.55 mAluminium LED profile cut to a length of 1.55 metres.
Profile length 1.60 mAluminium LED profile cut to a length of 1.60 metres.
Profile length 1.65 mAluminium LED profile cut to a length of 1.65 metres.
Profile length 1.70 mAluminium LED profile cut to a length of 1.70 metres.
Profile length 1.75 mAluminium LED profile cut to a length of 1.75 metres.
Profile length 1.80 mAluminium LED profile cut to a length of 1.80 metres.
Profile length 1.85 mAluminium LED profile cut to a length of 1.85 metres.
Profile length 1.90 mAluminium LED profile cut to a length of 1.90 metres.
Profile length 1.95 mAluminium LED profile cut to a length of 1.95 metres.
Profile length 2.00 mAluminium LED profile cut to a length of 2.00 metres.
Profile length 2.05 mAluminium LED profile cut to a length of 2.05 metres.
Profile length 2.10 mAluminium LED profile cut to a length of 2.10 metres.
Profile length 2.15 mAluminium LED profile cut to a length of 2.15 metres.
Profile length 2.20 mAluminium LED profile cut to a length of 2.20 metres.
Profile length 2.25 mAluminium LED profile cut to a length of 2.25 metres.
Profile length 2.30 mAluminium LED profile cut to a length of 2.30 metres.
Profile length 2.35 mAluminium LED profile cut to a length of 2.35 metres.
Profile length 2.40 mAluminium LED profile cut to a length of 2.40 metres.
Profile length 2.45 mAluminium LED profile cut to a length of 2.45 metres.
Profile length 2.50 mAluminium LED profile cut to a length of 2.50 metres.
Profile length 2.55 mAluminium LED profile cut to a length of 2.55 metres.
Profile length 2.60 mAluminium LED profile cut to a length of 2.60 metres.
Profile length 2.65 mAluminium LED profile cut to a length of 2.65 metres.
Profile length 2.70 mAluminium LED profile cut to a length of 2.70 metres.
Profile length 2.75 mAluminium LED profile cut to a length of 2.75 metres.
Profile length 2.80 mAluminium LED profile cut to a length of 2.80 metres.
Profile length 2.85 mAluminium LED profile cut to a length of 2.85 metres.
Profile length 2.90 mAluminium LED profile cut to a length of 2.90 metres.
Profile length 2.95 mAluminium LED profile cut to a length of 2.95 metres.
Profile length 3.00 mAluminium LED profile cut to a length of 3.00 metres.
Profile length 3.05 mAluminium LED profile cut to a length of 3.05 metres.
Profile length 3.10 mAluminium LED profile cut to a length of 3.10 metres.
Profile length 3.15 mAluminium LED profile cut to a length of 3.15 metres.
Profile length 3.20 mAluminium LED profile cut to a length of 3.20 metres.
Profile length 3.25 mAluminium LED profile cut to a length of 3.25 metres.
Profile length 3.30 mAluminium LED profile cut to a length of 3.30 metres.
Profile length 3.35 mAluminium LED profile cut to a length of 3.35 metres.
Profile length 3.40 mAluminium LED profile cut to a length of 3.40 metres.
Profile length 3.45 mAluminium LED profile cut to a length of 3.45 metres.
Profile length 3.50 mAluminium LED profile cut to a length of 3.50 metres.
Profile length 3.55 mAluminium LED profile cut to a length of 3.55 metres.
Profile length 3.60 mAluminium LED profile cut to a length of 3.60 metres.
Profile length 3.65 mAluminium LED profile cut to a length of 3.65 metres.
Profile length 3.70 mAluminium LED profile cut to a length of 3.70 metres.
Profile length 3.75 mAluminium LED profile cut to a length of 3.75 metres.
Profile length 3.80 mAluminium LED profile cut to a length of 3.80 metres.
Profile length 3.85 mAluminium LED profile cut to a length of 3.85 metres.
Profile length 3.90 mAluminium LED profile cut to a length of 3.90 metres.
Profile length 3.95 mAluminium LED profile cut to a length of 3.95 metres.
Profile length 4.00 mAluminium LED profile cut to a length of 4.00 metres.
Profile length 4.05 mAluminium LED profile cut to a length of 4.05 metres.
Profile length 4.10 mAluminium LED profile cut to a length of 4.10 metres.
Profile length 4.15 mAluminium LED profile cut to a length of 4.15 metres.
Profile length 4.20 mAluminium LED profile cut to a length of 4.20 metres.
Profile length 4.25 mAluminium LED profile cut to a length of 4.25 metres.
Profile length 4.30 mAluminium LED profile cut to a length of 4.30 metres.
Profile length 4.35 mAluminium LED profile cut to a length of 4.35 metres.
Profile length 4.40 mAluminium LED profile cut to a length of 4.40 metres.
Profile length 4.45 mAluminium LED profile cut to a length of 4.45 metres.
Profile length 4.50 mAluminium LED profile cut to a length of 4.50 metres.
Profile length 4.55 mAluminium LED profile cut to a length of 4.55 metres.
Profile length 4.60 mAluminium LED profile cut to a length of 4.60 metres.
Profile length 4.65 mAluminium LED profile cut to a length of 4.65 metres.
Profile length 4.70 mAluminium LED profile cut to a length of 4.70 metres.
Profile length 4.75 mAluminium LED profile cut to a length of 4.75 metres.
Profile length 4.80 mAluminium LED profile cut to a length of 4.80 metres.
Profile length 4.85 mAluminium LED profile cut to a length of 4.85 metres.
Profile length 4.90 mAluminium LED profile cut to a length of 4.90 metres.
Profile length 4.95 mAluminium LED profile cut to a length of 4.95 metres.
Profile length 5.00 mAluminium LED profile cut to a length of 5.00 metres.
Profile section 100×10 mmAluminium LED channel with 100 mm width by 10 mm height external dimensions.
Profile section 100×100 mmAluminium LED channel with 100 mm width by 100 mm height external dimensions.
Profile section 100×12 mmAluminium LED channel with 100 mm width by 12 mm height external dimensions.
Profile section 100×14 mmAluminium LED channel with 100 mm width by 14 mm height external dimensions.
Profile section 100×15 mmAluminium LED channel with 100 mm width by 15 mm height external dimensions.
Profile section 100×17 mmAluminium LED channel with 100 mm width by 17 mm height external dimensions.
Profile section 100×20 mmAluminium LED channel with 100 mm width by 20 mm height external dimensions.
Profile section 100×22 mmAluminium LED channel with 100 mm width by 22 mm height external dimensions.
Profile section 100×25 mmAluminium LED channel with 100 mm width by 25 mm height external dimensions.
Profile section 100×27 mmAluminium LED channel with 100 mm width by 27 mm height external dimensions.
Profile section 100×30 mmAluminium LED channel with 100 mm width by 30 mm height external dimensions.
Profile section 100×35 mmAluminium LED channel with 100 mm width by 35 mm height external dimensions.
Profile section 100×40 mmAluminium LED channel with 100 mm width by 40 mm height external dimensions.
Profile section 100×45 mmAluminium LED channel with 100 mm width by 45 mm height external dimensions.
Profile section 100×50 mmAluminium LED channel with 100 mm width by 50 mm height external dimensions.
Profile section 100×55 mmAluminium LED channel with 100 mm width by 55 mm height external dimensions.
Profile section 100×6 mmAluminium LED channel with 100 mm width by 6 mm height external dimensions.
Profile section 100×60 mmAluminium LED channel with 100 mm width by 60 mm height external dimensions.
Profile section 100×7 mmAluminium LED channel with 100 mm width by 7 mm height external dimensions.
Profile section 100×70 mmAluminium LED channel with 100 mm width by 70 mm height external dimensions.
Profile section 100×8 mmAluminium LED channel with 100 mm width by 8 mm height external dimensions.
Profile section 100×80 mmAluminium LED channel with 100 mm width by 80 mm height external dimensions.
Profile section 100×9 mmAluminium LED channel with 100 mm width by 9 mm height external dimensions.
Profile section 10×10 mmAluminium LED channel with 10 mm width by 10 mm height external dimensions.
Profile section 10×6 mmAluminium LED channel with 10 mm width by 6 mm height external dimensions.
Profile section 10×7 mmAluminium LED channel with 10 mm width by 7 mm height external dimensions.
Profile section 10×8 mmAluminium LED channel with 10 mm width by 8 mm height external dimensions.
Profile section 10×9 mmAluminium LED channel with 10 mm width by 9 mm height external dimensions.
Profile section 110×10 mmAluminium LED channel with 110 mm width by 10 mm height external dimensions.
Profile section 110×100 mmAluminium LED channel with 110 mm width by 100 mm height external dimensions.
Profile section 110×12 mmAluminium LED channel with 110 mm width by 12 mm height external dimensions.
Profile section 110×14 mmAluminium LED channel with 110 mm width by 14 mm height external dimensions.
Profile section 110×15 mmAluminium LED channel with 110 mm width by 15 mm height external dimensions.
Profile section 110×17 mmAluminium LED channel with 110 mm width by 17 mm height external dimensions.
Profile section 110×20 mmAluminium LED channel with 110 mm width by 20 mm height external dimensions.
Profile section 110×22 mmAluminium LED channel with 110 mm width by 22 mm height external dimensions.
Profile section 110×25 mmAluminium LED channel with 110 mm width by 25 mm height external dimensions.
Profile section 110×27 mmAluminium LED channel with 110 mm width by 27 mm height external dimensions.
Profile section 110×30 mmAluminium LED channel with 110 mm width by 30 mm height external dimensions.
Profile section 110×35 mmAluminium LED channel with 110 mm width by 35 mm height external dimensions.
Profile section 110×40 mmAluminium LED channel with 110 mm width by 40 mm height external dimensions.
Profile section 110×45 mmAluminium LED channel with 110 mm width by 45 mm height external dimensions.
Profile section 110×50 mmAluminium LED channel with 110 mm width by 50 mm height external dimensions.
Profile section 110×55 mmAluminium LED channel with 110 mm width by 55 mm height external dimensions.
Profile section 110×6 mmAluminium LED channel with 110 mm width by 6 mm height external dimensions.
Profile section 110×60 mmAluminium LED channel with 110 mm width by 60 mm height external dimensions.
Profile section 110×7 mmAluminium LED channel with 110 mm width by 7 mm height external dimensions.
Profile section 110×70 mmAluminium LED channel with 110 mm width by 70 mm height external dimensions.
Profile section 110×8 mmAluminium LED channel with 110 mm width by 8 mm height external dimensions.
Profile section 110×80 mmAluminium LED channel with 110 mm width by 80 mm height external dimensions.
Profile section 110×9 mmAluminium LED channel with 110 mm width by 9 mm height external dimensions.
Profile section 120×10 mmAluminium LED channel with 120 mm width by 10 mm height external dimensions.
Profile section 120×100 mmAluminium LED channel with 120 mm width by 100 mm height external dimensions.
Profile section 120×12 mmAluminium LED channel with 120 mm width by 12 mm height external dimensions.
Profile section 120×14 mmAluminium LED channel with 120 mm width by 14 mm height external dimensions.
Profile section 120×15 mmAluminium LED channel with 120 mm width by 15 mm height external dimensions.
Profile section 120×17 mmAluminium LED channel with 120 mm width by 17 mm height external dimensions.
Profile section 120×20 mmAluminium LED channel with 120 mm width by 20 mm height external dimensions.
Profile section 120×22 mmAluminium LED channel with 120 mm width by 22 mm height external dimensions.
Profile section 120×25 mmAluminium LED channel with 120 mm width by 25 mm height external dimensions.
Profile section 120×27 mmAluminium LED channel with 120 mm width by 27 mm height external dimensions.
Profile section 120×30 mmAluminium LED channel with 120 mm width by 30 mm height external dimensions.
Profile section 120×35 mmAluminium LED channel with 120 mm width by 35 mm height external dimensions.
Profile section 120×40 mmAluminium LED channel with 120 mm width by 40 mm height external dimensions.
Profile section 120×45 mmAluminium LED channel with 120 mm width by 45 mm height external dimensions.
Profile section 120×50 mmAluminium LED channel with 120 mm width by 50 mm height external dimensions.
Profile section 120×55 mmAluminium LED channel with 120 mm width by 55 mm height external dimensions.
Profile section 120×6 mmAluminium LED channel with 120 mm width by 6 mm height external dimensions.
Profile section 120×60 mmAluminium LED channel with 120 mm width by 60 mm height external dimensions.
Profile section 120×7 mmAluminium LED channel with 120 mm width by 7 mm height external dimensions.
Profile section 120×70 mmAluminium LED channel with 120 mm width by 70 mm height external dimensions.
Profile section 120×8 mmAluminium LED channel with 120 mm width by 8 mm height external dimensions.
Profile section 120×80 mmAluminium LED channel with 120 mm width by 80 mm height external dimensions.
Profile section 120×9 mmAluminium LED channel with 120 mm width by 9 mm height external dimensions.
Profile section 12×10 mmAluminium LED channel with 12 mm width by 10 mm height external dimensions.
Profile section 12×12 mmAluminium LED channel with 12 mm width by 12 mm height external dimensions.
Profile section 12×6 mmAluminium LED channel with 12 mm width by 6 mm height external dimensions.
Profile section 12×7 mmAluminium LED channel with 12 mm width by 7 mm height external dimensions.
Profile section 12×8 mmAluminium LED channel with 12 mm width by 8 mm height external dimensions.
Profile section 12×9 mmAluminium LED channel with 12 mm width by 9 mm height external dimensions.
Profile section 130×10 mmAluminium LED channel with 130 mm width by 10 mm height external dimensions.
Profile section 130×100 mmAluminium LED channel with 130 mm width by 100 mm height external dimensions.
Profile section 130×12 mmAluminium LED channel with 130 mm width by 12 mm height external dimensions.
Profile section 130×14 mmAluminium LED channel with 130 mm width by 14 mm height external dimensions.
Profile section 130×15 mmAluminium LED channel with 130 mm width by 15 mm height external dimensions.
Profile section 130×17 mmAluminium LED channel with 130 mm width by 17 mm height external dimensions.
Profile section 130×20 mmAluminium LED channel with 130 mm width by 20 mm height external dimensions.
Profile section 130×22 mmAluminium LED channel with 130 mm width by 22 mm height external dimensions.
Profile section 130×25 mmAluminium LED channel with 130 mm width by 25 mm height external dimensions.
Profile section 130×27 mmAluminium LED channel with 130 mm width by 27 mm height external dimensions.
Profile section 130×30 mmAluminium LED channel with 130 mm width by 30 mm height external dimensions.
Profile section 130×35 mmAluminium LED channel with 130 mm width by 35 mm height external dimensions.
Profile section 130×40 mmAluminium LED channel with 130 mm width by 40 mm height external dimensions.
Profile section 130×45 mmAluminium LED channel with 130 mm width by 45 mm height external dimensions.
Profile section 130×50 mmAluminium LED channel with 130 mm width by 50 mm height external dimensions.
Profile section 130×55 mmAluminium LED channel with 130 mm width by 55 mm height external dimensions.
Profile section 130×6 mmAluminium LED channel with 130 mm width by 6 mm height external dimensions.
Profile section 130×60 mmAluminium LED channel with 130 mm width by 60 mm height external dimensions.
Profile section 130×7 mmAluminium LED channel with 130 mm width by 7 mm height external dimensions.
Profile section 130×70 mmAluminium LED channel with 130 mm width by 70 mm height external dimensions.
Profile section 130×8 mmAluminium LED channel with 130 mm width by 8 mm height external dimensions.
Profile section 130×80 mmAluminium LED channel with 130 mm width by 80 mm height external dimensions.
Profile section 130×9 mmAluminium LED channel with 130 mm width by 9 mm height external dimensions.
Profile section 140×10 mmAluminium LED channel with 140 mm width by 10 mm height external dimensions.
Profile section 140×100 mmAluminium LED channel with 140 mm width by 100 mm height external dimensions.
Profile section 140×12 mmAluminium LED channel with 140 mm width by 12 mm height external dimensions.
Profile section 140×14 mmAluminium LED channel with 140 mm width by 14 mm height external dimensions.
Profile section 140×15 mmAluminium LED channel with 140 mm width by 15 mm height external dimensions.
Profile section 140×17 mmAluminium LED channel with 140 mm width by 17 mm height external dimensions.
Profile section 140×20 mmAluminium LED channel with 140 mm width by 20 mm height external dimensions.
Profile section 140×22 mmAluminium LED channel with 140 mm width by 22 mm height external dimensions.
Profile section 140×25 mmAluminium LED channel with 140 mm width by 25 mm height external dimensions.
Profile section 140×27 mmAluminium LED channel with 140 mm width by 27 mm height external dimensions.
Profile section 140×30 mmAluminium LED channel with 140 mm width by 30 mm height external dimensions.
Profile section 140×35 mmAluminium LED channel with 140 mm width by 35 mm height external dimensions.
Profile section 140×40 mmAluminium LED channel with 140 mm width by 40 mm height external dimensions.
Profile section 140×45 mmAluminium LED channel with 140 mm width by 45 mm height external dimensions.
Profile section 140×50 mmAluminium LED channel with 140 mm width by 50 mm height external dimensions.
Profile section 140×55 mmAluminium LED channel with 140 mm width by 55 mm height external dimensions.
Profile section 140×6 mmAluminium LED channel with 140 mm width by 6 mm height external dimensions.
Profile section 140×60 mmAluminium LED channel with 140 mm width by 60 mm height external dimensions.
Profile section 140×7 mmAluminium LED channel with 140 mm width by 7 mm height external dimensions.
Profile section 140×70 mmAluminium LED channel with 140 mm width by 70 mm height external dimensions.
Profile section 140×8 mmAluminium LED channel with 140 mm width by 8 mm height external dimensions.
Profile section 140×80 mmAluminium LED channel with 140 mm width by 80 mm height external dimensions.
Profile section 140×9 mmAluminium LED channel with 140 mm width by 9 mm height external dimensions.
Profile section 14×10 mmAluminium LED channel with 14 mm width by 10 mm height external dimensions.
Profile section 14×12 mmAluminium LED channel with 14 mm width by 12 mm height external dimensions.
Profile section 14×14 mmAluminium LED channel with 14 mm width by 14 mm height external dimensions.
Profile section 14×6 mmAluminium LED channel with 14 mm width by 6 mm height external dimensions.
Profile section 14×7 mmAluminium LED channel with 14 mm width by 7 mm height external dimensions.
Profile section 14×8 mmAluminium LED channel with 14 mm width by 8 mm height external dimensions.
Profile section 14×9 mmAluminium LED channel with 14 mm width by 9 mm height external dimensions.
Profile section 150×10 mmAluminium LED channel with 150 mm width by 10 mm height external dimensions.
Profile section 150×100 mmAluminium LED channel with 150 mm width by 100 mm height external dimensions.
Profile section 150×12 mmAluminium LED channel with 150 mm width by 12 mm height external dimensions.
Profile section 150×14 mmAluminium LED channel with 150 mm width by 14 mm height external dimensions.
Profile section 150×15 mmAluminium LED channel with 150 mm width by 15 mm height external dimensions.
Profile section 150×17 mmAluminium LED channel with 150 mm width by 17 mm height external dimensions.
Profile section 150×20 mmAluminium LED channel with 150 mm width by 20 mm height external dimensions.
Profile section 150×22 mmAluminium LED channel with 150 mm width by 22 mm height external dimensions.
Profile section 150×25 mmAluminium LED channel with 150 mm width by 25 mm height external dimensions.
Profile section 150×27 mmAluminium LED channel with 150 mm width by 27 mm height external dimensions.
Profile section 150×30 mmAluminium LED channel with 150 mm width by 30 mm height external dimensions.
Profile section 150×35 mmAluminium LED channel with 150 mm width by 35 mm height external dimensions.
Profile section 150×40 mmAluminium LED channel with 150 mm width by 40 mm height external dimensions.
Profile section 150×45 mmAluminium LED channel with 150 mm width by 45 mm height external dimensions.
Profile section 150×50 mmAluminium LED channel with 150 mm width by 50 mm height external dimensions.
Profile section 150×55 mmAluminium LED channel with 150 mm width by 55 mm height external dimensions.
Profile section 150×6 mmAluminium LED channel with 150 mm width by 6 mm height external dimensions.
Profile section 150×60 mmAluminium LED channel with 150 mm width by 60 mm height external dimensions.
Profile section 150×7 mmAluminium LED channel with 150 mm width by 7 mm height external dimensions.
Profile section 150×70 mmAluminium LED channel with 150 mm width by 70 mm height external dimensions.
Profile section 150×8 mmAluminium LED channel with 150 mm width by 8 mm height external dimensions.
Profile section 150×80 mmAluminium LED channel with 150 mm width by 80 mm height external dimensions.
Profile section 150×9 mmAluminium LED channel with 150 mm width by 9 mm height external dimensions.
Profile section 15×10 mmAluminium LED channel with 15 mm width by 10 mm height external dimensions.
Profile section 15×12 mmAluminium LED channel with 15 mm width by 12 mm height external dimensions.
Profile section 15×14 mmAluminium LED channel with 15 mm width by 14 mm height external dimensions.
Profile section 15×15 mmAluminium LED channel with 15 mm width by 15 mm height external dimensions.
Profile section 15×6 mmAluminium LED channel with 15 mm width by 6 mm height external dimensions.
Profile section 15×7 mmAluminium LED channel with 15 mm width by 7 mm height external dimensions.
Profile section 15×8 mmAluminium LED channel with 15 mm width by 8 mm height external dimensions.
Profile section 15×9 mmAluminium LED channel with 15 mm width by 9 mm height external dimensions.
Profile section 160×10 mmAluminium LED channel with 160 mm width by 10 mm height external dimensions.
Profile section 160×100 mmAluminium LED channel with 160 mm width by 100 mm height external dimensions.
Profile section 160×12 mmAluminium LED channel with 160 mm width by 12 mm height external dimensions.
Profile section 160×14 mmAluminium LED channel with 160 mm width by 14 mm height external dimensions.
Profile section 160×15 mmAluminium LED channel with 160 mm width by 15 mm height external dimensions.
Profile section 160×17 mmAluminium LED channel with 160 mm width by 17 mm height external dimensions.
Profile section 160×20 mmAluminium LED channel with 160 mm width by 20 mm height external dimensions.
Profile section 160×22 mmAluminium LED channel with 160 mm width by 22 mm height external dimensions.
Profile section 160×25 mmAluminium LED channel with 160 mm width by 25 mm height external dimensions.
Profile section 160×27 mmAluminium LED channel with 160 mm width by 27 mm height external dimensions.
Profile section 160×30 mmAluminium LED channel with 160 mm width by 30 mm height external dimensions.
Profile section 160×35 mmAluminium LED channel with 160 mm width by 35 mm height external dimensions.
Profile section 160×40 mmAluminium LED channel with 160 mm width by 40 mm height external dimensions.
Profile section 160×45 mmAluminium LED channel with 160 mm width by 45 mm height external dimensions.
Profile section 160×50 mmAluminium LED channel with 160 mm width by 50 mm height external dimensions.
Profile section 160×55 mmAluminium LED channel with 160 mm width by 55 mm height external dimensions.
Profile section 160×6 mmAluminium LED channel with 160 mm width by 6 mm height external dimensions.
Profile section 160×60 mmAluminium LED channel with 160 mm width by 60 mm height external dimensions.
Profile section 160×7 mmAluminium LED channel with 160 mm width by 7 mm height external dimensions.
Profile section 160×70 mmAluminium LED channel with 160 mm width by 70 mm height external dimensions.
Profile section 160×8 mmAluminium LED channel with 160 mm width by 8 mm height external dimensions.
Profile section 160×80 mmAluminium LED channel with 160 mm width by 80 mm height external dimensions.
Profile section 160×9 mmAluminium LED channel with 160 mm width by 9 mm height external dimensions.
Profile section 16×10 mmAluminium LED channel with 16 mm width by 10 mm height external dimensions.
Profile section 16×12 mmAluminium LED channel with 16 mm width by 12 mm height external dimensions.
Profile section 16×14 mmAluminium LED channel with 16 mm width by 14 mm height external dimensions.
Profile section 16×15 mmAluminium LED channel with 16 mm width by 15 mm height external dimensions.
Profile section 16×6 mmAluminium LED channel with 16 mm width by 6 mm height external dimensions.
Profile section 16×7 mmAluminium LED channel with 16 mm width by 7 mm height external dimensions.
Profile section 16×8 mmAluminium LED channel with 16 mm width by 8 mm height external dimensions.
Profile section 16×9 mmAluminium LED channel with 16 mm width by 9 mm height external dimensions.
Profile section 17×10 mmAluminium LED channel with 17 mm width by 10 mm height external dimensions.
Profile section 17×12 mmAluminium LED channel with 17 mm width by 12 mm height external dimensions.
Profile section 17×14 mmAluminium LED channel with 17 mm width by 14 mm height external dimensions.
Profile section 17×15 mmAluminium LED channel with 17 mm width by 15 mm height external dimensions.
Profile section 17×17 mmAluminium LED channel with 17 mm width by 17 mm height external dimensions.
Profile section 17×6 mmAluminium LED channel with 17 mm width by 6 mm height external dimensions.
Profile section 17×7 mmAluminium LED channel with 17 mm width by 7 mm height external dimensions.
Profile section 17×8 mmAluminium LED channel with 17 mm width by 8 mm height external dimensions.
Profile section 17×9 mmAluminium LED channel with 17 mm width by 9 mm height external dimensions.
Profile section 180×10 mmAluminium LED channel with 180 mm width by 10 mm height external dimensions.
Profile section 180×100 mmAluminium LED channel with 180 mm width by 100 mm height external dimensions.
Profile section 180×12 mmAluminium LED channel with 180 mm width by 12 mm height external dimensions.
Profile section 180×14 mmAluminium LED channel with 180 mm width by 14 mm height external dimensions.
Profile section 180×15 mmAluminium LED channel with 180 mm width by 15 mm height external dimensions.
Profile section 180×17 mmAluminium LED channel with 180 mm width by 17 mm height external dimensions.
Profile section 180×20 mmAluminium LED channel with 180 mm width by 20 mm height external dimensions.
Profile section 180×22 mmAluminium LED channel with 180 mm width by 22 mm height external dimensions.
Profile section 180×25 mmAluminium LED channel with 180 mm width by 25 mm height external dimensions.
Profile section 180×27 mmAluminium LED channel with 180 mm width by 27 mm height external dimensions.
Profile section 180×30 mmAluminium LED channel with 180 mm width by 30 mm height external dimensions.
Profile section 180×35 mmAluminium LED channel with 180 mm width by 35 mm height external dimensions.
Profile section 180×40 mmAluminium LED channel with 180 mm width by 40 mm height external dimensions.
Profile section 180×45 mmAluminium LED channel with 180 mm width by 45 mm height external dimensions.
Profile section 180×50 mmAluminium LED channel with 180 mm width by 50 mm height external dimensions.
Profile section 180×55 mmAluminium LED channel with 180 mm width by 55 mm height external dimensions.
Profile section 180×6 mmAluminium LED channel with 180 mm width by 6 mm height external dimensions.
Profile section 180×60 mmAluminium LED channel with 180 mm width by 60 mm height external dimensions.
Profile section 180×7 mmAluminium LED channel with 180 mm width by 7 mm height external dimensions.
Profile section 180×70 mmAluminium LED channel with 180 mm width by 70 mm height external dimensions.
Profile section 180×8 mmAluminium LED channel with 180 mm width by 8 mm height external dimensions.
Profile section 180×80 mmAluminium LED channel with 180 mm width by 80 mm height external dimensions.
Profile section 180×9 mmAluminium LED channel with 180 mm width by 9 mm height external dimensions.
Profile section 18×10 mmAluminium LED channel with 18 mm width by 10 mm height external dimensions.
Profile section 18×12 mmAluminium LED channel with 18 mm width by 12 mm height external dimensions.
Profile section 18×14 mmAluminium LED channel with 18 mm width by 14 mm height external dimensions.
Profile section 18×15 mmAluminium LED channel with 18 mm width by 15 mm height external dimensions.
Profile section 18×17 mmAluminium LED channel with 18 mm width by 17 mm height external dimensions.
Profile section 18×6 mmAluminium LED channel with 18 mm width by 6 mm height external dimensions.
Profile section 18×7 mmAluminium LED channel with 18 mm width by 7 mm height external dimensions.
Profile section 18×8 mmAluminium LED channel with 18 mm width by 8 mm height external dimensions.
Profile section 18×9 mmAluminium LED channel with 18 mm width by 9 mm height external dimensions.
Profile section 200×10 mmAluminium LED channel with 200 mm width by 10 mm height external dimensions.
Profile section 200×100 mmAluminium LED channel with 200 mm width by 100 mm height external dimensions.
Profile section 200×12 mmAluminium LED channel with 200 mm width by 12 mm height external dimensions.
Profile section 200×14 mmAluminium LED channel with 200 mm width by 14 mm height external dimensions.
Profile section 200×15 mmAluminium LED channel with 200 mm width by 15 mm height external dimensions.
Profile section 200×17 mmAluminium LED channel with 200 mm width by 17 mm height external dimensions.
Profile section 200×20 mmAluminium LED channel with 200 mm width by 20 mm height external dimensions.
Profile section 200×22 mmAluminium LED channel with 200 mm width by 22 mm height external dimensions.
Profile section 200×25 mmAluminium LED channel with 200 mm width by 25 mm height external dimensions.
Profile section 200×27 mmAluminium LED channel with 200 mm width by 27 mm height external dimensions.
Profile section 200×30 mmAluminium LED channel with 200 mm width by 30 mm height external dimensions.
Profile section 200×35 mmAluminium LED channel with 200 mm width by 35 mm height external dimensions.
Profile section 200×40 mmAluminium LED channel with 200 mm width by 40 mm height external dimensions.
Profile section 200×45 mmAluminium LED channel with 200 mm width by 45 mm height external dimensions.
Profile section 200×50 mmAluminium LED channel with 200 mm width by 50 mm height external dimensions.
Profile section 200×55 mmAluminium LED channel with 200 mm width by 55 mm height external dimensions.
Profile section 200×6 mmAluminium LED channel with 200 mm width by 6 mm height external dimensions.
Profile section 200×60 mmAluminium LED channel with 200 mm width by 60 mm height external dimensions.
Profile section 200×7 mmAluminium LED channel with 200 mm width by 7 mm height external dimensions.
Profile section 200×70 mmAluminium LED channel with 200 mm width by 70 mm height external dimensions.
Profile section 200×8 mmAluminium LED channel with 200 mm width by 8 mm height external dimensions.
Profile section 200×80 mmAluminium LED channel with 200 mm width by 80 mm height external dimensions.
Profile section 200×9 mmAluminium LED channel with 200 mm width by 9 mm height external dimensions.
Profile section 20×10 mmAluminium LED channel with 20 mm width by 10 mm height external dimensions.
Profile section 20×12 mmAluminium LED channel with 20 mm width by 12 mm height external dimensions.
Profile section 20×14 mmAluminium LED channel with 20 mm width by 14 mm height external dimensions.
Profile section 20×15 mmAluminium LED channel with 20 mm width by 15 mm height external dimensions.
Profile section 20×17 mmAluminium LED channel with 20 mm width by 17 mm height external dimensions.
Profile section 20×20 mmAluminium LED channel with 20 mm width by 20 mm height external dimensions.
Profile section 20×6 mmAluminium LED channel with 20 mm width by 6 mm height external dimensions.
Profile section 20×7 mmAluminium LED channel with 20 mm width by 7 mm height external dimensions.
Profile section 20×8 mmAluminium LED channel with 20 mm width by 8 mm height external dimensions.
Profile section 20×9 mmAluminium LED channel with 20 mm width by 9 mm height external dimensions.
Profile section 22×10 mmAluminium LED channel with 22 mm width by 10 mm height external dimensions.
Profile section 22×12 mmAluminium LED channel with 22 mm width by 12 mm height external dimensions.
Profile section 22×14 mmAluminium LED channel with 22 mm width by 14 mm height external dimensions.
Profile section 22×15 mmAluminium LED channel with 22 mm width by 15 mm height external dimensions.
Profile section 22×17 mmAluminium LED channel with 22 mm width by 17 mm height external dimensions.
Profile section 22×20 mmAluminium LED channel with 22 mm width by 20 mm height external dimensions.
Profile section 22×22 mmAluminium LED channel with 22 mm width by 22 mm height external dimensions.
Profile section 22×6 mmAluminium LED channel with 22 mm width by 6 mm height external dimensions.
Profile section 22×7 mmAluminium LED channel with 22 mm width by 7 mm height external dimensions.
Profile section 22×8 mmAluminium LED channel with 22 mm width by 8 mm height external dimensions.
Profile section 22×9 mmAluminium LED channel with 22 mm width by 9 mm height external dimensions.
Profile section 24×10 mmAluminium LED channel with 24 mm width by 10 mm height external dimensions.
Profile section 24×12 mmAluminium LED channel with 24 mm width by 12 mm height external dimensions.
Profile section 24×14 mmAluminium LED channel with 24 mm width by 14 mm height external dimensions.
Profile section 24×15 mmAluminium LED channel with 24 mm width by 15 mm height external dimensions.
Profile section 24×17 mmAluminium LED channel with 24 mm width by 17 mm height external dimensions.
Profile section 24×20 mmAluminium LED channel with 24 mm width by 20 mm height external dimensions.
Profile section 24×22 mmAluminium LED channel with 24 mm width by 22 mm height external dimensions.
Profile section 24×6 mmAluminium LED channel with 24 mm width by 6 mm height external dimensions.
Profile section 24×7 mmAluminium LED channel with 24 mm width by 7 mm height external dimensions.
Profile section 24×8 mmAluminium LED channel with 24 mm width by 8 mm height external dimensions.
Profile section 24×9 mmAluminium LED channel with 24 mm width by 9 mm height external dimensions.
Profile section 25×10 mmAluminium LED channel with 25 mm width by 10 mm height external dimensions.
Profile section 25×12 mmAluminium LED channel with 25 mm width by 12 mm height external dimensions.
Profile section 25×14 mmAluminium LED channel with 25 mm width by 14 mm height external dimensions.
Profile section 25×15 mmAluminium LED channel with 25 mm width by 15 mm height external dimensions.
Profile section 25×17 mmAluminium LED channel with 25 mm width by 17 mm height external dimensions.
Profile section 25×20 mmAluminium LED channel with 25 mm width by 20 mm height external dimensions.
Profile section 25×22 mmAluminium LED channel with 25 mm width by 22 mm height external dimensions.
Profile section 25×25 mmAluminium LED channel with 25 mm width by 25 mm height external dimensions.
Profile section 25×6 mmAluminium LED channel with 25 mm width by 6 mm height external dimensions.
Profile section 25×7 mmAluminium LED channel with 25 mm width by 7 mm height external dimensions.
Profile section 25×8 mmAluminium LED channel with 25 mm width by 8 mm height external dimensions.
Profile section 25×9 mmAluminium LED channel with 25 mm width by 9 mm height external dimensions.
Profile section 27×10 mmAluminium LED channel with 27 mm width by 10 mm height external dimensions.
Profile section 27×12 mmAluminium LED channel with 27 mm width by 12 mm height external dimensions.
Profile section 27×14 mmAluminium LED channel with 27 mm width by 14 mm height external dimensions.
Profile section 27×15 mmAluminium LED channel with 27 mm width by 15 mm height external dimensions.
Profile section 27×17 mmAluminium LED channel with 27 mm width by 17 mm height external dimensions.
Profile section 27×20 mmAluminium LED channel with 27 mm width by 20 mm height external dimensions.
Profile section 27×22 mmAluminium LED channel with 27 mm width by 22 mm height external dimensions.
Profile section 27×25 mmAluminium LED channel with 27 mm width by 25 mm height external dimensions.
Profile section 27×27 mmAluminium LED channel with 27 mm width by 27 mm height external dimensions.
Profile section 27×6 mmAluminium LED channel with 27 mm width by 6 mm height external dimensions.
Profile section 27×7 mmAluminium LED channel with 27 mm width by 7 mm height external dimensions.
Profile section 27×8 mmAluminium LED channel with 27 mm width by 8 mm height external dimensions.
Profile section 27×9 mmAluminium LED channel with 27 mm width by 9 mm height external dimensions.
Profile section 30×10 mmAluminium LED channel with 30 mm width by 10 mm height external dimensions.
Profile section 30×12 mmAluminium LED channel with 30 mm width by 12 mm height external dimensions.
Profile section 30×14 mmAluminium LED channel with 30 mm width by 14 mm height external dimensions.
Profile section 30×15 mmAluminium LED channel with 30 mm width by 15 mm height external dimensions.
Profile section 30×17 mmAluminium LED channel with 30 mm width by 17 mm height external dimensions.
Profile section 30×20 mmAluminium LED channel with 30 mm width by 20 mm height external dimensions.
Profile section 30×22 mmAluminium LED channel with 30 mm width by 22 mm height external dimensions.
Profile section 30×25 mmAluminium LED channel with 30 mm width by 25 mm height external dimensions.
Profile section 30×27 mmAluminium LED channel with 30 mm width by 27 mm height external dimensions.
Profile section 30×30 mmAluminium LED channel with 30 mm width by 30 mm height external dimensions.
Profile section 30×6 mmAluminium LED channel with 30 mm width by 6 mm height external dimensions.
Profile section 30×7 mmAluminium LED channel with 30 mm width by 7 mm height external dimensions.
Profile section 30×8 mmAluminium LED channel with 30 mm width by 8 mm height external dimensions.
Profile section 30×9 mmAluminium LED channel with 30 mm width by 9 mm height external dimensions.
Profile section 33×10 mmAluminium LED channel with 33 mm width by 10 mm height external dimensions.
Profile section 33×12 mmAluminium LED channel with 33 mm width by 12 mm height external dimensions.
Profile section 33×14 mmAluminium LED channel with 33 mm width by 14 mm height external dimensions.
Profile section 33×15 mmAluminium LED channel with 33 mm width by 15 mm height external dimensions.
Profile section 33×17 mmAluminium LED channel with 33 mm width by 17 mm height external dimensions.
Profile section 33×20 mmAluminium LED channel with 33 mm width by 20 mm height external dimensions.
Profile section 33×22 mmAluminium LED channel with 33 mm width by 22 mm height external dimensions.
Profile section 33×25 mmAluminium LED channel with 33 mm width by 25 mm height external dimensions.
Profile section 33×27 mmAluminium LED channel with 33 mm width by 27 mm height external dimensions.
Profile section 33×30 mmAluminium LED channel with 33 mm width by 30 mm height external dimensions.
Profile section 33×6 mmAluminium LED channel with 33 mm width by 6 mm height external dimensions.
Profile section 33×7 mmAluminium LED channel with 33 mm width by 7 mm height external dimensions.
Profile section 33×8 mmAluminium LED channel with 33 mm width by 8 mm height external dimensions.
Profile section 33×9 mmAluminium LED channel with 33 mm width by 9 mm height external dimensions.
Profile section 35×10 mmAluminium LED channel with 35 mm width by 10 mm height external dimensions.
Profile section 35×12 mmAluminium LED channel with 35 mm width by 12 mm height external dimensions.
Profile section 35×14 mmAluminium LED channel with 35 mm width by 14 mm height external dimensions.
Profile section 35×15 mmAluminium LED channel with 35 mm width by 15 mm height external dimensions.
Profile section 35×17 mmAluminium LED channel with 35 mm width by 17 mm height external dimensions.
Profile section 35×20 mmAluminium LED channel with 35 mm width by 20 mm height external dimensions.
Profile section 35×22 mmAluminium LED channel with 35 mm width by 22 mm height external dimensions.
Profile section 35×25 mmAluminium LED channel with 35 mm width by 25 mm height external dimensions.
Profile section 35×27 mmAluminium LED channel with 35 mm width by 27 mm height external dimensions.
Profile section 35×30 mmAluminium LED channel with 35 mm width by 30 mm height external dimensions.
Profile section 35×35 mmAluminium LED channel with 35 mm width by 35 mm height external dimensions.
Profile section 35×6 mmAluminium LED channel with 35 mm width by 6 mm height external dimensions.
Profile section 35×7 mmAluminium LED channel with 35 mm width by 7 mm height external dimensions.
Profile section 35×8 mmAluminium LED channel with 35 mm width by 8 mm height external dimensions.
Profile section 35×9 mmAluminium LED channel with 35 mm width by 9 mm height external dimensions.
Profile section 38×10 mmAluminium LED channel with 38 mm width by 10 mm height external dimensions.
Profile section 38×12 mmAluminium LED channel with 38 mm width by 12 mm height external dimensions.
Profile section 38×14 mmAluminium LED channel with 38 mm width by 14 mm height external dimensions.
Profile section 38×15 mmAluminium LED channel with 38 mm width by 15 mm height external dimensions.
Profile section 38×17 mmAluminium LED channel with 38 mm width by 17 mm height external dimensions.
Profile section 38×20 mmAluminium LED channel with 38 mm width by 20 mm height external dimensions.
Profile section 38×22 mmAluminium LED channel with 38 mm width by 22 mm height external dimensions.
Profile section 38×25 mmAluminium LED channel with 38 mm width by 25 mm height external dimensions.
Profile section 38×27 mmAluminium LED channel with 38 mm width by 27 mm height external dimensions.
Profile section 38×30 mmAluminium LED channel with 38 mm width by 30 mm height external dimensions.
Profile section 38×35 mmAluminium LED channel with 38 mm width by 35 mm height external dimensions.
Profile section 38×6 mmAluminium LED channel with 38 mm width by 6 mm height external dimensions.
Profile section 38×7 mmAluminium LED channel with 38 mm width by 7 mm height external dimensions.
Profile section 38×8 mmAluminium LED channel with 38 mm width by 8 mm height external dimensions.
Profile section 38×9 mmAluminium LED channel with 38 mm width by 9 mm height external dimensions.
Profile section 40×10 mmAluminium LED channel with 40 mm width by 10 mm height external dimensions.
Profile section 40×12 mmAluminium LED channel with 40 mm width by 12 mm height external dimensions.
Profile section 40×14 mmAluminium LED channel with 40 mm width by 14 mm height external dimensions.
Profile section 40×15 mmAluminium LED channel with 40 mm width by 15 mm height external dimensions.
Profile section 40×17 mmAluminium LED channel with 40 mm width by 17 mm height external dimensions.
Profile section 40×20 mmAluminium LED channel with 40 mm width by 20 mm height external dimensions.
Profile section 40×22 mmAluminium LED channel with 40 mm width by 22 mm height external dimensions.
Profile section 40×25 mmAluminium LED channel with 40 mm width by 25 mm height external dimensions.
Profile section 40×27 mmAluminium LED channel with 40 mm width by 27 mm height external dimensions.
Profile section 40×30 mmAluminium LED channel with 40 mm width by 30 mm height external dimensions.
Profile section 40×35 mmAluminium LED channel with 40 mm width by 35 mm height external dimensions.
Profile section 40×40 mmAluminium LED channel with 40 mm width by 40 mm height external dimensions.
Profile section 40×6 mmAluminium LED channel with 40 mm width by 6 mm height external dimensions.
Profile section 40×7 mmAluminium LED channel with 40 mm width by 7 mm height external dimensions.
Profile section 40×8 mmAluminium LED channel with 40 mm width by 8 mm height external dimensions.
Profile section 40×9 mmAluminium LED channel with 40 mm width by 9 mm height external dimensions.
Profile section 42×10 mmAluminium LED channel with 42 mm width by 10 mm height external dimensions.
Profile section 42×12 mmAluminium LED channel with 42 mm width by 12 mm height external dimensions.
Profile section 42×14 mmAluminium LED channel with 42 mm width by 14 mm height external dimensions.
Profile section 42×15 mmAluminium LED channel with 42 mm width by 15 mm height external dimensions.
Profile section 42×17 mmAluminium LED channel with 42 mm width by 17 mm height external dimensions.
Profile section 42×20 mmAluminium LED channel with 42 mm width by 20 mm height external dimensions.
Profile section 42×22 mmAluminium LED channel with 42 mm width by 22 mm height external dimensions.
Profile section 42×25 mmAluminium LED channel with 42 mm width by 25 mm height external dimensions.
Profile section 42×27 mmAluminium LED channel with 42 mm width by 27 mm height external dimensions.
Profile section 42×30 mmAluminium LED channel with 42 mm width by 30 mm height external dimensions.
Profile section 42×35 mmAluminium LED channel with 42 mm width by 35 mm height external dimensions.
Profile section 42×40 mmAluminium LED channel with 42 mm width by 40 mm height external dimensions.
Profile section 42×6 mmAluminium LED channel with 42 mm width by 6 mm height external dimensions.
Profile section 42×7 mmAluminium LED channel with 42 mm width by 7 mm height external dimensions.
Profile section 42×8 mmAluminium LED channel with 42 mm width by 8 mm height external dimensions.
Profile section 42×9 mmAluminium LED channel with 42 mm width by 9 mm height external dimensions.
Profile section 45×10 mmAluminium LED channel with 45 mm width by 10 mm height external dimensions.
Profile section 45×12 mmAluminium LED channel with 45 mm width by 12 mm height external dimensions.
Profile section 45×14 mmAluminium LED channel with 45 mm width by 14 mm height external dimensions.
Profile section 45×15 mmAluminium LED channel with 45 mm width by 15 mm height external dimensions.
Profile section 45×17 mmAluminium LED channel with 45 mm width by 17 mm height external dimensions.
Profile section 45×20 mmAluminium LED channel with 45 mm width by 20 mm height external dimensions.
Profile section 45×22 mmAluminium LED channel with 45 mm width by 22 mm height external dimensions.
Profile section 45×25 mmAluminium LED channel with 45 mm width by 25 mm height external dimensions.
Profile section 45×27 mmAluminium LED channel with 45 mm width by 27 mm height external dimensions.
Profile section 45×30 mmAluminium LED channel with 45 mm width by 30 mm height external dimensions.
Profile section 45×35 mmAluminium LED channel with 45 mm width by 35 mm height external dimensions.
Profile section 45×40 mmAluminium LED channel with 45 mm width by 40 mm height external dimensions.
Profile section 45×45 mmAluminium LED channel with 45 mm width by 45 mm height external dimensions.
Profile section 45×6 mmAluminium LED channel with 45 mm width by 6 mm height external dimensions.
Profile section 45×7 mmAluminium LED channel with 45 mm width by 7 mm height external dimensions.
Profile section 45×8 mmAluminium LED channel with 45 mm width by 8 mm height external dimensions.
Profile section 45×9 mmAluminium LED channel with 45 mm width by 9 mm height external dimensions.
Profile section 48×10 mmAluminium LED channel with 48 mm width by 10 mm height external dimensions.
Profile section 48×12 mmAluminium LED channel with 48 mm width by 12 mm height external dimensions.
Profile section 48×14 mmAluminium LED channel with 48 mm width by 14 mm height external dimensions.
Profile section 48×15 mmAluminium LED channel with 48 mm width by 15 mm height external dimensions.
Profile section 48×17 mmAluminium LED channel with 48 mm width by 17 mm height external dimensions.
Profile section 48×20 mmAluminium LED channel with 48 mm width by 20 mm height external dimensions.
Profile section 48×22 mmAluminium LED channel with 48 mm width by 22 mm height external dimensions.
Profile section 48×25 mmAluminium LED channel with 48 mm width by 25 mm height external dimensions.
Profile section 48×27 mmAluminium LED channel with 48 mm width by 27 mm height external dimensions.
Profile section 48×30 mmAluminium LED channel with 48 mm width by 30 mm height external dimensions.
Profile section 48×35 mmAluminium LED channel with 48 mm width by 35 mm height external dimensions.
Profile section 48×40 mmAluminium LED channel with 48 mm width by 40 mm height external dimensions.
Profile section 48×45 mmAluminium LED channel with 48 mm width by 45 mm height external dimensions.
Profile section 48×6 mmAluminium LED channel with 48 mm width by 6 mm height external dimensions.
Profile section 48×7 mmAluminium LED channel with 48 mm width by 7 mm height external dimensions.
Profile section 48×8 mmAluminium LED channel with 48 mm width by 8 mm height external dimensions.
Profile section 48×9 mmAluminium LED channel with 48 mm width by 9 mm height external dimensions.
Profile section 50×10 mmAluminium LED channel with 50 mm width by 10 mm height external dimensions.
Profile section 50×12 mmAluminium LED channel with 50 mm width by 12 mm height external dimensions.
Profile section 50×14 mmAluminium LED channel with 50 mm width by 14 mm height external dimensions.
Profile section 50×15 mmAluminium LED channel with 50 mm width by 15 mm height external dimensions.
Profile section 50×17 mmAluminium LED channel with 50 mm width by 17 mm height external dimensions.
Profile section 50×20 mmAluminium LED channel with 50 mm width by 20 mm height external dimensions.
Profile section 50×22 mmAluminium LED channel with 50 mm width by 22 mm height external dimensions.
Profile section 50×25 mmAluminium LED channel with 50 mm width by 25 mm height external dimensions.
Profile section 50×27 mmAluminium LED channel with 50 mm width by 27 mm height external dimensions.
Profile section 50×30 mmAluminium LED channel with 50 mm width by 30 mm height external dimensions.
Profile section 50×35 mmAluminium LED channel with 50 mm width by 35 mm height external dimensions.
Profile section 50×40 mmAluminium LED channel with 50 mm width by 40 mm height external dimensions.
Profile section 50×45 mmAluminium LED channel with 50 mm width by 45 mm height external dimensions.
Profile section 50×50 mmAluminium LED channel with 50 mm width by 50 mm height external dimensions.
Profile section 50×6 mmAluminium LED channel with 50 mm width by 6 mm height external dimensions.
Profile section 50×7 mmAluminium LED channel with 50 mm width by 7 mm height external dimensions.
Profile section 50×8 mmAluminium LED channel with 50 mm width by 8 mm height external dimensions.
Profile section 50×9 mmAluminium LED channel with 50 mm width by 9 mm height external dimensions.
Profile section 55×10 mmAluminium LED channel with 55 mm width by 10 mm height external dimensions.
Profile section 55×12 mmAluminium LED channel with 55 mm width by 12 mm height external dimensions.
Profile section 55×14 mmAluminium LED channel with 55 mm width by 14 mm height external dimensions.
Profile section 55×15 mmAluminium LED channel with 55 mm width by 15 mm height external dimensions.
Profile section 55×17 mmAluminium LED channel with 55 mm width by 17 mm height external dimensions.
Profile section 55×20 mmAluminium LED channel with 55 mm width by 20 mm height external dimensions.
Profile section 55×22 mmAluminium LED channel with 55 mm width by 22 mm height external dimensions.
Profile section 55×25 mmAluminium LED channel with 55 mm width by 25 mm height external dimensions.
Profile section 55×27 mmAluminium LED channel with 55 mm width by 27 mm height external dimensions.
Profile section 55×30 mmAluminium LED channel with 55 mm width by 30 mm height external dimensions.
Profile section 55×35 mmAluminium LED channel with 55 mm width by 35 mm height external dimensions.
Profile section 55×40 mmAluminium LED channel with 55 mm width by 40 mm height external dimensions.
Profile section 55×45 mmAluminium LED channel with 55 mm width by 45 mm height external dimensions.
Profile section 55×50 mmAluminium LED channel with 55 mm width by 50 mm height external dimensions.
Profile section 55×55 mmAluminium LED channel with 55 mm width by 55 mm height external dimensions.
Profile section 55×6 mmAluminium LED channel with 55 mm width by 6 mm height external dimensions.
Profile section 55×7 mmAluminium LED channel with 55 mm width by 7 mm height external dimensions.
Profile section 55×8 mmAluminium LED channel with 55 mm width by 8 mm height external dimensions.
Profile section 55×9 mmAluminium LED channel with 55 mm width by 9 mm height external dimensions.
Profile section 58×10 mmAluminium LED channel with 58 mm width by 10 mm height external dimensions.
Profile section 58×12 mmAluminium LED channel with 58 mm width by 12 mm height external dimensions.
Profile section 58×14 mmAluminium LED channel with 58 mm width by 14 mm height external dimensions.
Profile section 58×15 mmAluminium LED channel with 58 mm width by 15 mm height external dimensions.
Profile section 58×17 mmAluminium LED channel with 58 mm width by 17 mm height external dimensions.
Profile section 58×20 mmAluminium LED channel with 58 mm width by 20 mm height external dimensions.
Profile section 58×22 mmAluminium LED channel with 58 mm width by 22 mm height external dimensions.
Profile section 58×25 mmAluminium LED channel with 58 mm width by 25 mm height external dimensions.
Profile section 58×27 mmAluminium LED channel with 58 mm width by 27 mm height external dimensions.
Profile section 58×30 mmAluminium LED channel with 58 mm width by 30 mm height external dimensions.
Profile section 58×35 mmAluminium LED channel with 58 mm width by 35 mm height external dimensions.
Profile section 58×40 mmAluminium LED channel with 58 mm width by 40 mm height external dimensions.
Profile section 58×45 mmAluminium LED channel with 58 mm width by 45 mm height external dimensions.
Profile section 58×50 mmAluminium LED channel with 58 mm width by 50 mm height external dimensions.
Profile section 58×55 mmAluminium LED channel with 58 mm width by 55 mm height external dimensions.
Profile section 58×6 mmAluminium LED channel with 58 mm width by 6 mm height external dimensions.
Profile section 58×7 mmAluminium LED channel with 58 mm width by 7 mm height external dimensions.
Profile section 58×8 mmAluminium LED channel with 58 mm width by 8 mm height external dimensions.
Profile section 58×9 mmAluminium LED channel with 58 mm width by 9 mm height external dimensions.
Profile section 60×10 mmAluminium LED channel with 60 mm width by 10 mm height external dimensions.
Profile section 60×12 mmAluminium LED channel with 60 mm width by 12 mm height external dimensions.
Profile section 60×14 mmAluminium LED channel with 60 mm width by 14 mm height external dimensions.
Profile section 60×15 mmAluminium LED channel with 60 mm width by 15 mm height external dimensions.
Profile section 60×17 mmAluminium LED channel with 60 mm width by 17 mm height external dimensions.
Profile section 60×20 mmAluminium LED channel with 60 mm width by 20 mm height external dimensions.
Profile section 60×22 mmAluminium LED channel with 60 mm width by 22 mm height external dimensions.
Profile section 60×25 mmAluminium LED channel with 60 mm width by 25 mm height external dimensions.
Profile section 60×27 mmAluminium LED channel with 60 mm width by 27 mm height external dimensions.
Profile section 60×30 mmAluminium LED channel with 60 mm width by 30 mm height external dimensions.
Profile section 60×35 mmAluminium LED channel with 60 mm width by 35 mm height external dimensions.
Profile section 60×40 mmAluminium LED channel with 60 mm width by 40 mm height external dimensions.
Profile section 60×45 mmAluminium LED channel with 60 mm width by 45 mm height external dimensions.
Profile section 60×50 mmAluminium LED channel with 60 mm width by 50 mm height external dimensions.
Profile section 60×55 mmAluminium LED channel with 60 mm width by 55 mm height external dimensions.
Profile section 60×6 mmAluminium LED channel with 60 mm width by 6 mm height external dimensions.
Profile section 60×60 mmAluminium LED channel with 60 mm width by 60 mm height external dimensions.
Profile section 60×7 mmAluminium LED channel with 60 mm width by 7 mm height external dimensions.
Profile section 60×8 mmAluminium LED channel with 60 mm width by 8 mm height external dimensions.
Profile section 60×9 mmAluminium LED channel with 60 mm width by 9 mm height external dimensions.
Profile section 65×10 mmAluminium LED channel with 65 mm width by 10 mm height external dimensions.
Profile section 65×12 mmAluminium LED channel with 65 mm width by 12 mm height external dimensions.
Profile section 65×14 mmAluminium LED channel with 65 mm width by 14 mm height external dimensions.
Profile section 65×15 mmAluminium LED channel with 65 mm width by 15 mm height external dimensions.
Profile section 65×17 mmAluminium LED channel with 65 mm width by 17 mm height external dimensions.
Profile section 65×20 mmAluminium LED channel with 65 mm width by 20 mm height external dimensions.
Profile section 65×22 mmAluminium LED channel with 65 mm width by 22 mm height external dimensions.
Profile section 65×25 mmAluminium LED channel with 65 mm width by 25 mm height external dimensions.
Profile section 65×27 mmAluminium LED channel with 65 mm width by 27 mm height external dimensions.
Profile section 65×30 mmAluminium LED channel with 65 mm width by 30 mm height external dimensions.
Profile section 65×35 mmAluminium LED channel with 65 mm width by 35 mm height external dimensions.
Profile section 65×40 mmAluminium LED channel with 65 mm width by 40 mm height external dimensions.
Profile section 65×45 mmAluminium LED channel with 65 mm width by 45 mm height external dimensions.
Profile section 65×50 mmAluminium LED channel with 65 mm width by 50 mm height external dimensions.
Profile section 65×55 mmAluminium LED channel with 65 mm width by 55 mm height external dimensions.
Profile section 65×6 mmAluminium LED channel with 65 mm width by 6 mm height external dimensions.
Profile section 65×60 mmAluminium LED channel with 65 mm width by 60 mm height external dimensions.
Profile section 65×7 mmAluminium LED channel with 65 mm width by 7 mm height external dimensions.
Profile section 65×8 mmAluminium LED channel with 65 mm width by 8 mm height external dimensions.
Profile section 65×9 mmAluminium LED channel with 65 mm width by 9 mm height external dimensions.
Profile section 70×10 mmAluminium LED channel with 70 mm width by 10 mm height external dimensions.
Profile section 70×12 mmAluminium LED channel with 70 mm width by 12 mm height external dimensions.
Profile section 70×14 mmAluminium LED channel with 70 mm width by 14 mm height external dimensions.
Profile section 70×15 mmAluminium LED channel with 70 mm width by 15 mm height external dimensions.
Profile section 70×17 mmAluminium LED channel with 70 mm width by 17 mm height external dimensions.
Profile section 70×20 mmAluminium LED channel with 70 mm width by 20 mm height external dimensions.
Profile section 70×22 mmAluminium LED channel with 70 mm width by 22 mm height external dimensions.
Profile section 70×25 mmAluminium LED channel with 70 mm width by 25 mm height external dimensions.
Profile section 70×27 mmAluminium LED channel with 70 mm width by 27 mm height external dimensions.
Profile section 70×30 mmAluminium LED channel with 70 mm width by 30 mm height external dimensions.
Profile section 70×35 mmAluminium LED channel with 70 mm width by 35 mm height external dimensions.
Profile section 70×40 mmAluminium LED channel with 70 mm width by 40 mm height external dimensions.
Profile section 70×45 mmAluminium LED channel with 70 mm width by 45 mm height external dimensions.
Profile section 70×50 mmAluminium LED channel with 70 mm width by 50 mm height external dimensions.
Profile section 70×55 mmAluminium LED channel with 70 mm width by 55 mm height external dimensions.
Profile section 70×6 mmAluminium LED channel with 70 mm width by 6 mm height external dimensions.
Profile section 70×60 mmAluminium LED channel with 70 mm width by 60 mm height external dimensions.
Profile section 70×7 mmAluminium LED channel with 70 mm width by 7 mm height external dimensions.
Profile section 70×70 mmAluminium LED channel with 70 mm width by 70 mm height external dimensions.
Profile section 70×8 mmAluminium LED channel with 70 mm width by 8 mm height external dimensions.
Profile section 70×9 mmAluminium LED channel with 70 mm width by 9 mm height external dimensions.
Profile section 75×10 mmAluminium LED channel with 75 mm width by 10 mm height external dimensions.
Profile section 75×12 mmAluminium LED channel with 75 mm width by 12 mm height external dimensions.
Profile section 75×14 mmAluminium LED channel with 75 mm width by 14 mm height external dimensions.
Profile section 75×15 mmAluminium LED channel with 75 mm width by 15 mm height external dimensions.
Profile section 75×17 mmAluminium LED channel with 75 mm width by 17 mm height external dimensions.
Profile section 75×20 mmAluminium LED channel with 75 mm width by 20 mm height external dimensions.
Profile section 75×22 mmAluminium LED channel with 75 mm width by 22 mm height external dimensions.
Profile section 75×25 mmAluminium LED channel with 75 mm width by 25 mm height external dimensions.
Profile section 75×27 mmAluminium LED channel with 75 mm width by 27 mm height external dimensions.
Profile section 75×30 mmAluminium LED channel with 75 mm width by 30 mm height external dimensions.
Profile section 75×35 mmAluminium LED channel with 75 mm width by 35 mm height external dimensions.
Profile section 75×40 mmAluminium LED channel with 75 mm width by 40 mm height external dimensions.
Profile section 75×45 mmAluminium LED channel with 75 mm width by 45 mm height external dimensions.
Profile section 75×50 mmAluminium LED channel with 75 mm width by 50 mm height external dimensions.
Profile section 75×55 mmAluminium LED channel with 75 mm width by 55 mm height external dimensions.
Profile section 75×6 mmAluminium LED channel with 75 mm width by 6 mm height external dimensions.
Profile section 75×60 mmAluminium LED channel with 75 mm width by 60 mm height external dimensions.
Profile section 75×7 mmAluminium LED channel with 75 mm width by 7 mm height external dimensions.
Profile section 75×70 mmAluminium LED channel with 75 mm width by 70 mm height external dimensions.
Profile section 75×8 mmAluminium LED channel with 75 mm width by 8 mm height external dimensions.
Profile section 75×9 mmAluminium LED channel with 75 mm width by 9 mm height external dimensions.
Profile section 80×10 mmAluminium LED channel with 80 mm width by 10 mm height external dimensions.
Profile section 80×12 mmAluminium LED channel with 80 mm width by 12 mm height external dimensions.
Profile section 80×14 mmAluminium LED channel with 80 mm width by 14 mm height external dimensions.
Profile section 80×15 mmAluminium LED channel with 80 mm width by 15 mm height external dimensions.
Profile section 80×17 mmAluminium LED channel with 80 mm width by 17 mm height external dimensions.
Profile section 80×20 mmAluminium LED channel with 80 mm width by 20 mm height external dimensions.
Profile section 80×22 mmAluminium LED channel with 80 mm width by 22 mm height external dimensions.
Profile section 80×25 mmAluminium LED channel with 80 mm width by 25 mm height external dimensions.
Profile section 80×27 mmAluminium LED channel with 80 mm width by 27 mm height external dimensions.
Profile section 80×30 mmAluminium LED channel with 80 mm width by 30 mm height external dimensions.
Profile section 80×35 mmAluminium LED channel with 80 mm width by 35 mm height external dimensions.
Profile section 80×40 mmAluminium LED channel with 80 mm width by 40 mm height external dimensions.
Profile section 80×45 mmAluminium LED channel with 80 mm width by 45 mm height external dimensions.
Profile section 80×50 mmAluminium LED channel with 80 mm width by 50 mm height external dimensions.
Profile section 80×55 mmAluminium LED channel with 80 mm width by 55 mm height external dimensions.
Profile section 80×6 mmAluminium LED channel with 80 mm width by 6 mm height external dimensions.
Profile section 80×60 mmAluminium LED channel with 80 mm width by 60 mm height external dimensions.
Profile section 80×7 mmAluminium LED channel with 80 mm width by 7 mm height external dimensions.
Profile section 80×70 mmAluminium LED channel with 80 mm width by 70 mm height external dimensions.
Profile section 80×8 mmAluminium LED channel with 80 mm width by 8 mm height external dimensions.
Profile section 80×80 mmAluminium LED channel with 80 mm width by 80 mm height external dimensions.
Profile section 80×9 mmAluminium LED channel with 80 mm width by 9 mm height external dimensions.
Profile section 8×6 mmAluminium LED channel with 8 mm width by 6 mm height external dimensions.
Profile section 8×7 mmAluminium LED channel with 8 mm width by 7 mm height external dimensions.
Profile section 8×8 mmAluminium LED channel with 8 mm width by 8 mm height external dimensions.
Profile section 90×10 mmAluminium LED channel with 90 mm width by 10 mm height external dimensions.
Profile section 90×12 mmAluminium LED channel with 90 mm width by 12 mm height external dimensions.
Profile section 90×14 mmAluminium LED channel with 90 mm width by 14 mm height external dimensions.
Profile section 90×15 mmAluminium LED channel with 90 mm width by 15 mm height external dimensions.
Profile section 90×17 mmAluminium LED channel with 90 mm width by 17 mm height external dimensions.
Profile section 90×20 mmAluminium LED channel with 90 mm width by 20 mm height external dimensions.
Profile section 90×22 mmAluminium LED channel with 90 mm width by 22 mm height external dimensions.
Profile section 90×25 mmAluminium LED channel with 90 mm width by 25 mm height external dimensions.
Profile section 90×27 mmAluminium LED channel with 90 mm width by 27 mm height external dimensions.
Profile section 90×30 mmAluminium LED channel with 90 mm width by 30 mm height external dimensions.
Profile section 90×35 mmAluminium LED channel with 90 mm width by 35 mm height external dimensions.
Profile section 90×40 mmAluminium LED channel with 90 mm width by 40 mm height external dimensions.
Profile section 90×45 mmAluminium LED channel with 90 mm width by 45 mm height external dimensions.
Profile section 90×50 mmAluminium LED channel with 90 mm width by 50 mm height external dimensions.
Profile section 90×55 mmAluminium LED channel with 90 mm width by 55 mm height external dimensions.
Profile section 90×6 mmAluminium LED channel with 90 mm width by 6 mm height external dimensions.
Profile section 90×60 mmAluminium LED channel with 90 mm width by 60 mm height external dimensions.
Profile section 90×7 mmAluminium LED channel with 90 mm width by 7 mm height external dimensions.
Profile section 90×70 mmAluminium LED channel with 90 mm width by 70 mm height external dimensions.
Profile section 90×8 mmAluminium LED channel with 90 mm width by 8 mm height external dimensions.
Profile section 90×80 mmAluminium LED channel with 90 mm width by 80 mm height external dimensions.
Profile section 90×9 mmAluminium LED channel with 90 mm width by 9 mm height external dimensions.
Profile widthHorizontal dimension of the profile, determining strip compatibility.
Profile width 10 mmAluminium LED profile with an external width of 10 mm.
Profile width 100 mmAluminium LED profile with an external width of 100 mm.
Profile width 110 mmAluminium LED profile with an external width of 110 mm.
Profile width 12 mmAluminium LED profile with an external width of 12 mm.
Profile width 120 mmAluminium LED profile with an external width of 120 mm.
Profile width 14 mmAluminium LED profile with an external width of 14 mm.
Profile width 15 mmAluminium LED profile with an external width of 15 mm.
Profile width 150 mmAluminium LED profile with an external width of 150 mm.
Profile width 16 mmAluminium LED profile with an external width of 16 mm.
Profile width 17 mmAluminium LED profile with an external width of 17 mm.
Profile width 18 mmAluminium LED profile with an external width of 18 mm.
Profile width 180 mmAluminium LED profile with an external width of 180 mm.
Profile width 20 mmAluminium LED profile with an external width of 20 mm.
Profile width 200 mmAluminium LED profile with an external width of 200 mm.
Profile width 22 mmAluminium LED profile with an external width of 22 mm.
Profile width 24 mmAluminium LED profile with an external width of 24 mm.
Profile width 25 mmAluminium LED profile with an external width of 25 mm.
Profile width 27 mmAluminium LED profile with an external width of 27 mm.
Profile width 30 mmAluminium LED profile with an external width of 30 mm.
Profile width 33 mmAluminium LED profile with an external width of 33 mm.
Profile width 35 mmAluminium LED profile with an external width of 35 mm.
Profile width 38 mmAluminium LED profile with an external width of 38 mm.
Profile width 40 mmAluminium LED profile with an external width of 40 mm.
Profile width 43 mmAluminium LED profile with an external width of 43 mm.
Profile width 45 mmAluminium LED profile with an external width of 45 mm.
Profile width 48 mmAluminium LED profile with an external width of 48 mm.
Profile width 50 mmAluminium LED profile with an external width of 50 mm.
Profile width 55 mmAluminium LED profile with an external width of 55 mm.
Profile width 58 mmAluminium LED profile with an external width of 58 mm.
Profile width 60 mmAluminium LED profile with an external width of 60 mm.
Profile width 65 mmAluminium LED profile with an external width of 65 mm.
Profile width 70 mmAluminium LED profile with an external width of 70 mm.
Profile width 75 mmAluminium LED profile with an external width of 75 mm.
Profile width 8 mmAluminium LED profile with an external width of 8 mm.
Profile width 80 mmAluminium LED profile with an external width of 80 mm.
Profile width 90 mmAluminium LED profile with an external width of 90 mm.
Projection (LED)Focused-beam luminaire for accent, façade and monument lighting.
Protection (IP)Ingress Protection rating against solids and liquids.
Protection (overcurrent)Limiting current when the load exceeds rated value.
Protection (overvoltage / surge)Clamping transient voltage spikes.
Protection (polarity reversal)Preventing damage from incorrect wiring.
Protection (short circuit)Shutting down on a short-circuit output.
Protection (thermal)Reducing or cutting power on overtemperature.
Protection rating IP00Ingress protection rating IP00 for LED luminaires and profiles.
Protection rating IP10Ingress protection rating IP10 for LED luminaires and profiles.
Protection rating IP11Ingress protection rating IP11 for LED luminaires and profiles.
Protection rating IP12Ingress protection rating IP12 for LED luminaires and profiles.
Protection rating IP13Ingress protection rating IP13 for LED luminaires and profiles.
Protection rating IP20Ingress protection rating IP20 for LED luminaires and profiles.
Protection rating IP21Ingress protection rating IP21 for LED luminaires and profiles.
Protection rating IP22Ingress protection rating IP22 for LED luminaires and profiles.
Protection rating IP23Ingress protection rating IP23 for LED luminaires and profiles.
Protection rating IP24Ingress protection rating IP24 for LED luminaires and profiles.
Protection rating IP30Ingress protection rating IP30 for LED luminaires and profiles.
Protection rating IP31Ingress protection rating IP31 for LED luminaires and profiles.
Protection rating IP32Ingress protection rating IP32 for LED luminaires and profiles.
Protection rating IP33Ingress protection rating IP33 for LED luminaires and profiles.
Protection rating IP34Ingress protection rating IP34 for LED luminaires and profiles.
Protection rating IP40Ingress protection rating IP40 for LED luminaires and profiles.
Protection rating IP41Ingress protection rating IP41 for LED luminaires and profiles.
Protection rating IP42Ingress protection rating IP42 for LED luminaires and profiles.
Protection rating IP43Ingress protection rating IP43 for LED luminaires and profiles.
Protection rating IP44Ingress protection rating IP44 for LED luminaires and profiles.
Protection rating IP50Ingress protection rating IP50 for LED luminaires and profiles.
Protection rating IP54Ingress protection rating IP54 for LED luminaires and profiles.
Protection rating IP55Ingress protection rating IP55 for LED luminaires and profiles.
Protection rating IP56Ingress protection rating IP56 for LED luminaires and profiles.
Protection rating IP60Ingress protection rating IP60 for LED luminaires and profiles.
Protection rating IP64Ingress protection rating IP64 for LED luminaires and profiles.
Protection rating IP65Ingress protection rating IP65 for LED luminaires and profiles.
Protection rating IP66Ingress protection rating IP66 for LED luminaires and profiles.
Protection rating IP67Ingress protection rating IP67 for LED luminaires and profiles.
Protection rating IP68Ingress protection rating IP68 for LED luminaires and profiles.
Protection rating IP69KIngress protection rating IP69K for LED luminaires and profiles.
Protocol (0-10V analogue)0-10V analogue communication standard for LED lighting control systems.
Protocol (1-10V analogue)1-10V analogue communication standard for LED lighting control systems.
Protocol (Art-Net 3)Art-Net 3 communication standard for LED lighting control systems.
Protocol (Art-Net 4)Art-Net 4 communication standard for LED lighting control systems.
Protocol (AstroDIM)AstroDIM communication standard for LED lighting control systems.
Protocol (BACnet MS/TP)BACnet MS/TP communication standard for LED lighting control systems.
Protocol (BACnet/IP)BACnet/IP communication standard for LED lighting control systems.
Protocol (BLE Mesh)BLE Mesh communication standard for LED lighting control systems.
Protocol (Bluetooth 5.0)Bluetooth 5.0 communication standard for LED lighting control systems.
Protocol (Bluetooth 5.2)Bluetooth 5.2 communication standard for LED lighting control systems.
Protocol (CASAMBI)CASAMBI communication standard for LED lighting control systems.
Protocol (CLODALI)CLODALI communication standard for LED lighting control systems.
Protocol (Control4)Control4 communication standard for LED lighting control systems.
Protocol (Corridor Function)Corridor Function communication standard for LED lighting control systems.
Protocol (Crestron)Crestron communication standard for LED lighting control systems.
Protocol (DALI)DALI communication standard for LED lighting control systems.
Protocol (DALI+ wireless)DALI+ wireless communication standard for LED lighting control systems.
Protocol (DALI-2)DALI-2 communication standard for LED lighting control systems.
Protocol (DMX over Ethernet)DMX over Ethernet communication standard for LED lighting control systems.
Protocol (DMX-RDM)DMX-RDM communication standard for LED lighting control systems.
Protocol (DMX512)DMX512 communication standard for LED lighting control systems.
Protocol (EnOcean)EnOcean communication standard for LED lighting control systems.
Protocol (Helvar Imagine)Helvar Imagine communication standard for LED lighting control systems.
Protocol (HomeKit)HomeKit communication standard for LED lighting control systems.
Protocol (Hue Zigbee)Hue Zigbee communication standard for LED lighting control systems.
Protocol (iGuzzini Linealuce protocol)iGuzzini Linealuce protocol communication standard for LED lighting control systems.
Protocol (Insteon)Insteon communication standard for LED lighting control systems.
Protocol (KNX IP)KNX IP communication standard for LED lighting control systems.
Protocol (KNX RF)KNX RF communication standard for LED lighting control systems.
Protocol (KNX TP)KNX TP communication standard for LED lighting control systems.
Protocol (Loxone Air)Loxone Air communication standard for LED lighting control systems.
Protocol (Loxone)Loxone communication standard for LED lighting control systems.
Protocol (Lutron Caseta)Lutron Caseta communication standard for LED lighting control systems.
Protocol (Lutron HomeWorks)Lutron HomeWorks communication standard for LED lighting control systems.
Protocol (Lutron RadioRA 3)Lutron RadioRA 3 communication standard for LED lighting control systems.
Protocol (Matter)Matter communication standard for LED lighting control systems.
Protocol (Modbus RTU)Modbus RTU communication standard for LED lighting control systems.
Protocol (Modbus TCP)Modbus TCP communication standard for LED lighting control systems.
Protocol (MQTT)MQTT communication standard for LED lighting control systems.
Protocol (Open Sound Control (OSC))Open Sound Control (OSC) communication standard for LED lighting control systems.
Protocol (Pharos protocol)Pharos protocol communication standard for LED lighting control systems.
Protocol (PUSH-DIM)PUSH-DIM communication standard for LED lighting control systems.
Protocol (sACN E1.31)sACN E1.31 communication standard for LED lighting control systems.
Protocol (Savant)Savant communication standard for LED lighting control systems.
Protocol (SPI APA102)SPI APA102 communication standard for LED lighting control systems.
Protocol (SPI GS8208)SPI GS8208 communication standard for LED lighting control systems.
Protocol (SPI SK6812)SPI SK6812 communication standard for LED lighting control systems.
Protocol (SPI SK9822)SPI SK9822 communication standard for LED lighting control systems.
Protocol (SPI TM1814)SPI TM1814 communication standard for LED lighting control systems.
Protocol (SPI WS2812)SPI WS2812 communication standard for LED lighting control systems.
Protocol (SPI WS2815)SPI WS2815 communication standard for LED lighting control systems.
Protocol (SwitchDim)SwitchDim communication standard for LED lighting control systems.
Protocol (Thread)Thread communication standard for LED lighting control systems.
Protocol (TouchDim)TouchDim communication standard for LED lighting control systems.
Protocol (Tridonic net4more)Tridonic net4more communication standard for LED lighting control systems.
Protocol (Tuya Wi-Fi)Tuya Wi-Fi communication standard for LED lighting control systems.
Protocol (Tuya Zigbee)Tuya Zigbee communication standard for LED lighting control systems.
Protocol (WiZ)WiZ communication standard for LED lighting control systems.
Protocol (Z-Wave 700)Z-Wave 700 communication standard for LED lighting control systems.
Protocol (Z-Wave)Z-Wave communication standard for LED lighting control systems.
Protocol (Zigbee 3.0)Zigbee 3.0 communication standard for LED lighting control systems.
Protocol (Zigbee Green Power)Zigbee Green Power communication standard for LED lighting control systems.
Protocol (Zigbee Light Link)Zigbee Light Link communication standard for LED lighting control systems.
Protocol (Zumtobel LITECOM)Zumtobel LITECOM communication standard for LED lighting control systems.
PrototypingProducing custom-profile samples before series manufacturing.
PSU 12V 1.0A 12WConstant-voltage LED power supply delivering 12V DC at up to 1.0A, totalling 12W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 1.5A 18WConstant-voltage LED power supply delivering 12V DC at up to 1.5A, totalling 18W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 10.0A 120WConstant-voltage LED power supply delivering 12V DC at up to 10.0A, totalling 120W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 10.5A 126WConstant-voltage LED power supply delivering 12V DC at up to 10.5A, totalling 126W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 11.0A 132WConstant-voltage LED power supply delivering 12V DC at up to 11.0A, totalling 132W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 11.5A 138WConstant-voltage LED power supply delivering 12V DC at up to 11.5A, totalling 138W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 12.0A 144WConstant-voltage LED power supply delivering 12V DC at up to 12.0A, totalling 144W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 12.5A 150WConstant-voltage LED power supply delivering 12V DC at up to 12.5A, totalling 150W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 13.0A 156WConstant-voltage LED power supply delivering 12V DC at up to 13.0A, totalling 156W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 13.5A 162WConstant-voltage LED power supply delivering 12V DC at up to 13.5A, totalling 162W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 14.0A 168WConstant-voltage LED power supply delivering 12V DC at up to 14.0A, totalling 168W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 14.5A 174WConstant-voltage LED power supply delivering 12V DC at up to 14.5A, totalling 174W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 15.0A 180WConstant-voltage LED power supply delivering 12V DC at up to 15.0A, totalling 180W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 15.5A 186WConstant-voltage LED power supply delivering 12V DC at up to 15.5A, totalling 186W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 16.0A 192WConstant-voltage LED power supply delivering 12V DC at up to 16.0A, totalling 192W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 16.5A 198WConstant-voltage LED power supply delivering 12V DC at up to 16.5A, totalling 198W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 17.0A 204WConstant-voltage LED power supply delivering 12V DC at up to 17.0A, totalling 204W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 17.5A 210WConstant-voltage LED power supply delivering 12V DC at up to 17.5A, totalling 210W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 18.0A 216WConstant-voltage LED power supply delivering 12V DC at up to 18.0A, totalling 216W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 18.5A 222WConstant-voltage LED power supply delivering 12V DC at up to 18.5A, totalling 222W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 19.0A 228WConstant-voltage LED power supply delivering 12V DC at up to 19.0A, totalling 228W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 19.5A 234WConstant-voltage LED power supply delivering 12V DC at up to 19.5A, totalling 234W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 2.0A 24WConstant-voltage LED power supply delivering 12V DC at up to 2.0A, totalling 24W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 2.5A 30WConstant-voltage LED power supply delivering 12V DC at up to 2.5A, totalling 30W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 20.0A 240WConstant-voltage LED power supply delivering 12V DC at up to 20.0A, totalling 240W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 20.5A 246WConstant-voltage LED power supply delivering 12V DC at up to 20.5A, totalling 246W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 21.0A 252WConstant-voltage LED power supply delivering 12V DC at up to 21.0A, totalling 252W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 21.5A 258WConstant-voltage LED power supply delivering 12V DC at up to 21.5A, totalling 258W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 22.0A 264WConstant-voltage LED power supply delivering 12V DC at up to 22.0A, totalling 264W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 22.5A 270WConstant-voltage LED power supply delivering 12V DC at up to 22.5A, totalling 270W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 23.0A 276WConstant-voltage LED power supply delivering 12V DC at up to 23.0A, totalling 276W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 23.5A 282WConstant-voltage LED power supply delivering 12V DC at up to 23.5A, totalling 282W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 24.0A 288WConstant-voltage LED power supply delivering 12V DC at up to 24.0A, totalling 288W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 24.5A 294WConstant-voltage LED power supply delivering 12V DC at up to 24.5A, totalling 294W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 25.0A 300WConstant-voltage LED power supply delivering 12V DC at up to 25.0A, totalling 300W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 25.5A 306WConstant-voltage LED power supply delivering 12V DC at up to 25.5A, totalling 306W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 3.0A 36WConstant-voltage LED power supply delivering 12V DC at up to 3.0A, totalling 36W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 3.5A 42WConstant-voltage LED power supply delivering 12V DC at up to 3.5A, totalling 42W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 4.0A 48WConstant-voltage LED power supply delivering 12V DC at up to 4.0A, totalling 48W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 4.5A 54WConstant-voltage LED power supply delivering 12V DC at up to 4.5A, totalling 54W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 5.0A 60WConstant-voltage LED power supply delivering 12V DC at up to 5.0A, totalling 60W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 5.5A 66WConstant-voltage LED power supply delivering 12V DC at up to 5.5A, totalling 66W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 6.0A 72WConstant-voltage LED power supply delivering 12V DC at up to 6.0A, totalling 72W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 6.5A 78WConstant-voltage LED power supply delivering 12V DC at up to 6.5A, totalling 78W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 7.0A 84WConstant-voltage LED power supply delivering 12V DC at up to 7.0A, totalling 84W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 7.5A 90WConstant-voltage LED power supply delivering 12V DC at up to 7.5A, totalling 90W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 8.0A 96WConstant-voltage LED power supply delivering 12V DC at up to 8.0A, totalling 96W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 8.5A 102WConstant-voltage LED power supply delivering 12V DC at up to 8.5A, totalling 102W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 9.0A 108WConstant-voltage LED power supply delivering 12V DC at up to 9.0A, totalling 108W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 12V 9.5A 114WConstant-voltage LED power supply delivering 12V DC at up to 9.5A, totalling 114W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 0.5A 12WConstant-voltage LED power supply delivering 24V DC at up to 0.5A, totalling 12W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 1.0A 24WConstant-voltage LED power supply delivering 24V DC at up to 1.0A, totalling 24W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 1.5A 36WConstant-voltage LED power supply delivering 24V DC at up to 1.5A, totalling 36W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 10.0A 240WConstant-voltage LED power supply delivering 24V DC at up to 10.0A, totalling 240W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 10.5A 252WConstant-voltage LED power supply delivering 24V DC at up to 10.5A, totalling 252W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 11.0A 264WConstant-voltage LED power supply delivering 24V DC at up to 11.0A, totalling 264W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 11.5A 276WConstant-voltage LED power supply delivering 24V DC at up to 11.5A, totalling 276W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 12.0A 288WConstant-voltage LED power supply delivering 24V DC at up to 12.0A, totalling 288W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 12.5A 300WConstant-voltage LED power supply delivering 24V DC at up to 12.5A, totalling 300W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 13.0A 312WConstant-voltage LED power supply delivering 24V DC at up to 13.0A, totalling 312W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 13.5A 324WConstant-voltage LED power supply delivering 24V DC at up to 13.5A, totalling 324W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 14.0A 336WConstant-voltage LED power supply delivering 24V DC at up to 14.0A, totalling 336W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 14.5A 348WConstant-voltage LED power supply delivering 24V DC at up to 14.5A, totalling 348W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 15.0A 360WConstant-voltage LED power supply delivering 24V DC at up to 15.0A, totalling 360W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 15.5A 372WConstant-voltage LED power supply delivering 24V DC at up to 15.5A, totalling 372W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 16.0A 384WConstant-voltage LED power supply delivering 24V DC at up to 16.0A, totalling 384W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 16.5A 396WConstant-voltage LED power supply delivering 24V DC at up to 16.5A, totalling 396W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 17.0A 408WConstant-voltage LED power supply delivering 24V DC at up to 17.0A, totalling 408W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 17.5A 420WConstant-voltage LED power supply delivering 24V DC at up to 17.5A, totalling 420W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 18.0A 432WConstant-voltage LED power supply delivering 24V DC at up to 18.0A, totalling 432W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 18.5A 444WConstant-voltage LED power supply delivering 24V DC at up to 18.5A, totalling 444W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 19.0A 456WConstant-voltage LED power supply delivering 24V DC at up to 19.0A, totalling 456W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 19.5A 468WConstant-voltage LED power supply delivering 24V DC at up to 19.5A, totalling 468W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 2.0A 48WConstant-voltage LED power supply delivering 24V DC at up to 2.0A, totalling 48W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 2.5A 60WConstant-voltage LED power supply delivering 24V DC at up to 2.5A, totalling 60W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 20.0A 480WConstant-voltage LED power supply delivering 24V DC at up to 20.0A, totalling 480W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 20.5A 492WConstant-voltage LED power supply delivering 24V DC at up to 20.5A, totalling 492W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 21.0A 504WConstant-voltage LED power supply delivering 24V DC at up to 21.0A, totalling 504W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 21.5A 516WConstant-voltage LED power supply delivering 24V DC at up to 21.5A, totalling 516W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 22.0A 528WConstant-voltage LED power supply delivering 24V DC at up to 22.0A, totalling 528W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 22.5A 540WConstant-voltage LED power supply delivering 24V DC at up to 22.5A, totalling 540W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 23.0A 552WConstant-voltage LED power supply delivering 24V DC at up to 23.0A, totalling 552W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 23.5A 564WConstant-voltage LED power supply delivering 24V DC at up to 23.5A, totalling 564W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 24.0A 576WConstant-voltage LED power supply delivering 24V DC at up to 24.0A, totalling 576W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 24.5A 588WConstant-voltage LED power supply delivering 24V DC at up to 24.5A, totalling 588W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 25.0A 600WConstant-voltage LED power supply delivering 24V DC at up to 25.0A, totalling 600W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 25.5A 612WConstant-voltage LED power supply delivering 24V DC at up to 25.5A, totalling 612W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 3.0A 72WConstant-voltage LED power supply delivering 24V DC at up to 3.0A, totalling 72W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 3.5A 84WConstant-voltage LED power supply delivering 24V DC at up to 3.5A, totalling 84W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 4.0A 96WConstant-voltage LED power supply delivering 24V DC at up to 4.0A, totalling 96W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 4.5A 108WConstant-voltage LED power supply delivering 24V DC at up to 4.5A, totalling 108W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 5.0A 120WConstant-voltage LED power supply delivering 24V DC at up to 5.0A, totalling 120W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 5.5A 132WConstant-voltage LED power supply delivering 24V DC at up to 5.5A, totalling 132W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 6.0A 144WConstant-voltage LED power supply delivering 24V DC at up to 6.0A, totalling 144W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 6.5A 156WConstant-voltage LED power supply delivering 24V DC at up to 6.5A, totalling 156W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 7.0A 168WConstant-voltage LED power supply delivering 24V DC at up to 7.0A, totalling 168W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 7.5A 180WConstant-voltage LED power supply delivering 24V DC at up to 7.5A, totalling 180W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 8.0A 192WConstant-voltage LED power supply delivering 24V DC at up to 8.0A, totalling 192W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 8.5A 204WConstant-voltage LED power supply delivering 24V DC at up to 8.5A, totalling 204W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 9.0A 216WConstant-voltage LED power supply delivering 24V DC at up to 9.0A, totalling 216W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 24V 9.5A 228WConstant-voltage LED power supply delivering 24V DC at up to 9.5A, totalling 228W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 0.5A 18WConstant-voltage LED power supply delivering 36V DC at up to 0.5A, totalling 18W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 1.0A 36WConstant-voltage LED power supply delivering 36V DC at up to 1.0A, totalling 36W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 1.5A 54WConstant-voltage LED power supply delivering 36V DC at up to 1.5A, totalling 54W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 10.0A 360WConstant-voltage LED power supply delivering 36V DC at up to 10.0A, totalling 360W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 10.5A 378WConstant-voltage LED power supply delivering 36V DC at up to 10.5A, totalling 378W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 11.0A 396WConstant-voltage LED power supply delivering 36V DC at up to 11.0A, totalling 396W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 11.5A 414WConstant-voltage LED power supply delivering 36V DC at up to 11.5A, totalling 414W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 12.0A 432WConstant-voltage LED power supply delivering 36V DC at up to 12.0A, totalling 432W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 12.5A 450WConstant-voltage LED power supply delivering 36V DC at up to 12.5A, totalling 450W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 13.0A 468WConstant-voltage LED power supply delivering 36V DC at up to 13.0A, totalling 468W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 13.5A 486WConstant-voltage LED power supply delivering 36V DC at up to 13.5A, totalling 486W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 14.0A 504WConstant-voltage LED power supply delivering 36V DC at up to 14.0A, totalling 504W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 14.5A 522WConstant-voltage LED power supply delivering 36V DC at up to 14.5A, totalling 522W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 15.0A 540WConstant-voltage LED power supply delivering 36V DC at up to 15.0A, totalling 540W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 15.5A 558WConstant-voltage LED power supply delivering 36V DC at up to 15.5A, totalling 558W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 16.0A 576WConstant-voltage LED power supply delivering 36V DC at up to 16.0A, totalling 576W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 16.5A 594WConstant-voltage LED power supply delivering 36V DC at up to 16.5A, totalling 594W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 17.0A 612WConstant-voltage LED power supply delivering 36V DC at up to 17.0A, totalling 612W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 17.5A 630WConstant-voltage LED power supply delivering 36V DC at up to 17.5A, totalling 630W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 18.0A 648WConstant-voltage LED power supply delivering 36V DC at up to 18.0A, totalling 648W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 18.5A 666WConstant-voltage LED power supply delivering 36V DC at up to 18.5A, totalling 666W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 19.0A 684WConstant-voltage LED power supply delivering 36V DC at up to 19.0A, totalling 684W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 19.5A 702WConstant-voltage LED power supply delivering 36V DC at up to 19.5A, totalling 702W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 2.0A 72WConstant-voltage LED power supply delivering 36V DC at up to 2.0A, totalling 72W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 2.5A 90WConstant-voltage LED power supply delivering 36V DC at up to 2.5A, totalling 90W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 20.0A 720WConstant-voltage LED power supply delivering 36V DC at up to 20.0A, totalling 720W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 20.5A 738WConstant-voltage LED power supply delivering 36V DC at up to 20.5A, totalling 738W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 21.0A 756WConstant-voltage LED power supply delivering 36V DC at up to 21.0A, totalling 756W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 21.5A 774WConstant-voltage LED power supply delivering 36V DC at up to 21.5A, totalling 774W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 22.0A 792WConstant-voltage LED power supply delivering 36V DC at up to 22.0A, totalling 792W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 22.5A 810WConstant-voltage LED power supply delivering 36V DC at up to 22.5A, totalling 810W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 23.0A 828WConstant-voltage LED power supply delivering 36V DC at up to 23.0A, totalling 828W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 23.5A 846WConstant-voltage LED power supply delivering 36V DC at up to 23.5A, totalling 846W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 24.0A 864WConstant-voltage LED power supply delivering 36V DC at up to 24.0A, totalling 864W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 24.5A 882WConstant-voltage LED power supply delivering 36V DC at up to 24.5A, totalling 882W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 25.0A 900WConstant-voltage LED power supply delivering 36V DC at up to 25.0A, totalling 900W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 25.5A 918WConstant-voltage LED power supply delivering 36V DC at up to 25.5A, totalling 918W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 3.0A 108WConstant-voltage LED power supply delivering 36V DC at up to 3.0A, totalling 108W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 3.5A 126WConstant-voltage LED power supply delivering 36V DC at up to 3.5A, totalling 126W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 4.0A 144WConstant-voltage LED power supply delivering 36V DC at up to 4.0A, totalling 144W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 4.5A 162WConstant-voltage LED power supply delivering 36V DC at up to 4.5A, totalling 162W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 5.0A 180WConstant-voltage LED power supply delivering 36V DC at up to 5.0A, totalling 180W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 5.5A 198WConstant-voltage LED power supply delivering 36V DC at up to 5.5A, totalling 198W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 6.0A 216WConstant-voltage LED power supply delivering 36V DC at up to 6.0A, totalling 216W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 6.5A 234WConstant-voltage LED power supply delivering 36V DC at up to 6.5A, totalling 234W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 7.0A 252WConstant-voltage LED power supply delivering 36V DC at up to 7.0A, totalling 252W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 7.5A 270WConstant-voltage LED power supply delivering 36V DC at up to 7.5A, totalling 270W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 8.0A 288WConstant-voltage LED power supply delivering 36V DC at up to 8.0A, totalling 288W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 8.5A 306WConstant-voltage LED power supply delivering 36V DC at up to 8.5A, totalling 306W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 9.0A 324WConstant-voltage LED power supply delivering 36V DC at up to 9.0A, totalling 324W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 36V 9.5A 342WConstant-voltage LED power supply delivering 36V DC at up to 9.5A, totalling 342W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 0.5A 24WConstant-voltage LED power supply delivering 48V DC at up to 0.5A, totalling 24W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 1.0A 48WConstant-voltage LED power supply delivering 48V DC at up to 1.0A, totalling 48W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 1.5A 72WConstant-voltage LED power supply delivering 48V DC at up to 1.5A, totalling 72W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 10.0A 480WConstant-voltage LED power supply delivering 48V DC at up to 10.0A, totalling 480W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 10.5A 504WConstant-voltage LED power supply delivering 48V DC at up to 10.5A, totalling 504W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 11.0A 528WConstant-voltage LED power supply delivering 48V DC at up to 11.0A, totalling 528W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 11.5A 552WConstant-voltage LED power supply delivering 48V DC at up to 11.5A, totalling 552W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 12.0A 576WConstant-voltage LED power supply delivering 48V DC at up to 12.0A, totalling 576W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 12.5A 600WConstant-voltage LED power supply delivering 48V DC at up to 12.5A, totalling 600W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 13.0A 624WConstant-voltage LED power supply delivering 48V DC at up to 13.0A, totalling 624W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 13.5A 648WConstant-voltage LED power supply delivering 48V DC at up to 13.5A, totalling 648W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 14.0A 672WConstant-voltage LED power supply delivering 48V DC at up to 14.0A, totalling 672W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 14.5A 696WConstant-voltage LED power supply delivering 48V DC at up to 14.5A, totalling 696W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 15.0A 720WConstant-voltage LED power supply delivering 48V DC at up to 15.0A, totalling 720W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 15.5A 744WConstant-voltage LED power supply delivering 48V DC at up to 15.5A, totalling 744W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 16.0A 768WConstant-voltage LED power supply delivering 48V DC at up to 16.0A, totalling 768W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 16.5A 792WConstant-voltage LED power supply delivering 48V DC at up to 16.5A, totalling 792W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 17.0A 816WConstant-voltage LED power supply delivering 48V DC at up to 17.0A, totalling 816W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 17.5A 840WConstant-voltage LED power supply delivering 48V DC at up to 17.5A, totalling 840W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 18.0A 864WConstant-voltage LED power supply delivering 48V DC at up to 18.0A, totalling 864W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 18.5A 888WConstant-voltage LED power supply delivering 48V DC at up to 18.5A, totalling 888W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 19.0A 912WConstant-voltage LED power supply delivering 48V DC at up to 19.0A, totalling 912W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 19.5A 936WConstant-voltage LED power supply delivering 48V DC at up to 19.5A, totalling 936W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 2.0A 96WConstant-voltage LED power supply delivering 48V DC at up to 2.0A, totalling 96W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 2.5A 120WConstant-voltage LED power supply delivering 48V DC at up to 2.5A, totalling 120W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 20.0A 960WConstant-voltage LED power supply delivering 48V DC at up to 20.0A, totalling 960W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 20.5A 984WConstant-voltage LED power supply delivering 48V DC at up to 20.5A, totalling 984W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 21.0A 1008WConstant-voltage LED power supply delivering 48V DC at up to 21.0A, totalling 1008W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 21.5A 1032WConstant-voltage LED power supply delivering 48V DC at up to 21.5A, totalling 1032W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 22.0A 1056WConstant-voltage LED power supply delivering 48V DC at up to 22.0A, totalling 1056W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 22.5A 1080WConstant-voltage LED power supply delivering 48V DC at up to 22.5A, totalling 1080W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 23.0A 1104WConstant-voltage LED power supply delivering 48V DC at up to 23.0A, totalling 1104W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 23.5A 1128WConstant-voltage LED power supply delivering 48V DC at up to 23.5A, totalling 1128W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 24.0A 1152WConstant-voltage LED power supply delivering 48V DC at up to 24.0A, totalling 1152W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 24.5A 1176WConstant-voltage LED power supply delivering 48V DC at up to 24.5A, totalling 1176W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 25.0A 1200WConstant-voltage LED power supply delivering 48V DC at up to 25.0A, totalling 1200W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 25.5A 1224WConstant-voltage LED power supply delivering 48V DC at up to 25.5A, totalling 1224W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 3.0A 144WConstant-voltage LED power supply delivering 48V DC at up to 3.0A, totalling 144W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 3.5A 168WConstant-voltage LED power supply delivering 48V DC at up to 3.5A, totalling 168W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 4.0A 192WConstant-voltage LED power supply delivering 48V DC at up to 4.0A, totalling 192W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 4.5A 216WConstant-voltage LED power supply delivering 48V DC at up to 4.5A, totalling 216W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 5.0A 240WConstant-voltage LED power supply delivering 48V DC at up to 5.0A, totalling 240W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 5.5A 264WConstant-voltage LED power supply delivering 48V DC at up to 5.5A, totalling 264W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 6.0A 288WConstant-voltage LED power supply delivering 48V DC at up to 6.0A, totalling 288W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 6.5A 312WConstant-voltage LED power supply delivering 48V DC at up to 6.5A, totalling 312W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 7.0A 336WConstant-voltage LED power supply delivering 48V DC at up to 7.0A, totalling 336W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 7.5A 360WConstant-voltage LED power supply delivering 48V DC at up to 7.5A, totalling 360W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 8.0A 384WConstant-voltage LED power supply delivering 48V DC at up to 8.0A, totalling 384W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 8.5A 408WConstant-voltage LED power supply delivering 48V DC at up to 8.5A, totalling 408W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 9.0A 432WConstant-voltage LED power supply delivering 48V DC at up to 9.0A, totalling 432W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
PSU 48V 9.5A 456WConstant-voltage LED power supply delivering 48V DC at up to 9.5A, totalling 456W output capacity. Suitable for powering multiple parallel LED strip segments within the rated load.
Puck lightSmall, round, surface-mounted LED luminaire for under-cabinet or display use.
Pull-down resistorResistor ensuring a defined low signal state on a control line.
Pulse (test)Short current pulse used to measure LED characteristics without significant heating.
Push-in connectorTool-free connector locking the wire on insertion.
PVC (polyvinyl chloride)Plastic used for cable insulation and inexpensive conduits.
PWM (Pulse Width Modulation)Standard dimming technique for LEDs.
PWM frequencyRate of the pulse train; must exceed 400 Hz for flicker-free dimming.

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Q

QA (Quality Assurance)Systematic processes ensuring LED products meet specified standards.
QC (Quality Control)Inspection and testing activities verifying LED product quality.
QR code (luminaire)Machine-readable code on a luminaire linking to datasheet or commissioning info.
Quadrant (luminaire distribution)Quarter section of a polar plot used to classify light distribution.
Quality (colour)Fidelity and saturation of colour reproduction.
Quality (light)Aggregate of CRI, CCT, uniformity and flicker determining visual comfort.
Quantum dot (QD)Nanoscale semiconductor particle for narrow-band colour conversion in LED systems.
Quantum efficiency (external / EQE)Ratio of externally emitted photons to injected electrons.
Quantum efficiency (internal / IQE)Ratio of photons generated inside the die to injected electrons.
Quick disconnectConnector designed for rapid, tool-free cable detachment.

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R

R1–R8 (CRI test colours)Eight standard Munsell colour samples used to calculate the general CRI Ra.
R9 (red rendering)CRI sub-index for saturated red, critical for skin, textiles and food.
R9–R14 (CRI extended colours)Additional saturated and pastel test colours for extended CRI evaluation.
Racetrack profileOval extruded profile resembling a racetrack in cross-section.
RadianceRadiant intensity per unit projected area of the source, in W/(sr·m²).
Radiant fluxTotal electromagnetic power emitted by a source, in watts.
RadiatorExtended-surface metal body for passive heat dissipation.
Radio frequency (RF)Wireless transmission technology for LED remotes and controllers.
Radius (bending)Minimum curvature radius of a flexible strip without damage.
RALIndustrial colour-coding system for custom profile finishes.
Ramp timeDuration of a gradual brightness increase or decrease.
Rated lifeManufacturer-declared useful life in hours under specified conditions.
Rating IP20 / IK02Luminaire combining IP20 ingress protection with IK02 impact resistance.
Rating IP20 / IK04Luminaire combining IP20 ingress protection with IK04 impact resistance.
Rating IP20 / IK06Luminaire combining IP20 ingress protection with IK06 impact resistance.
Rating IP20 / IK07Luminaire combining IP20 ingress protection with IK07 impact resistance.
Rating IP20 / IK08Luminaire combining IP20 ingress protection with IK08 impact resistance.
Rating IP20 / IK09Luminaire combining IP20 ingress protection with IK09 impact resistance.
Rating IP20 / IK10Luminaire combining IP20 ingress protection with IK10 impact resistance.
Rating IP40 / IK02Luminaire combining IP40 ingress protection with IK02 impact resistance.
Rating IP40 / IK04Luminaire combining IP40 ingress protection with IK04 impact resistance.
Rating IP40 / IK06Luminaire combining IP40 ingress protection with IK06 impact resistance.
Rating IP40 / IK07Luminaire combining IP40 ingress protection with IK07 impact resistance.
Rating IP40 / IK08Luminaire combining IP40 ingress protection with IK08 impact resistance.
Rating IP40 / IK09Luminaire combining IP40 ingress protection with IK09 impact resistance.
Rating IP40 / IK10Luminaire combining IP40 ingress protection with IK10 impact resistance.
Rating IP44 / IK02Luminaire combining IP44 ingress protection with IK02 impact resistance.
Rating IP44 / IK04Luminaire combining IP44 ingress protection with IK04 impact resistance.
Rating IP44 / IK06Luminaire combining IP44 ingress protection with IK06 impact resistance.
Rating IP44 / IK07Luminaire combining IP44 ingress protection with IK07 impact resistance.
Rating IP44 / IK08Luminaire combining IP44 ingress protection with IK08 impact resistance.
Rating IP44 / IK09Luminaire combining IP44 ingress protection with IK09 impact resistance.
Rating IP44 / IK10Luminaire combining IP44 ingress protection with IK10 impact resistance.
Rating IP54 / IK02Luminaire combining IP54 ingress protection with IK02 impact resistance.
Rating IP54 / IK04Luminaire combining IP54 ingress protection with IK04 impact resistance.
Rating IP54 / IK06Luminaire combining IP54 ingress protection with IK06 impact resistance.
Rating IP54 / IK07Luminaire combining IP54 ingress protection with IK07 impact resistance.
Rating IP54 / IK08Luminaire combining IP54 ingress protection with IK08 impact resistance.
Rating IP54 / IK09Luminaire combining IP54 ingress protection with IK09 impact resistance.
Rating IP54 / IK10Luminaire combining IP54 ingress protection with IK10 impact resistance.
Rating IP65 / IK02Luminaire combining IP65 ingress protection with IK02 impact resistance.
Rating IP65 / IK04Luminaire combining IP65 ingress protection with IK04 impact resistance.
Rating IP65 / IK06Luminaire combining IP65 ingress protection with IK06 impact resistance.
Rating IP65 / IK07Luminaire combining IP65 ingress protection with IK07 impact resistance.
Rating IP65 / IK08Luminaire combining IP65 ingress protection with IK08 impact resistance.
Rating IP65 / IK09Luminaire combining IP65 ingress protection with IK09 impact resistance.
Rating IP65 / IK10Luminaire combining IP65 ingress protection with IK10 impact resistance.
Rating IP66 / IK02Luminaire combining IP66 ingress protection with IK02 impact resistance.
Rating IP66 / IK04Luminaire combining IP66 ingress protection with IK04 impact resistance.
Rating IP66 / IK06Luminaire combining IP66 ingress protection with IK06 impact resistance.
Rating IP66 / IK07Luminaire combining IP66 ingress protection with IK07 impact resistance.
Rating IP66 / IK08Luminaire combining IP66 ingress protection with IK08 impact resistance.
Rating IP66 / IK09Luminaire combining IP66 ingress protection with IK09 impact resistance.
Rating IP66 / IK10Luminaire combining IP66 ingress protection with IK10 impact resistance.
Rating IP67 / IK02Luminaire combining IP67 ingress protection with IK02 impact resistance.
Rating IP67 / IK04Luminaire combining IP67 ingress protection with IK04 impact resistance.
Rating IP67 / IK06Luminaire combining IP67 ingress protection with IK06 impact resistance.
Rating IP67 / IK07Luminaire combining IP67 ingress protection with IK07 impact resistance.
Rating IP67 / IK08Luminaire combining IP67 ingress protection with IK08 impact resistance.
Rating IP67 / IK09Luminaire combining IP67 ingress protection with IK09 impact resistance.
Rating IP67 / IK10Luminaire combining IP67 ingress protection with IK10 impact resistance.
Rating IP68 / IK02Luminaire combining IP68 ingress protection with IK02 impact resistance.
Rating IP68 / IK04Luminaire combining IP68 ingress protection with IK04 impact resistance.
Rating IP68 / IK06Luminaire combining IP68 ingress protection with IK06 impact resistance.
Rating IP68 / IK07Luminaire combining IP68 ingress protection with IK07 impact resistance.
Rating IP68 / IK08Luminaire combining IP68 ingress protection with IK08 impact resistance.
Rating IP68 / IK09Luminaire combining IP68 ingress protection with IK09 impact resistance.
Rating IP68 / IK10Luminaire combining IP68 ingress protection with IK10 impact resistance.
Ratio (contrast)Numerical contrast between bright and dark areas in a scene.
Ratio (uniformity — Ud)Emin / Emax on a surface, a stricter uniformity measure.
Ratio (uniformity — Uo)Emin / Emean on a surface, indicating illumination homogeneity.
RCD (Residual Current Device)Safety switch detecting earth leakage current.
RDM (Remote Device Management)Bidirectional extension of DMX512 for luminaire configuration and monitoring.
Recess depthSpace needed in the host structure for a recessed profile.
Recess depth 10 mmFlush-recessed profile requiring a 10 mm deep routed slot.
Recess depth 11 mmFlush-recessed profile requiring a 11 mm deep routed slot.
Recess depth 12 mmFlush-recessed profile requiring a 12 mm deep routed slot.
Recess depth 13 mmFlush-recessed profile requiring a 13 mm deep routed slot.
Recess depth 14 mmFlush-recessed profile requiring a 14 mm deep routed slot.
Recess depth 15 mmFlush-recessed profile requiring a 15 mm deep routed slot.
Recess depth 16 mmFlush-recessed profile requiring a 16 mm deep routed slot.
Recess depth 17 mmFlush-recessed profile requiring a 17 mm deep routed slot.
Recess depth 18 mmFlush-recessed profile requiring a 18 mm deep routed slot.
Recess depth 19 mmFlush-recessed profile requiring a 19 mm deep routed slot.
Recess depth 20 mmFlush-recessed profile requiring a 20 mm deep routed slot.
Recess depth 21 mmFlush-recessed profile requiring a 21 mm deep routed slot.
Recess depth 22 mmFlush-recessed profile requiring a 22 mm deep routed slot.
Recess depth 23 mmFlush-recessed profile requiring a 23 mm deep routed slot.
Recess depth 24 mmFlush-recessed profile requiring a 24 mm deep routed slot.
Recess depth 25 mmFlush-recessed profile requiring a 25 mm deep routed slot.
Recess depth 26 mmFlush-recessed profile requiring a 26 mm deep routed slot.
Recess depth 27 mmFlush-recessed profile requiring a 27 mm deep routed slot.
Recess depth 28 mmFlush-recessed profile requiring a 28 mm deep routed slot.
Recess depth 29 mmFlush-recessed profile requiring a 29 mm deep routed slot.
Recess depth 30 mmFlush-recessed profile requiring a 30 mm deep routed slot.
Recess depth 31 mmFlush-recessed profile requiring a 31 mm deep routed slot.
Recess depth 32 mmFlush-recessed profile requiring a 32 mm deep routed slot.
Recess depth 33 mmFlush-recessed profile requiring a 33 mm deep routed slot.
Recess depth 34 mmFlush-recessed profile requiring a 34 mm deep routed slot.
Recess depth 35 mmFlush-recessed profile requiring a 35 mm deep routed slot.
Recess depth 36 mmFlush-recessed profile requiring a 36 mm deep routed slot.
Recess depth 37 mmFlush-recessed profile requiring a 37 mm deep routed slot.
Recess depth 38 mmFlush-recessed profile requiring a 38 mm deep routed slot.
Recess depth 39 mmFlush-recessed profile requiring a 39 mm deep routed slot.
Recess depth 4 mmFlush-recessed profile requiring a 4 mm deep routed slot.
Recess depth 40 mmFlush-recessed profile requiring a 40 mm deep routed slot.
Recess depth 41 mmFlush-recessed profile requiring a 41 mm deep routed slot.
Recess depth 42 mmFlush-recessed profile requiring a 42 mm deep routed slot.
Recess depth 43 mmFlush-recessed profile requiring a 43 mm deep routed slot.
Recess depth 44 mmFlush-recessed profile requiring a 44 mm deep routed slot.
Recess depth 45 mmFlush-recessed profile requiring a 45 mm deep routed slot.
Recess depth 46 mmFlush-recessed profile requiring a 46 mm deep routed slot.
Recess depth 47 mmFlush-recessed profile requiring a 47 mm deep routed slot.
Recess depth 48 mmFlush-recessed profile requiring a 48 mm deep routed slot.
Recess depth 49 mmFlush-recessed profile requiring a 49 mm deep routed slot.
Recess depth 5 mmFlush-recessed profile requiring a 5 mm deep routed slot.
Recess depth 50 mmFlush-recessed profile requiring a 50 mm deep routed slot.
Recess depth 51 mmFlush-recessed profile requiring a 51 mm deep routed slot.
Recess depth 52 mmFlush-recessed profile requiring a 52 mm deep routed slot.
Recess depth 53 mmFlush-recessed profile requiring a 53 mm deep routed slot.
Recess depth 54 mmFlush-recessed profile requiring a 54 mm deep routed slot.
Recess depth 55 mmFlush-recessed profile requiring a 55 mm deep routed slot.
Recess depth 56 mmFlush-recessed profile requiring a 56 mm deep routed slot.
Recess depth 57 mmFlush-recessed profile requiring a 57 mm deep routed slot.
Recess depth 58 mmFlush-recessed profile requiring a 58 mm deep routed slot.
Recess depth 59 mmFlush-recessed profile requiring a 59 mm deep routed slot.
Recess depth 6 mmFlush-recessed profile requiring a 6 mm deep routed slot.
Recess depth 60 mmFlush-recessed profile requiring a 60 mm deep routed slot.
Recess depth 7 mmFlush-recessed profile requiring a 7 mm deep routed slot.
Recess depth 8 mmFlush-recessed profile requiring a 8 mm deep routed slot.
Recess depth 9 mmFlush-recessed profile requiring a 9 mm deep routed slot.
Recess widthWidth of the slot cut into the host surface for a recessed profile.
Recyclability aluminium profileAluminium LED profiles are almost 100% recyclable without quality loss; recycling uses only 5% of the energy required for primary aluminium production.
ReflectancePercentage of light reflected by a surface.
Reflectance (ceiling)Typical reflectance of ceiling surfaces (70–90 percent), used in calculations.
Reflectance (floor)Typical reflectance of floor surfaces (20–40 percent).
Reflectance (wall)Typical reflectance of wall surfaces (30–70 percent).
Reflection (diffuse)Light scattered in many directions by a matte surface.
Reflection (specular)Mirror-like reflection from a glossy surface.
Reflection (total internal / TIR)Complete reflection within an optical medium above the critical angle.
ReflectorCurved surface redirecting LED light toward the target zone.
Reflector (asymmetric)Reflector directing light predominantly to one side for wall-wash.
Reflector (compound parabolic / CPC)Non-imaging concentrator for efficient light collection.
Reflector (faceted)Reflector with multiple small flat facets for soft, even illumination.
Reflector (parabolic)Parabolic shape producing parallel beams and controlling glare.
Reflector (specular)Mirror-finish reflector for maximum efficiency.
RefractionBending of light as it passes between media with different refractive indices.
Refractive indexRatio of light speed in vacuum to speed in a material; determines lens behaviour.
Regulation (building code)Local or national rules governing electrical and lighting installation.
Regulation (EU Ecodesign)European regulation setting minimum efficiency and performance for lighting.
RelayElectrically operated switch used to control LED circuits from a building-automation system.
Relay (latching)Relay maintaining its state without continuous coil power, saving energy.
Relay (solid-state / SSR)Semiconductor relay with no moving parts, faster and quieter than electromechanical.
ReluxProfessional lighting-calculation software, alternative to DIALux.
Remote control (IR)Infrared handset for line-of-sight LED control.
Remote control (RF)Radio-frequency handset for wireless LED control without line of sight.
Remote phosphorPhosphor placed away from the die for improved uniformity and life.
Rendering (colour)Source’s ability to reproduce colours faithfully.
Resistance (thermal — junction-to-ambient)Total thermal resistance from chip to air.
Resistance (thermal)Opposition to heat flow, in °C/W, to be minimised.
Resistivity (electrical)Intrinsic resistance of a material, in Ω·m.
Resonance (acoustic)Audible buzzing in a driver caused by component vibration at the switching frequency.
RetrofitReplacing a conventional lamp with an LED equivalent in the existing luminaire.
reveal lighting techniqueMiniature LED profile illuminating the inside edge of a door frame or window reveal, outlining the opening with a subtle line of light.
RF remoteRadio-frequency handset for wireless LED control.
RGBColour system based on mixing red, green and blue.
RGBARGB plus amber for an extended warm-colour gamut.
RGBWRGB with an additional white channel for purer whites.
RGBWW (RGB + WW + CW)Five-channel system for maximum chromatic versatility.
RippleResidual AC fluctuation in driver DC output, a source of flicker.
Risk (photobiological)Retinal hazard from intense blue LED radiation.
RoHSEU directive restricting hazardous substances in electronic products.
ROI payback 0.2yrLED investment recouped within 0.2 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 0.3yrLED investment recouped within 0.3 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 0.4yrLED investment recouped within 0.4 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 0.5yrLED investment recouped within 0.5 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 0.6yrLED investment recouped within 0.6 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 0.7yrLED investment recouped within 0.7 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 0.8yrLED investment recouped within 0.8 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 0.9yrLED investment recouped within 0.9 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 1.0yrLED investment recouped within 1.0 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 1.1yrLED investment recouped within 1.1 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 1.2yrLED investment recouped within 1.2 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 1.3yrLED investment recouped within 1.3 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 1.4yrLED investment recouped within 1.4 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 1.5yrLED investment recouped within 1.5 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 1.6yrLED investment recouped within 1.6 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 1.7yrLED investment recouped within 1.7 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 1.8yrLED investment recouped within 1.8 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 1.9yrLED investment recouped within 1.9 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 10.0yrLED investment recouped within 10.0 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 10.1yrLED investment recouped within 10.1 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 10.2yrLED investment recouped within 10.2 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 10.3yrLED investment recouped within 10.3 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 10.4yrLED investment recouped within 10.4 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 10.5yrLED investment recouped within 10.5 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 10.6yrLED investment recouped within 10.6 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 10.7yrLED investment recouped within 10.7 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 10.8yrLED investment recouped within 10.8 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 10.9yrLED investment recouped within 10.9 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 11.0yrLED investment recouped within 11.0 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 11.1yrLED investment recouped within 11.1 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 11.2yrLED investment recouped within 11.2 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 11.3yrLED investment recouped within 11.3 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 11.4yrLED investment recouped within 11.4 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 11.5yrLED investment recouped within 11.5 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 11.6yrLED investment recouped within 11.6 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 11.7yrLED investment recouped within 11.7 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 11.8yrLED investment recouped within 11.8 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 11.9yrLED investment recouped within 11.9 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 12.0yrLED investment recouped within 12.0 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 2.0yrLED investment recouped within 2.0 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 2.1yrLED investment recouped within 2.1 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 2.2yrLED investment recouped within 2.2 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 2.3yrLED investment recouped within 2.3 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 2.4yrLED investment recouped within 2.4 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 2.5yrLED investment recouped within 2.5 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 2.6yrLED investment recouped within 2.6 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 2.7yrLED investment recouped within 2.7 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 2.8yrLED investment recouped within 2.8 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 2.9yrLED investment recouped within 2.9 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 3.0yrLED investment recouped within 3.0 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 3.1yrLED investment recouped within 3.1 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 3.2yrLED investment recouped within 3.2 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 3.3yrLED investment recouped within 3.3 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 3.4yrLED investment recouped within 3.4 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 3.5yrLED investment recouped within 3.5 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 3.6yrLED investment recouped within 3.6 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 3.7yrLED investment recouped within 3.7 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 3.8yrLED investment recouped within 3.8 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 3.9yrLED investment recouped within 3.9 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 4.0yrLED investment recouped within 4.0 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 4.1yrLED investment recouped within 4.1 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 4.2yrLED investment recouped within 4.2 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 4.3yrLED investment recouped within 4.3 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 4.4yrLED investment recouped within 4.4 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 4.5yrLED investment recouped within 4.5 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 4.6yrLED investment recouped within 4.6 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 4.7yrLED investment recouped within 4.7 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 4.8yrLED investment recouped within 4.8 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 4.9yrLED investment recouped within 4.9 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 5.0yrLED investment recouped within 5.0 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 5.1yrLED investment recouped within 5.1 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 5.2yrLED investment recouped within 5.2 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 5.3yrLED investment recouped within 5.3 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 5.4yrLED investment recouped within 5.4 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 5.5yrLED investment recouped within 5.5 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 5.6yrLED investment recouped within 5.6 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 5.7yrLED investment recouped within 5.7 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 5.8yrLED investment recouped within 5.8 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 5.9yrLED investment recouped within 5.9 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 6.0yrLED investment recouped within 6.0 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 6.1yrLED investment recouped within 6.1 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 6.2yrLED investment recouped within 6.2 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 6.3yrLED investment recouped within 6.3 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 6.4yrLED investment recouped within 6.4 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 6.5yrLED investment recouped within 6.5 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 6.6yrLED investment recouped within 6.6 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 6.7yrLED investment recouped within 6.7 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 6.8yrLED investment recouped within 6.8 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 6.9yrLED investment recouped within 6.9 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 7.0yrLED investment recouped within 7.0 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 7.1yrLED investment recouped within 7.1 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 7.2yrLED investment recouped within 7.2 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 7.3yrLED investment recouped within 7.3 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 7.4yrLED investment recouped within 7.4 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 7.5yrLED investment recouped within 7.5 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 7.6yrLED investment recouped within 7.6 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 7.7yrLED investment recouped within 7.7 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 7.8yrLED investment recouped within 7.8 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 7.9yrLED investment recouped within 7.9 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 8.0yrLED investment recouped within 8.0 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 8.1yrLED investment recouped within 8.1 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 8.2yrLED investment recouped within 8.2 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 8.3yrLED investment recouped within 8.3 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 8.4yrLED investment recouped within 8.4 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 8.5yrLED investment recouped within 8.5 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 8.6yrLED investment recouped within 8.6 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 8.7yrLED investment recouped within 8.7 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 8.8yrLED investment recouped within 8.8 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 8.9yrLED investment recouped within 8.9 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 9.0yrLED investment recouped within 9.0 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 9.1yrLED investment recouped within 9.1 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 9.2yrLED investment recouped within 9.2 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 9.3yrLED investment recouped within 9.3 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 9.4yrLED investment recouped within 9.4 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 9.5yrLED investment recouped within 9.5 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 9.6yrLED investment recouped within 9.6 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 9.7yrLED investment recouped within 9.7 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 9.8yrLED investment recouped within 9.8 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
ROI payback 9.9yrLED investment recouped within 9.9 years through energy and maintenance savings. A payback under 3 years is typically considered excellent for commercial projects; under 5 years is acceptable for most institutional budgets.
Room indexGeometric ratio (length × width) / (height × (length + width)) used in lighting calculations.
Room index k=0.5Geometric factor k=0.5 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=0.6Geometric factor k=0.6 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=0.7Geometric factor k=0.7 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=0.8Geometric factor k=0.8 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=0.9Geometric factor k=0.9 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=1.0Geometric factor k=1.0 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=1.1Geometric factor k=1.1 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=1.2Geometric factor k=1.2 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=1.3Geometric factor k=1.3 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=1.4Geometric factor k=1.4 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=1.5Geometric factor k=1.5 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=1.6Geometric factor k=1.6 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=1.7Geometric factor k=1.7 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=1.8Geometric factor k=1.8 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=1.9Geometric factor k=1.9 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=2.0Geometric factor k=2.0 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=2.1Geometric factor k=2.1 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=2.2Geometric factor k=2.2 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=2.3Geometric factor k=2.3 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=2.4Geometric factor k=2.4 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=2.5Geometric factor k=2.5 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=2.6Geometric factor k=2.6 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=2.7Geometric factor k=2.7 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=2.8Geometric factor k=2.8 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=2.9Geometric factor k=2.9 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=3.0Geometric factor k=3.0 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=3.1Geometric factor k=3.1 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=3.2Geometric factor k=3.2 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=3.3Geometric factor k=3.3 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=3.4Geometric factor k=3.4 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=3.5Geometric factor k=3.5 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=3.6Geometric factor k=3.6 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=3.7Geometric factor k=3.7 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=3.8Geometric factor k=3.8 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=3.9Geometric factor k=3.9 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=4.0Geometric factor k=4.0 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=4.1Geometric factor k=4.1 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=4.2Geometric factor k=4.2 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=4.3Geometric factor k=4.3 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=4.4Geometric factor k=4.4 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=4.5Geometric factor k=4.5 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=4.6Geometric factor k=4.6 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=4.7Geometric factor k=4.7 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=4.8Geometric factor k=4.8 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=4.9Geometric factor k=4.9 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Room index k=5.0Geometric factor k=5.0 in the lumen method (k=LW/Hm(L+W)). Higher room indices mean proportionally more light reaches the work plane, improving utilisation and reducing the number of luminaires needed.
Rosette / ceiling roseDecorative ceiling plate covering a pendant’s cable attachment.
Routing (CNC)CNC machining a groove in a surface for recessing an LED profile.
RS-485Serial communication standard used by DMX512.
Run (maximum)Maximum continuous strip length from a single power entry.

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S

sACN (streaming ACN)Protocol for DMX transport over Ethernet using multicast.
Safety (electrical)Measures protecting people from electric shock and fire in LED installations.
Safety (extra-low voltage / SELV)Voltage ≤50 V AC / ≤120 V DC.
Salt spray testAccelerated corrosion test for outdoor luminaire finishes (ISO 9227).
Sample (colour)Physical or digital reference for verifying LED colour rendering.
SaturationColour purity, from a vivid tint to white or grey.
Saving 20 percent energyLED retrofit achieving 20% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 21 percent energyLED retrofit achieving 21% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 22 percent energyLED retrofit achieving 22% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 23 percent energyLED retrofit achieving 23% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 24 percent energyLED retrofit achieving 24% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 25 percent energyLED retrofit achieving 25% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 26 percent energyLED retrofit achieving 26% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 27 percent energyLED retrofit achieving 27% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 28 percent energyLED retrofit achieving 28% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 29 percent energyLED retrofit achieving 29% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 30 percent energyLED retrofit achieving 30% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 31 percent energyLED retrofit achieving 31% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 32 percent energyLED retrofit achieving 32% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 33 percent energyLED retrofit achieving 33% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 34 percent energyLED retrofit achieving 34% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 35 percent energyLED retrofit achieving 35% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 36 percent energyLED retrofit achieving 36% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 37 percent energyLED retrofit achieving 37% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 38 percent energyLED retrofit achieving 38% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 39 percent energyLED retrofit achieving 39% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 40 percent energyLED retrofit achieving 40% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 41 percent energyLED retrofit achieving 41% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 42 percent energyLED retrofit achieving 42% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 43 percent energyLED retrofit achieving 43% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 44 percent energyLED retrofit achieving 44% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 45 percent energyLED retrofit achieving 45% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 46 percent energyLED retrofit achieving 46% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 47 percent energyLED retrofit achieving 47% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 48 percent energyLED retrofit achieving 48% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 49 percent energyLED retrofit achieving 49% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 50 percent energyLED retrofit achieving 50% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 51 percent energyLED retrofit achieving 51% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 52 percent energyLED retrofit achieving 52% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 53 percent energyLED retrofit achieving 53% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 54 percent energyLED retrofit achieving 54% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 55 percent energyLED retrofit achieving 55% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 56 percent energyLED retrofit achieving 56% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 57 percent energyLED retrofit achieving 57% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 58 percent energyLED retrofit achieving 58% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 59 percent energyLED retrofit achieving 59% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 60 percent energyLED retrofit achieving 60% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 61 percent energyLED retrofit achieving 61% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 62 percent energyLED retrofit achieving 62% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 63 percent energyLED retrofit achieving 63% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 64 percent energyLED retrofit achieving 64% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 65 percent energyLED retrofit achieving 65% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 66 percent energyLED retrofit achieving 66% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 67 percent energyLED retrofit achieving 67% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 68 percent energyLED retrofit achieving 68% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 69 percent energyLED retrofit achieving 69% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 70 percent energyLED retrofit achieving 70% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 71 percent energyLED retrofit achieving 71% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 72 percent energyLED retrofit achieving 72% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 73 percent energyLED retrofit achieving 73% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 74 percent energyLED retrofit achieving 74% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 75 percent energyLED retrofit achieving 75% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 76 percent energyLED retrofit achieving 76% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 77 percent energyLED retrofit achieving 77% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 78 percent energyLED retrofit achieving 78% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 79 percent energyLED retrofit achieving 79% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 80 percent energyLED retrofit achieving 80% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 81 percent energyLED retrofit achieving 81% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 82 percent energyLED retrofit achieving 82% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 83 percent energyLED retrofit achieving 83% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 84 percent energyLED retrofit achieving 84% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 85 percent energyLED retrofit achieving 85% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 86 percent energyLED retrofit achieving 86% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 87 percent energyLED retrofit achieving 87% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 88 percent energyLED retrofit achieving 88% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 89 percent energyLED retrofit achieving 89% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 90 percent energyLED retrofit achieving 90% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 91 percent energyLED retrofit achieving 91% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 92 percent energyLED retrofit achieving 92% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 93 percent energyLED retrofit achieving 93% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 94 percent energyLED retrofit achieving 94% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Saving 95 percent energyLED retrofit achieving 95% reduction in lighting energy consumption versus the replaced conventional installation, translating to lower utility bills, reduced peak demand charges and measurable carbon-emission reductions.
Scene (all off)Pre-programmed lighting scene for all off ambiance.
Scene (all on)Pre-programmed lighting scene for all on ambiance.
Scene (ambient cool)Pre-programmed lighting scene for ambient cool ambiance.
Scene (ambient warm)Pre-programmed lighting scene for ambient warm ambiance.
Scene (boardroom presentation)Pre-programmed lighting scene for boardroom presentation ambiance.
Scene (candle flicker)Pre-programmed lighting scene for candle flicker ambiance.
Scene (chase fast)Pre-programmed lighting scene for chase fast ambiance.
Scene (chase slow)Pre-programmed lighting scene for chase slow ambiance.
Scene (cinema mode)Pre-programmed lighting scene for cinema mode ambiance.
Scene (cleaning bright)Pre-programmed lighting scene for cleaning bright ambiance.
Scene (club strobe)Pre-programmed lighting scene for club strobe ambiance.
Scene (colour cycle)Pre-programmed lighting scene for colour cycle ambiance.
Scene (colour wash blue)Pre-programmed lighting scene for colour wash blue ambiance.
Scene (colour wash green)Pre-programmed lighting scene for colour wash green ambiance.
Scene (colour wash pink)Pre-programmed lighting scene for colour wash pink ambiance.
Scene (colour wash red)Pre-programmed lighting scene for colour wash red ambiance.
Scene (cooking task)Pre-programmed lighting scene for cooking task ambiance.
Scene (corridor auto-dim)Pre-programmed lighting scene for corridor auto-dim ambiance.
Scene (dawn simulation)Pre-programmed lighting scene for dawn simulation ambiance.
Scene (deep blue night)Pre-programmed lighting scene for deep blue night ambiance.
Scene (dinner party)Pre-programmed lighting scene for dinner party ambiance.
Scene (disco flash)Pre-programmed lighting scene for disco flash ambiance.
Scene (dusk simulation)Pre-programmed lighting scene for dusk simulation ambiance.
Scene (energy saving 50%)Pre-programmed lighting scene for energy saving 50% ambiance.
Scene (evening relax)Pre-programmed lighting scene for evening relax ambiance.
Scene (fire effect)Pre-programmed lighting scene for fire effect ambiance.
Scene (focus work 500 lux)Pre-programmed lighting scene for focus work 500 lux ambiance.
Scene (focus work 750 lux)Pre-programmed lighting scene for focus work 750 lux ambiance.
Scene (full bright 100%)Pre-programmed lighting scene for full bright 100% ambiance.
Scene (gallery highlight)Pre-programmed lighting scene for gallery highlight ambiance.
Scene (garden evening)Pre-programmed lighting scene for garden evening ambiance.
Scene (gradient warm-cool)Pre-programmed lighting scene for gradient warm-cool ambiance.
Scene (half bright 50%)Pre-programmed lighting scene for half bright 50% ambiance.
Scene (holiday sparkle)Pre-programmed lighting scene for holiday sparkle ambiance.
Scene (hospital exam)Pre-programmed lighting scene for hospital exam ambiance.
Scene (hotel lobby welcome)Pre-programmed lighting scene for hotel lobby welcome ambiance.
Scene (jewellery sparkle)Pre-programmed lighting scene for jewellery sparkle ambiance.
Scene (landscape moonlight)Pre-programmed lighting scene for landscape moonlight ambiance.
Scene (lighting)Pre-set combination of levels, colours and distributions stored in a controller.
Scene (lounge warm)Pre-programmed lighting scene for lounge warm ambiance.
Scene (meditation)Pre-programmed lighting scene for meditation ambiance.
Scene (morning energise)Pre-programmed lighting scene for morning energise ambiance.
Scene (museum conservation)Pre-programmed lighting scene for museum conservation ambiance.
Scene (night security)Pre-programmed lighting scene for night security ambiance.
Scene (office 4000K)Pre-programmed lighting scene for office 4000K ambiance.
Scene (office 5000K)Pre-programmed lighting scene for office 5000K ambiance.
Scene (outdoor entertaining)Pre-programmed lighting scene for outdoor entertaining ambiance.
Scene (panic bright)Pre-programmed lighting scene for panic bright ambiance.
Scene (party rainbow)Pre-programmed lighting scene for party rainbow ambiance.
Scene (pool underwater)Pre-programmed lighting scene for pool underwater ambiance.
Scene (power saving 30%)Pre-programmed lighting scene for power saving 30% ambiance.
Scene (reading 300 lux)Pre-programmed lighting scene for reading 300 lux ambiance.
Scene (retail highlight cool)Pre-programmed lighting scene for retail highlight cool ambiance.
Scene (retail highlight warm)Pre-programmed lighting scene for retail highlight warm ambiance.
Scene (romantic dinner)Pre-programmed lighting scene for romantic dinner ambiance.
Scene (showroom daylight)Pre-programmed lighting scene for showroom daylight ambiance.
Scene (sleep preparation)Pre-programmed lighting scene for sleep preparation ambiance.
Scene (spa relaxation)Pre-programmed lighting scene for spa relaxation ambiance.
Scene (sports match)Pre-programmed lighting scene for sports match ambiance.
Scene (sports training)Pre-programmed lighting scene for sports training ambiance.
Scene (staircase auto)Pre-programmed lighting scene for staircase auto ambiance.
Scene (starry night twinkle)Pre-programmed lighting scene for starry night twinkle ambiance.
Scene (sunrise ramp 30min)Pre-programmed lighting scene for sunrise ramp 30min ambiance.
Scene (sunset ramp 30min)Pre-programmed lighting scene for sunset ramp 30min ambiance.
Scene (task under-cabinet)Pre-programmed lighting scene for task under-cabinet ambiance.
Scene (theatre pre-show)Pre-programmed lighting scene for theatre pre-show ambiance.
Scene (therapy blue 460nm)Pre-programmed lighting scene for therapy blue 460nm ambiance.
Scene (therapy red 630nm)Pre-programmed lighting scene for therapy red 630nm ambiance.
Scene (therapy warm 2700K)Pre-programmed lighting scene for therapy warm 2700K ambiance.
Scene (TV watching bias light)Pre-programmed lighting scene for TV watching bias light ambiance.
Scene (underwater blue-green)Pre-programmed lighting scene for underwater blue-green ambiance.
Scene (VIP red carpet)Pre-programmed lighting scene for VIP red carpet ambiance.
Scene (warm white 2700K)Pre-programmed lighting scene for warm white 2700K ambiance.
Scene (warm white 3000K)Pre-programmed lighting scene for warm white 3000K ambiance.
Scene (welcome home)Pre-programmed lighting scene for welcome home ambiance.
Scene (wine cellar amber)Pre-programmed lighting scene for wine cellar amber ambiance.
Scene (yoga warm dim)Pre-programmed lighting scene for yoga warm dim ambiance.
SchedulingTime-based automation of lighting scenes and levels.
Scotopic visionNight vision mediated by rod cells, sensitive only to brightness.
SDCM (Standard Deviation of Colour Matching)MacAdam-step number indicating LED colour tolerance.
SDCM 1-stepLED colour tolerance within 1 MacAdam ellipse steps.
SDCM 2-stepLED colour tolerance within 2 MacAdam ellipse steps.
SDCM 3-stepLED colour tolerance within 3 MacAdam ellipse steps.
SDCM 4-stepLED colour tolerance within 4 MacAdam ellipse steps.
SDCM 5-stepLED colour tolerance within 5 MacAdam ellipse steps.
SDCM 6-stepLED colour tolerance within 6 MacAdam ellipse steps.
SDCM 7-stepLED colour tolerance within 7 MacAdam ellipse steps.
Seal (IP)Gasket, potting or membrane providing ingress protection.
Segment (cut)Minimum separable portion of an LED strip defined by cut marks.
SemiconductorMaterial (GaN, InGaN) with intermediate conductivity; the basis of LED function.
Sensor (CO₂)Air-quality sensor sometimes integrated with occupancy detection in lighting systems.
Sensor (daylight / photosensor)Measures ambient light for automatic brightness regulation.
Sensor (gesture)Sensor detecting hand movements for touchless lighting control.
Sensor (humidity)Sensor measuring relative humidity, relevant for outdoor luminaire protection.
Sensor (motion)PIR or microwave device triggering lights on detected movement.
Sensor (occupancy)Detects room presence to switch lighting on or off.
Sensor (PIR)Passive infrared sensor detecting body heat.
Sensor (proximity)Detects closeness of people or objects to activate light.
Sensor (radar / microwave)High-frequency sensor detecting motion through walls and enclosures.
Sensor (temperature / NTC)Thermistor monitoring heat-sink temperature for thermal protection.
Sensor (ultrasonic)Sensor using sound waves to detect occupancy in a space.
Series circuitLEDs connected end-to-end carrying the same current.
Service lifeExpected useful operating life of a luminaire before replacement is needed.
shadowgap techniqueNarrow LED strip recessed into the shadow gap between wall and ceiling produces a razor-thin light line defining the architectural junction, popular in minimalist design.
shelf edge techniqueSlim LED profile along the front edge of shelving illuminates objects below while creating a floating-shelf visual effect, popular in retail, libraries and residential bookcases.
ShieldingMetal braid or foil protecting cables and circuits from EMI.
Short circuitUnintended low-resistance path causing excessive current flow.
Side-emitting LEDLED with lateral emission for edge-lit profiles.
Signal (0-10 V)Analogue dimming standard with a 0–10 V DC signal.
Signal (1-10 V)Variant where 1 V = minimum, 10 V = full brightness.
Signal-to-noise ratio (SNR)Quality measure of a control signal versus background noise.
SiliconeElastomer for potting, gaskets, flexible covers and neon flex.
Silicone (optical-grade)High-clarity silicone for LED die encapsulation.
Simulation (lighting)Computer modelling with DIALux, Relux, AGi32 or similar.
SK6812Addressable RGBW LED with integrated driver IC, SPI protocol.
Skylight (artificial)LED panel mimicking the appearance and colour of natural sky.
skylight simulation techniqueLarge back-lit LED panel with tuneable CCT mimics natural sky appearance, providing a psychological sense of daylight in windowless underground or interior spaces.
Sleeve (heat-shrink)Plastic tube shrinking when heated to insulate wire joints.
Slim driverUltra-thin power supply for limited-space installations.
Slit (light)Narrow opening in a profile producing a thin line of light on a surface.
Smart lightingConnected LEDs controllable remotely with automated features.
SMD (Surface Mount Device)Surface-mounted LED, the most common in professional strips.
SMD 0402Surface-mount LED in 0402 package format (dimensions in tenths of mm).
SMD 0603Surface-mount LED in 0603 package format (dimensions in tenths of mm).
SMD 0805Surface-mount LED in 0805 package format (dimensions in tenths of mm).
SMD 1206Surface-mount LED in 1206 package format (dimensions in tenths of mm).
SMD 2016Ultra-small LED (2.0 × 1.6 mm) for very high-density strip designs.
SMD 2110Compact LED (2.1 × 1.0 mm) for ultra-high-density strips.
SMD 2216Surface-mount LED in 2216 package format (dimensions in tenths of mm).
SMD 2835High-efficiency LED (2.8 × 3.5 mm), the most widely used in professional strips.
SMD 3014Small LED (3.0 × 1.4 mm) for narrow high-density strips.
SMD 3020Surface-mount LED in 3020 package format (dimensions in tenths of mm).
SMD 3030Mid-power LED (3.0 × 3.0 mm) for medium-power applications.
SMD 3528Classic LED (3.5 × 2.8 mm), previous generation.
SMD 3535Surface-mount LED in 3535 package format (dimensions in tenths of mm).
SMD 3838Surface-mount LED in 3838 package format (dimensions in tenths of mm).
SMD 4014High-output LED (4.0 × 1.4 mm) for slim high-flux strips.
SMD 4040Surface-mount LED in 4040 package format (dimensions in tenths of mm).
SMD 5050Large LED (5.0 × 5.0 mm) with three dies, used for RGB.
SMD 5054Surface-mount LED in 5054 package format (dimensions in tenths of mm).
SMD 5060Surface-mount LED in 5060 package format (dimensions in tenths of mm).
SMD 5630Surface-mount LED in 5630 package format (dimensions in tenths of mm).
SMD 5630 / 5730High-power LED (5.6–5.7 × 3.0 mm) for high-flux strips.
SMD 5730Surface-mount LED in 5730 package format (dimensions in tenths of mm).
SMD 5736Surface-mount LED in 5736 package format (dimensions in tenths of mm).
SMD 7020Surface-mount LED in 7020 package format (dimensions in tenths of mm).
SMD 7030Surface-mount LED in 7030 package format (dimensions in tenths of mm).
SMD 7070Surface-mount LED in 7070 package format (dimensions in tenths of mm).
SMD 8520Surface-mount LED in 8520 package format (dimensions in tenths of mm).
SnootTubular attachment on a spotlight reducing spill light and tightening the beam.
Soft startGradual power-up reducing LED stress and inrush current.
Software (AGi32)AGi32, used in LED lighting design, simulation, control or commissioning.
Software (Art-Net Controller app)Art-Net Controller app, used in LED lighting design, simulation, control or commissioning.
Software (AutoCAD lighting plugin)AutoCAD lighting plugin, used in LED lighting design, simulation, control or commissioning.
Software (Autodesk Revit (lighting families))Autodesk Revit (lighting families), used in LED lighting design, simulation, control or commissioning.
Software (CALCULUX)CALCULUX, used in LED lighting design, simulation, control or commissioning.
Software (CASAMBI App)CASAMBI App, used in LED lighting design, simulation, control or commissioning.
Software (Casambi Dashboard)Casambi Dashboard, used in LED lighting design, simulation, control or commissioning.
Software (commissioning)Application for addressing, grouping and scene-setting of luminaires.
Software (Control4 Composer)Control4 Composer, used in LED lighting design, simulation, control or commissioning.
Software (Crestron Toolbox)Crestron Toolbox, used in LED lighting design, simulation, control or commissioning.
Software (DALI-2 Commissioning Toolkit)DALI-2 Commissioning Toolkit, used in LED lighting design, simulation, control or commissioning.
Software (DIALux Evo)DIALux Evo, used in LED lighting design, simulation, control or commissioning.
Software (DIALux)DIALux, used in LED lighting design, simulation, control or commissioning.
Software (DMX Inspector)DMX Inspector, used in LED lighting design, simulation, control or commissioning.
Software (DMX Workshop)DMX Workshop, used in LED lighting design, simulation, control or commissioning.
Software (E:cue Sympholight)E:cue Sympholight, used in LED lighting design, simulation, control or commissioning.
Software (EldoLED SOLOdrive Programmer)EldoLED SOLOdrive Programmer, used in LED lighting design, simulation, control or commissioning.
Software (ElumTools Revit plugin)ElumTools Revit plugin, used in LED lighting design, simulation, control or commissioning.
Software (ETS6 (KNX programming))ETS6 (KNX programming), used in LED lighting design, simulation, control or commissioning.
Software (FASCALC)FASCALC, used in LED lighting design, simulation, control or commissioning.
Software (Helvar Designer)Helvar Designer, used in LED lighting design, simulation, control or commissioning.
Software (IESNA Viewer)IESNA Viewer, used in LED lighting design, simulation, control or commissioning.
Software (iGuzzini Configurator)iGuzzini Configurator, used in LED lighting design, simulation, control or commissioning.
Software (Interact Landmark (Signify))Interact Landmark (Signify), used in LED lighting design, simulation, control or commissioning.
Software (lighting design)DIALux, Relux, AGi32 or similar for calculation and visualisation.
Software (LightStanza)LightStanza, used in LED lighting design, simulation, control or commissioning.
Software (Litestar 4D)Litestar 4D, used in LED lighting design, simulation, control or commissioning.
Software (Loxone Config)Loxone Config, used in LED lighting design, simulation, control or commissioning.
Software (Lumen Designer)Lumen Designer, used in LED lighting design, simulation, control or commissioning.
Software (Lumen Micro)Lumen Micro, used in LED lighting design, simulation, control or commissioning.
Software (Luminaire Finder app)Luminaire Finder app, used in LED lighting design, simulation, control or commissioning.
Software (Luminit LSD Suite)Luminit LSD Suite, used in LED lighting design, simulation, control or commissioning.
Software (Lumion (rendering))Lumion (rendering), used in LED lighting design, simulation, control or commissioning.
Software (MADRIX)MADRIX, used in LED lighting design, simulation, control or commissioning.
Software (Mean Well LED Driver Selector)Mean Well LED Driver Selector, used in LED lighting design, simulation, control or commissioning.
Software (Nicolaudie ESA2)Nicolaudie ESA2, used in LED lighting design, simulation, control or commissioning.
Software (Open Lighting Architecture)Open Lighting Architecture, used in LED lighting design, simulation, control or commissioning.
Software (Pharos Designer)Pharos Designer, used in LED lighting design, simulation, control or commissioning.
Software (Photopia)Photopia, used in LED lighting design, simulation, control or commissioning.
Software (pixel mapping)Application for creating graphical content on addressable LED arrays.
Software (QLC+)QLC+, used in LED lighting design, simulation, control or commissioning.
Software (Radiance)Radiance, used in LED lighting design, simulation, control or commissioning.
Software (Relux Desktop)Relux Desktop, used in LED lighting design, simulation, control or commissioning.
Software (Relux ReluxNet)Relux ReluxNet, used in LED lighting design, simulation, control or commissioning.
Software (sACN View)sACN View, used in LED lighting design, simulation, control or commissioning.
Software (Signify Interact City)Signify Interact City, used in LED lighting design, simulation, control or commissioning.
Software (Signify Interact Office)Signify Interact Office, used in LED lighting design, simulation, control or commissioning.
Software (Touch Designer (pixel mapping))Touch Designer (pixel mapping), used in LED lighting design, simulation, control or commissioning.
Software (TracePro)TracePro, used in LED lighting design, simulation, control or commissioning.
Software (Tridonic 4remote)Tridonic 4remote, used in LED lighting design, simulation, control or commissioning.
Software (Tridonic masterCONFIGURATOR)Tridonic masterCONFIGURATOR, used in LED lighting design, simulation, control or commissioning.
Software (Visual (lighting calc))Visual (lighting calc), used in LED lighting design, simulation, control or commissioning.
Software (Wago Building Controller software)Wago Building Controller software, used in LED lighting design, simulation, control or commissioning.
Software (Zemax OpticStudio)Zemax OpticStudio, used in LED lighting design, simulation, control or commissioning.
Software (Zhaga D4i config tool)Zhaga D4i config tool, used in LED lighting design, simulation, control or commissioning.
SolderTin-alloy material for electrical joints on strip pads.
Solder (lead-free)RoHS-compliant solder alloy without lead.
Soldering (hand)Manual joint with a soldering iron for on-site work.
Soldering (reflow)Industrial SMD process using a convection oven.
Soldering (wave)Through-hole soldering process using a wave of molten solder.
Source (point)Single LED with a very small emitting area, producing hard shadows.
SpacerMechanical insert maintaining a fixed distance between components.
Spectral power distribution (SPD)Graph of radiant power versus wavelength for a light source.
SpectrometerInstrument measuring the spectral distribution of emitted light.
Spectrum (continuous)Emission covering all visible wavelengths without gaps.
Spectrum (emission)Light-intensity distribution as a function of wavelength.
Spectrum (full)LED with a broad, gap-free spectrum similar to daylight.
Spectrum (visible)Electromagnetic radiation from 380 to 780 nm perceptible by the eye.
SPI (Serial Peripheral Interface)Serial protocol for addressable LEDs (WS2812, SK6812).
Spot (narrow beam)Beam below 20 degrees for focused accent lighting.
SpotlightAdjustable luminaire producing a concentrated beam for accent illumination.
Spring anchorElastic fixing for securing recessed profiles in ceilings.
Spring clipSpring-loaded clip holding a recessed luminaire in its ceiling cut-out.
Stainless steelCorrosion-resistant steel used for outdoor mounting hardware.
stair nosing techniqueLinear LED embedded in each tread nosing marks step boundaries for safety while adding rhythmic visual interest to staircases in homes, hotels and public buildings.
Standby powerPower consumed by a driver or controller when LEDs are off but the system is energised.
Stepper (stair-nose profile)Profile for embedding in stair nosings.
Steradian (sr)SI unit of solid angle for defining luminous intensity.
Strip (COB)Chip-on-Board strip for dot-free continuous light.
Strip (constant-current)Strip with on-board current regulators for long-run uniformity.
Strip (flexible)Strip on a flexible PCB that can bend.
Strip (high-density)Strip with many LEDs per metre for seamless light.
Strip (LED — 12 V)Powered at 12 V DC, for short runs.
Strip (LED — 24 V)Powered at 24 V DC, the professional standard.
Strip (LED — 48 V)Powered at 48 V DC for long runs with minimal drop.
Strip (LED — IP20)Bare strip for dry indoor use.
Strip (LED — IP65)Silicone-coated for dust and water-jet resistance.
Strip (LED — IP67)Fully coated, temporary-immersion resistant.
Strip (LED — IP68)Encapsulated for prolonged immersion.
Strip (LED — outdoor)IP65–IP68 protected for exterior use.
Strip (LED — RGB)Red, green, blue LEDs for dynamic colour.
Strip (LED — RGBW)RGB plus dedicated white for purer whites.
Strip (LED — tunable white)Warm and cool white LEDs for dynamic CCT.
Strip (LED)Flexible PCB tape with SMD LEDs at regular intervals, on reels.
Strip (rigid / light bar)Rigid LED assembly on an aluminium PCB.
Strip (side-emitting)Strip with LEDs emitting laterally for edge-lit applications.
Strip 0.5 W/mLED strip consuming 0.5 watts per linear metre.
Strip 1 W/mLED strip consuming 1 watts per linear metre.
Strip 1.5 W/mLED strip consuming 1.5 watts per linear metre.
Strip 10 W/mLED strip consuming 10 watts per linear metre.
Strip 10.5 W/mLED strip consuming 10.5 watts per linear metre.
Strip 11 W/mLED strip consuming 11 watts per linear metre.
Strip 11.5 W/mLED strip consuming 11.5 watts per linear metre.
Strip 12 W/mLED strip consuming 12 watts per linear metre.
Strip 12.5 W/mLED strip consuming 12.5 watts per linear metre.
Strip 13 W/mLED strip consuming 13 watts per linear metre.
Strip 13.5 W/mLED strip consuming 13.5 watts per linear metre.
Strip 14 W/mLED strip consuming 14 watts per linear metre.
Strip 14.5 W/mLED strip consuming 14.5 watts per linear metre.
Strip 15 W/mLED strip consuming 15 watts per linear metre.
Strip 15.5 W/mLED strip consuming 15.5 watts per linear metre.
Strip 16 W/mLED strip consuming 16 watts per linear metre.
Strip 16.5 W/mLED strip consuming 16.5 watts per linear metre.
Strip 17 W/mLED strip consuming 17 watts per linear metre.
Strip 17.5 W/mLED strip consuming 17.5 watts per linear metre.
Strip 18 W/mLED strip consuming 18 watts per linear metre.
Strip 18.5 W/mLED strip consuming 18.5 watts per linear metre.
Strip 19 W/mLED strip consuming 19 watts per linear metre.
Strip 19.5 W/mLED strip consuming 19.5 watts per linear metre.
Strip 2 W/mLED strip consuming 2 watts per linear metre.
Strip 2.5 W/mLED strip consuming 2.5 watts per linear metre.
Strip 20 W/mLED strip consuming 20 watts per linear metre.
Strip 20.5 W/mLED strip consuming 20.5 watts per linear metre.
Strip 21 W/mLED strip consuming 21 watts per linear metre.
Strip 21.5 W/mLED strip consuming 21.5 watts per linear metre.
Strip 22 W/mLED strip consuming 22 watts per linear metre.
Strip 22.5 W/mLED strip consuming 22.5 watts per linear metre.
Strip 23 W/mLED strip consuming 23 watts per linear metre.
Strip 23.5 W/mLED strip consuming 23.5 watts per linear metre.
Strip 24 W/mLED strip consuming 24 watts per linear metre.
Strip 24.5 W/mLED strip consuming 24.5 watts per linear metre.
Strip 25 W/mLED strip consuming 25 watts per linear metre.
Strip 25.5 W/mLED strip consuming 25.5 watts per linear metre.
Strip 26 W/mLED strip consuming 26 watts per linear metre.
Strip 26.5 W/mLED strip consuming 26.5 watts per linear metre.
Strip 27 W/mLED strip consuming 27 watts per linear metre.
Strip 27.5 W/mLED strip consuming 27.5 watts per linear metre.
Strip 28 W/mLED strip consuming 28 watts per linear metre.
Strip 28.5 W/mLED strip consuming 28.5 watts per linear metre.
Strip 29 W/mLED strip consuming 29 watts per linear metre.
Strip 29.5 W/mLED strip consuming 29.5 watts per linear metre.
Strip 3 W/mLED strip consuming 3 watts per linear metre.
Strip 3.5 W/mLED strip consuming 3.5 watts per linear metre.
Strip 30 W/mLED strip consuming 30 watts per linear metre.
Strip 4 W/mLED strip consuming 4 watts per linear metre.
Strip 4.5 W/mLED strip consuming 4.5 watts per linear metre.
Strip 5 W/mLED strip consuming 5 watts per linear metre.
Strip 5.5 W/mLED strip consuming 5.5 watts per linear metre.
Strip 6 W/mLED strip consuming 6 watts per linear metre.
Strip 6.5 W/mLED strip consuming 6.5 watts per linear metre.
Strip 7 W/mLED strip consuming 7 watts per linear metre.
Strip 7.5 W/mLED strip consuming 7.5 watts per linear metre.
Strip 8 W/mLED strip consuming 8 watts per linear metre.
Strip 8.5 W/mLED strip consuming 8.5 watts per linear metre.
Strip 9 W/mLED strip consuming 9 watts per linear metre.
Strip 9.5 W/mLED strip consuming 9.5 watts per linear metre.
Strip density 112 LED/mLED strip with 112 chips per linear metre.
Strip density 120 LED/mLED strip with 120 chips per linear metre.
Strip density 1200 LED/mLED strip with 1200 chips per linear metre.
Strip density 128 LED/mLED strip with 128 chips per linear metre.
Strip density 140 LED/mLED strip with 140 chips per linear metre.
Strip density 1500 LED/mLED strip with 1500 chips per linear metre.
Strip density 160 LED/mLED strip with 160 chips per linear metre.
Strip density 168 LED/mLED strip with 168 chips per linear metre.
Strip density 176 LED/mLED strip with 176 chips per linear metre.
Strip density 180 LED/mLED strip with 180 chips per linear metre.
Strip density 192 LED/mLED strip with 192 chips per linear metre.
Strip density 204 LED/mLED strip with 204 chips per linear metre.
Strip density 210 LED/mLED strip with 210 chips per linear metre.
Strip density 224 LED/mLED strip with 224 chips per linear metre.
Strip density 24 LED/mLED strip with 24 chips per linear metre.
Strip density 240 LED/mLED strip with 240 chips per linear metre.
Strip density 252 LED/mLED strip with 252 chips per linear metre.
Strip density 256 LED/mLED strip with 256 chips per linear metre.
Strip density 280 LED/mLED strip with 280 chips per linear metre.
Strip density 30 LED/mLED strip with 30 chips per linear metre.
Strip density 300 LED/mLED strip with 300 chips per linear metre.
Strip density 320 LED/mLED strip with 320 chips per linear metre.
Strip density 336 LED/mLED strip with 336 chips per linear metre.
Strip density 352 LED/mLED strip with 352 chips per linear metre.
Strip density 36 LED/mLED strip with 36 chips per linear metre.
Strip density 360 LED/mLED strip with 360 chips per linear metre.
Strip density 384 LED/mLED strip with 384 chips per linear metre.
Strip density 420 LED/mLED strip with 420 chips per linear metre.
Strip density 48 LED/mLED strip with 48 chips per linear metre.
Strip density 480 LED/mLED strip with 480 chips per linear metre.
Strip density 504 LED/mLED strip with 504 chips per linear metre.
Strip density 512 LED/mLED strip with 512 chips per linear metre.
Strip density 528 LED/mLED strip with 528 chips per linear metre.
Strip density 560 LED/mLED strip with 560 chips per linear metre.
Strip density 60 LED/mLED strip with 60 chips per linear metre.
Strip density 600 LED/mLED strip with 600 chips per linear metre.
Strip density 630 LED/mLED strip with 630 chips per linear metre.
Strip density 672 LED/mLED strip with 672 chips per linear metre.
Strip density 700 LED/mLED strip with 700 chips per linear metre.
Strip density 72 LED/mLED strip with 72 chips per linear metre.
Strip density 720 LED/mLED strip with 720 chips per linear metre.
Strip density 756 LED/mLED strip with 756 chips per linear metre.
Strip density 784 LED/mLED strip with 784 chips per linear metre.
Strip density 84 LED/mLED strip with 84 chips per linear metre.
Strip density 840 LED/mLED strip with 840 chips per linear metre.
Strip density 90 LED/mLED strip with 90 chips per linear metre.
Strip density 96 LED/mLED strip with 96 chips per linear metre.
Strip density 960 LED/mLED strip with 960 chips per linear metre.
Strip output 100 lm/mLED strip producing 100 lumens per linear metre.
Strip output 1000 lm/mLED strip producing 1000 lumens per linear metre.
Strip output 1050 lm/mLED strip producing 1050 lumens per linear metre.
Strip output 1100 lm/mLED strip producing 1100 lumens per linear metre.
Strip output 120 lm/mLED strip producing 120 lumens per linear metre.
Strip output 1200 lm/mLED strip producing 1200 lumens per linear metre.
Strip output 1300 lm/mLED strip producing 1300 lumens per linear metre.
Strip output 1400 lm/mLED strip producing 1400 lumens per linear metre.
Strip output 150 lm/mLED strip producing 150 lumens per linear metre.
Strip output 1500 lm/mLED strip producing 1500 lumens per linear metre.
Strip output 1600 lm/mLED strip producing 1600 lumens per linear metre.
Strip output 1700 lm/mLED strip producing 1700 lumens per linear metre.
Strip output 180 lm/mLED strip producing 180 lumens per linear metre.
Strip output 1800 lm/mLED strip producing 1800 lumens per linear metre.
Strip output 200 lm/mLED strip producing 200 lumens per linear metre.
Strip output 2000 lm/mLED strip producing 2000 lumens per linear metre.
Strip output 220 lm/mLED strip producing 220 lumens per linear metre.
Strip output 2200 lm/mLED strip producing 2200 lumens per linear metre.
Strip output 2400 lm/mLED strip producing 2400 lumens per linear metre.
Strip output 250 lm/mLED strip producing 250 lumens per linear metre.
Strip output 2500 lm/mLED strip producing 2500 lumens per linear metre.
Strip output 2700 lm/mLED strip producing 2700 lumens per linear metre.
Strip output 280 lm/mLED strip producing 280 lumens per linear metre.
Strip output 300 lm/mLED strip producing 300 lumens per linear metre.
Strip output 3000 lm/mLED strip producing 3000 lumens per linear metre.
Strip output 320 lm/mLED strip producing 320 lumens per linear metre.
Strip output 350 lm/mLED strip producing 350 lumens per linear metre.
Strip output 3500 lm/mLED strip producing 3500 lumens per linear metre.
Strip output 400 lm/mLED strip producing 400 lumens per linear metre.
Strip output 4000 lm/mLED strip producing 4000 lumens per linear metre.
Strip output 450 lm/mLED strip producing 450 lumens per linear metre.
Strip output 4500 lm/mLED strip producing 4500 lumens per linear metre.
Strip output 50 lm/mLED strip producing 50 lumens per linear metre.
Strip output 500 lm/mLED strip producing 500 lumens per linear metre.
Strip output 5000 lm/mLED strip producing 5000 lumens per linear metre.
Strip output 550 lm/mLED strip producing 550 lumens per linear metre.
Strip output 600 lm/mLED strip producing 600 lumens per linear metre.
Strip output 650 lm/mLED strip producing 650 lumens per linear metre.
Strip output 700 lm/mLED strip producing 700 lumens per linear metre.
Strip output 750 lm/mLED strip producing 750 lumens per linear metre.
Strip output 80 lm/mLED strip producing 80 lumens per linear metre.
Strip output 800 lm/mLED strip producing 800 lumens per linear metre.
Strip output 850 lm/mLED strip producing 850 lumens per linear metre.
Strip output 900 lm/mLED strip producing 900 lumens per linear metre.
Strip output 950 lm/mLED strip producing 950 lumens per linear metre.
Strip power 1 W/mLED strip consuming 1 watts per linear metre.
Strip power 10 W/mLED strip consuming 10 watts per linear metre.
Strip power 11 W/mLED strip consuming 11 watts per linear metre.
Strip power 12 W/mLED strip consuming 12 watts per linear metre.
Strip power 13 W/mLED strip consuming 13 watts per linear metre.
Strip power 14 W/mLED strip consuming 14 watts per linear metre.
Strip power 15 W/mLED strip consuming 15 watts per linear metre.
Strip power 16 W/mLED strip consuming 16 watts per linear metre.
Strip power 17 W/mLED strip consuming 17 watts per linear metre.
Strip power 18 W/mLED strip consuming 18 watts per linear metre.
Strip power 19 W/mLED strip consuming 19 watts per linear metre.
Strip power 2 W/mLED strip consuming 2 watts per linear metre.
Strip power 20 W/mLED strip consuming 20 watts per linear metre.
Strip power 21 W/mLED strip consuming 21 watts per linear metre.
Strip power 22 W/mLED strip consuming 22 watts per linear metre.
Strip power 23 W/mLED strip consuming 23 watts per linear metre.
Strip power 24 W/mLED strip consuming 24 watts per linear metre.
Strip power 25 W/mLED strip consuming 25 watts per linear metre.
Strip power 26 W/mLED strip consuming 26 watts per linear metre.
Strip power 27 W/mLED strip consuming 27 watts per linear metre.
Strip power 28 W/mLED strip consuming 28 watts per linear metre.
Strip power 29 W/mLED strip consuming 29 watts per linear metre.
Strip power 3 W/mLED strip consuming 3 watts per linear metre.
Strip power 30 W/mLED strip consuming 30 watts per linear metre.
Strip power 4 W/mLED strip consuming 4 watts per linear metre.
Strip power 5 W/mLED strip consuming 5 watts per linear metre.
Strip power 6 W/mLED strip consuming 6 watts per linear metre.
Strip power 7 W/mLED strip consuming 7 watts per linear metre.
Strip power 8 W/mLED strip consuming 8 watts per linear metre.
Strip power 9 W/mLED strip consuming 9 watts per linear metre.
Strip voltage 12 V DCLED strip operating at 12 volts direct current.
Strip voltage 15 V DCLED strip operating at 15 volts direct current.
Strip voltage 24 V DCLED strip operating at 24 volts direct current.
Strip voltage 36 V DCLED strip operating at 36 volts direct current.
Strip voltage 48 V DCLED strip operating at 48 volts direct current.
Strip voltage 5 V DCLED strip operating at 5 volts direct current.
Strip voltage 60 V DCLED strip operating at 60 volts direct current.
Strip voltage 9 V DCLED strip operating at 9 volts direct current.
Strip widthTransverse dimension (5, 8, 10 or 12 mm).
Strip width 10 mmFlexible LED strip PCB with a 10 mm width.
Strip width 12 mmFlexible LED strip PCB with a 12 mm width.
Strip width 14 mmFlexible LED strip PCB with a 14 mm width.
Strip width 15 mmFlexible LED strip PCB with a 15 mm width.
Strip width 16 mmFlexible LED strip PCB with a 16 mm width.
Strip width 20 mmFlexible LED strip PCB with a 20 mm width.
Strip width 24 mmFlexible LED strip PCB with a 24 mm width.
Strip width 28 mmFlexible LED strip PCB with a 28 mm width.
Strip width 3 mmFlexible LED strip PCB with a 3 mm width.
Strip width 30 mmFlexible LED strip PCB with a 30 mm width.
Strip width 4 mmFlexible LED strip PCB with a 4 mm width.
Strip width 5 mmFlexible LED strip PCB with a 5 mm width.
Strip width 6 mmFlexible LED strip PCB with a 6 mm width.
Strip width 7 mmFlexible LED strip PCB with a 7 mm width.
Strip width 8 mmFlexible LED strip PCB with a 8 mm width.
SubstrateBase material (sapphire, GaN, SiC) on which the LED crystal is grown.
Substrate (ceramic)Alumina base for high-power LEDs with excellent thermal performance.
Substrate (silicon)Silicon base used in some cost-effective LED die structures.
Surface reflectance asphalt 7pctApproximate reflectance of 7% for asphalt surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance brick wall 25pctApproximate reflectance of 25% for brick wall surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance carpet dark 10pctApproximate reflectance of 10% for carpet dark surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance carpet light 30pctApproximate reflectance of 30% for carpet light surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance concrete floor 30pctApproximate reflectance of 30% for concrete floor surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance dark floor 10pctApproximate reflectance of 10% for dark floor surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance dark wall 15pctApproximate reflectance of 15% for dark wall surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance glass wall 10pctApproximate reflectance of 10% for glass wall surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance grass 20pctApproximate reflectance of 20% for grass surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance light floor 40pctApproximate reflectance of 40% for light floor surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance light wall 50pctApproximate reflectance of 50% for light wall surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance off-white ceiling 75pctApproximate reflectance of 75% for off-white ceiling surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance slate 8pctApproximate reflectance of 8% for slate surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance snow 80pctApproximate reflectance of 80% for snow surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance timber panel 30pctApproximate reflectance of 30% for timber panel surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance white ceiling 85pctApproximate reflectance of 85% for white ceiling surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surface reflectance white tile 60pctApproximate reflectance of 60% for white tile surfaces. This value is used in lumen-method and ray-tracing lighting calculations to determine inter-reflected light contributions in the room.
Surge protectionDevice clamping transient mains voltage spikes.
Surge protector (SPD)Surge-protective device installed in the electrical panel.
Suspension cableSteel wire hanging LED profiles from the ceiling.
Switching frequencyDriver internal switching rate, typically 50–200 kHz.
System efficacy 100 lm/WLED installation achieving 100 lumens per watt overall system efficacy.
System efficacy 101 lm/WLED installation achieving 101 lumens per watt overall system efficacy.
System efficacy 102 lm/WLED installation achieving 102 lumens per watt overall system efficacy.
System efficacy 103 lm/WLED installation achieving 103 lumens per watt overall system efficacy.
System efficacy 104 lm/WLED installation achieving 104 lumens per watt overall system efficacy.
System efficacy 105 lm/WLED installation achieving 105 lumens per watt overall system efficacy.
System efficacy 106 lm/WLED installation achieving 106 lumens per watt overall system efficacy.
System efficacy 107 lm/WLED installation achieving 107 lumens per watt overall system efficacy.
System efficacy 108 lm/WLED installation achieving 108 lumens per watt overall system efficacy.
System efficacy 109 lm/WLED installation achieving 109 lumens per watt overall system efficacy.
System efficacy 110 lm/WLED installation achieving 110 lumens per watt overall system efficacy.
System efficacy 111 lm/WLED installation achieving 111 lumens per watt overall system efficacy.
System efficacy 112 lm/WLED installation achieving 112 lumens per watt overall system efficacy.
System efficacy 113 lm/WLED installation achieving 113 lumens per watt overall system efficacy.
System efficacy 114 lm/WLED installation achieving 114 lumens per watt overall system efficacy.
System efficacy 115 lm/WLED installation achieving 115 lumens per watt overall system efficacy.
System efficacy 116 lm/WLED installation achieving 116 lumens per watt overall system efficacy.
System efficacy 117 lm/WLED installation achieving 117 lumens per watt overall system efficacy.
System efficacy 118 lm/WLED installation achieving 118 lumens per watt overall system efficacy.
System efficacy 119 lm/WLED installation achieving 119 lumens per watt overall system efficacy.
System efficacy 120 lm/WLED installation achieving 120 lumens per watt overall system efficacy.
System efficacy 121 lm/WLED installation achieving 121 lumens per watt overall system efficacy.
System efficacy 122 lm/WLED installation achieving 122 lumens per watt overall system efficacy.
System efficacy 123 lm/WLED installation achieving 123 lumens per watt overall system efficacy.
System efficacy 124 lm/WLED installation achieving 124 lumens per watt overall system efficacy.
System efficacy 125 lm/WLED installation achieving 125 lumens per watt overall system efficacy.
System efficacy 126 lm/WLED installation achieving 126 lumens per watt overall system efficacy.
System efficacy 127 lm/WLED installation achieving 127 lumens per watt overall system efficacy.
System efficacy 128 lm/WLED installation achieving 128 lumens per watt overall system efficacy.
System efficacy 129 lm/WLED installation achieving 129 lumens per watt overall system efficacy.
System efficacy 130 lm/WLED installation achieving 130 lumens per watt overall system efficacy.
System efficacy 131 lm/WLED installation achieving 131 lumens per watt overall system efficacy.
System efficacy 132 lm/WLED installation achieving 132 lumens per watt overall system efficacy.
System efficacy 133 lm/WLED installation achieving 133 lumens per watt overall system efficacy.
System efficacy 134 lm/WLED installation achieving 134 lumens per watt overall system efficacy.
System efficacy 135 lm/WLED installation achieving 135 lumens per watt overall system efficacy.
System efficacy 136 lm/WLED installation achieving 136 lumens per watt overall system efficacy.
System efficacy 137 lm/WLED installation achieving 137 lumens per watt overall system efficacy.
System efficacy 138 lm/WLED installation achieving 138 lumens per watt overall system efficacy.
System efficacy 139 lm/WLED installation achieving 139 lumens per watt overall system efficacy.
System efficacy 140 lm/WLED installation achieving 140 lumens per watt overall system efficacy.
System efficacy 141 lm/WLED installation achieving 141 lumens per watt overall system efficacy.
System efficacy 142 lm/WLED installation achieving 142 lumens per watt overall system efficacy.
System efficacy 143 lm/WLED installation achieving 143 lumens per watt overall system efficacy.
System efficacy 144 lm/WLED installation achieving 144 lumens per watt overall system efficacy.
System efficacy 145 lm/WLED installation achieving 145 lumens per watt overall system efficacy.
System efficacy 146 lm/WLED installation achieving 146 lumens per watt overall system efficacy.
System efficacy 147 lm/WLED installation achieving 147 lumens per watt overall system efficacy.
System efficacy 148 lm/WLED installation achieving 148 lumens per watt overall system efficacy.
System efficacy 149 lm/WLED installation achieving 149 lumens per watt overall system efficacy.
System efficacy 150 lm/WLED installation achieving 150 lumens per watt overall system efficacy.
System efficacy 151 lm/WLED installation achieving 151 lumens per watt overall system efficacy.
System efficacy 152 lm/WLED installation achieving 152 lumens per watt overall system efficacy.
System efficacy 153 lm/WLED installation achieving 153 lumens per watt overall system efficacy.
System efficacy 154 lm/WLED installation achieving 154 lumens per watt overall system efficacy.
System efficacy 155 lm/WLED installation achieving 155 lumens per watt overall system efficacy.
System efficacy 156 lm/WLED installation achieving 156 lumens per watt overall system efficacy.
System efficacy 157 lm/WLED installation achieving 157 lumens per watt overall system efficacy.
System efficacy 158 lm/WLED installation achieving 158 lumens per watt overall system efficacy.
System efficacy 159 lm/WLED installation achieving 159 lumens per watt overall system efficacy.
System efficacy 160 lm/WLED installation achieving 160 lumens per watt overall system efficacy.
System efficacy 161 lm/WLED installation achieving 161 lumens per watt overall system efficacy.
System efficacy 162 lm/WLED installation achieving 162 lumens per watt overall system efficacy.
System efficacy 163 lm/WLED installation achieving 163 lumens per watt overall system efficacy.
System efficacy 164 lm/WLED installation achieving 164 lumens per watt overall system efficacy.
System efficacy 165 lm/WLED installation achieving 165 lumens per watt overall system efficacy.
System efficacy 166 lm/WLED installation achieving 166 lumens per watt overall system efficacy.
System efficacy 167 lm/WLED installation achieving 167 lumens per watt overall system efficacy.
System efficacy 168 lm/WLED installation achieving 168 lumens per watt overall system efficacy.
System efficacy 169 lm/WLED installation achieving 169 lumens per watt overall system efficacy.
System efficacy 170 lm/WLED installation achieving 170 lumens per watt overall system efficacy.
System efficacy 171 lm/WLED installation achieving 171 lumens per watt overall system efficacy.
System efficacy 172 lm/WLED installation achieving 172 lumens per watt overall system efficacy.
System efficacy 173 lm/WLED installation achieving 173 lumens per watt overall system efficacy.
System efficacy 174 lm/WLED installation achieving 174 lumens per watt overall system efficacy.
System efficacy 175 lm/WLED installation achieving 175 lumens per watt overall system efficacy.
System efficacy 176 lm/WLED installation achieving 176 lumens per watt overall system efficacy.
System efficacy 177 lm/WLED installation achieving 177 lumens per watt overall system efficacy.
System efficacy 178 lm/WLED installation achieving 178 lumens per watt overall system efficacy.
System efficacy 179 lm/WLED installation achieving 179 lumens per watt overall system efficacy.
System efficacy 180 lm/WLED installation achieving 180 lumens per watt overall system efficacy.
System efficacy 181 lm/WLED installation achieving 181 lumens per watt overall system efficacy.
System efficacy 182 lm/WLED installation achieving 182 lumens per watt overall system efficacy.
System efficacy 183 lm/WLED installation achieving 183 lumens per watt overall system efficacy.
System efficacy 184 lm/WLED installation achieving 184 lumens per watt overall system efficacy.
System efficacy 185 lm/WLED installation achieving 185 lumens per watt overall system efficacy.
System efficacy 186 lm/WLED installation achieving 186 lumens per watt overall system efficacy.
System efficacy 187 lm/WLED installation achieving 187 lumens per watt overall system efficacy.
System efficacy 188 lm/WLED installation achieving 188 lumens per watt overall system efficacy.
System efficacy 189 lm/WLED installation achieving 189 lumens per watt overall system efficacy.
System efficacy 190 lm/WLED installation achieving 190 lumens per watt overall system efficacy.
System efficacy 191 lm/WLED installation achieving 191 lumens per watt overall system efficacy.
System efficacy 192 lm/WLED installation achieving 192 lumens per watt overall system efficacy.
System efficacy 193 lm/WLED installation achieving 193 lumens per watt overall system efficacy.
System efficacy 194 lm/WLED installation achieving 194 lumens per watt overall system efficacy.
System efficacy 195 lm/WLED installation achieving 195 lumens per watt overall system efficacy.
System efficacy 196 lm/WLED installation achieving 196 lumens per watt overall system efficacy.
System efficacy 197 lm/WLED installation achieving 197 lumens per watt overall system efficacy.
System efficacy 198 lm/WLED installation achieving 198 lumens per watt overall system efficacy.
System efficacy 199 lm/WLED installation achieving 199 lumens per watt overall system efficacy.
System efficacy 200 lm/WLED installation achieving 200 lumens per watt overall system efficacy.
System efficacy 201 lm/WLED installation achieving 201 lumens per watt overall system efficacy.
System efficacy 202 lm/WLED installation achieving 202 lumens per watt overall system efficacy.
System efficacy 203 lm/WLED installation achieving 203 lumens per watt overall system efficacy.
System efficacy 204 lm/WLED installation achieving 204 lumens per watt overall system efficacy.
System efficacy 205 lm/WLED installation achieving 205 lumens per watt overall system efficacy.
System efficacy 206 lm/WLED installation achieving 206 lumens per watt overall system efficacy.
System efficacy 207 lm/WLED installation achieving 207 lumens per watt overall system efficacy.
System efficacy 208 lm/WLED installation achieving 208 lumens per watt overall system efficacy.
System efficacy 209 lm/WLED installation achieving 209 lumens per watt overall system efficacy.
System efficacy 210 lm/WLED installation achieving 210 lumens per watt overall system efficacy.
System efficacy 211 lm/WLED installation achieving 211 lumens per watt overall system efficacy.
System efficacy 212 lm/WLED installation achieving 212 lumens per watt overall system efficacy.
System efficacy 213 lm/WLED installation achieving 213 lumens per watt overall system efficacy.
System efficacy 214 lm/WLED installation achieving 214 lumens per watt overall system efficacy.
System efficacy 215 lm/WLED installation achieving 215 lumens per watt overall system efficacy.
System efficacy 216 lm/WLED installation achieving 216 lumens per watt overall system efficacy.
System efficacy 217 lm/WLED installation achieving 217 lumens per watt overall system efficacy.
System efficacy 218 lm/WLED installation achieving 218 lumens per watt overall system efficacy.
System efficacy 219 lm/WLED installation achieving 219 lumens per watt overall system efficacy.
System efficacy 220 lm/WLED installation achieving 220 lumens per watt overall system efficacy.
System efficacy 221 lm/WLED installation achieving 221 lumens per watt overall system efficacy.
System efficacy 222 lm/WLED installation achieving 222 lumens per watt overall system efficacy.
System efficacy 223 lm/WLED installation achieving 223 lumens per watt overall system efficacy.
System efficacy 224 lm/WLED installation achieving 224 lumens per watt overall system efficacy.
System efficacy 225 lm/WLED installation achieving 225 lumens per watt overall system efficacy.
System efficacy 226 lm/WLED installation achieving 226 lumens per watt overall system efficacy.
System efficacy 227 lm/WLED installation achieving 227 lumens per watt overall system efficacy.
System efficacy 228 lm/WLED installation achieving 228 lumens per watt overall system efficacy.
System efficacy 229 lm/WLED installation achieving 229 lumens per watt overall system efficacy.
System efficacy 230 lm/WLED installation achieving 230 lumens per watt overall system efficacy.
System efficacy 231 lm/WLED installation achieving 231 lumens per watt overall system efficacy.
System efficacy 232 lm/WLED installation achieving 232 lumens per watt overall system efficacy.
System efficacy 233 lm/WLED installation achieving 233 lumens per watt overall system efficacy.
System efficacy 234 lm/WLED installation achieving 234 lumens per watt overall system efficacy.
System efficacy 235 lm/WLED installation achieving 235 lumens per watt overall system efficacy.
System efficacy 236 lm/WLED installation achieving 236 lumens per watt overall system efficacy.
System efficacy 237 lm/WLED installation achieving 237 lumens per watt overall system efficacy.
System efficacy 238 lm/WLED installation achieving 238 lumens per watt overall system efficacy.
System efficacy 239 lm/WLED installation achieving 239 lumens per watt overall system efficacy.
System efficacy 240 lm/WLED installation achieving 240 lumens per watt overall system efficacy.
System efficacy 241 lm/WLED installation achieving 241 lumens per watt overall system efficacy.
System efficacy 242 lm/WLED installation achieving 242 lumens per watt overall system efficacy.
System efficacy 243 lm/WLED installation achieving 243 lumens per watt overall system efficacy.
System efficacy 244 lm/WLED installation achieving 244 lumens per watt overall system efficacy.
System efficacy 245 lm/WLED installation achieving 245 lumens per watt overall system efficacy.
System efficacy 246 lm/WLED installation achieving 246 lumens per watt overall system efficacy.
System efficacy 247 lm/WLED installation achieving 247 lumens per watt overall system efficacy.
System efficacy 248 lm/WLED installation achieving 248 lumens per watt overall system efficacy.
System efficacy 249 lm/WLED installation achieving 249 lumens per watt overall system efficacy.
System efficacy 250 lm/WLED installation achieving 250 lumens per watt overall system efficacy.
System efficacy 251 lm/WLED installation achieving 251 lumens per watt overall system efficacy.
System efficacy 252 lm/WLED installation achieving 252 lumens per watt overall system efficacy.
System efficacy 253 lm/WLED installation achieving 253 lumens per watt overall system efficacy.
System efficacy 254 lm/WLED installation achieving 254 lumens per watt overall system efficacy.
System efficacy 255 lm/WLED installation achieving 255 lumens per watt overall system efficacy.
System efficacy 256 lm/WLED installation achieving 256 lumens per watt overall system efficacy.
System efficacy 257 lm/WLED installation achieving 257 lumens per watt overall system efficacy.
System efficacy 258 lm/WLED installation achieving 258 lumens per watt overall system efficacy.
System efficacy 259 lm/WLED installation achieving 259 lumens per watt overall system efficacy.
System efficacy 260 lm/WLED installation achieving 260 lumens per watt overall system efficacy.
System efficacy 261 lm/WLED installation achieving 261 lumens per watt overall system efficacy.
System efficacy 262 lm/WLED installation achieving 262 lumens per watt overall system efficacy.
System efficacy 263 lm/WLED installation achieving 263 lumens per watt overall system efficacy.
System efficacy 264 lm/WLED installation achieving 264 lumens per watt overall system efficacy.
System efficacy 265 lm/WLED installation achieving 265 lumens per watt overall system efficacy.
System efficacy 266 lm/WLED installation achieving 266 lumens per watt overall system efficacy.
System efficacy 267 lm/WLED installation achieving 267 lumens per watt overall system efficacy.
System efficacy 268 lm/WLED installation achieving 268 lumens per watt overall system efficacy.
System efficacy 269 lm/WLED installation achieving 269 lumens per watt overall system efficacy.
System efficacy 270 lm/WLED installation achieving 270 lumens per watt overall system efficacy.
System efficacy 271 lm/WLED installation achieving 271 lumens per watt overall system efficacy.
System efficacy 272 lm/WLED installation achieving 272 lumens per watt overall system efficacy.
System efficacy 273 lm/WLED installation achieving 273 lumens per watt overall system efficacy.
System efficacy 274 lm/WLED installation achieving 274 lumens per watt overall system efficacy.
System efficacy 275 lm/WLED installation achieving 275 lumens per watt overall system efficacy.
System efficacy 276 lm/WLED installation achieving 276 lumens per watt overall system efficacy.
System efficacy 277 lm/WLED installation achieving 277 lumens per watt overall system efficacy.
System efficacy 278 lm/WLED installation achieving 278 lumens per watt overall system efficacy.
System efficacy 279 lm/WLED installation achieving 279 lumens per watt overall system efficacy.
System efficacy 280 lm/WLED installation achieving 280 lumens per watt overall system efficacy.
System efficacy 281 lm/WLED installation achieving 281 lumens per watt overall system efficacy.
System efficacy 282 lm/WLED installation achieving 282 lumens per watt overall system efficacy.
System efficacy 283 lm/WLED installation achieving 283 lumens per watt overall system efficacy.
System efficacy 284 lm/WLED installation achieving 284 lumens per watt overall system efficacy.
System efficacy 285 lm/WLED installation achieving 285 lumens per watt overall system efficacy.
System efficacy 286 lm/WLED installation achieving 286 lumens per watt overall system efficacy.
System efficacy 287 lm/WLED installation achieving 287 lumens per watt overall system efficacy.
System efficacy 288 lm/WLED installation achieving 288 lumens per watt overall system efficacy.
System efficacy 289 lm/WLED installation achieving 289 lumens per watt overall system efficacy.
System efficacy 290 lm/WLED installation achieving 290 lumens per watt overall system efficacy.
System efficacy 291 lm/WLED installation achieving 291 lumens per watt overall system efficacy.
System efficacy 292 lm/WLED installation achieving 292 lumens per watt overall system efficacy.
System efficacy 293 lm/WLED installation achieving 293 lumens per watt overall system efficacy.
System efficacy 294 lm/WLED installation achieving 294 lumens per watt overall system efficacy.
System efficacy 295 lm/WLED installation achieving 295 lumens per watt overall system efficacy.
System efficacy 296 lm/WLED installation achieving 296 lumens per watt overall system efficacy.
System efficacy 297 lm/WLED installation achieving 297 lumens per watt overall system efficacy.
System efficacy 298 lm/WLED installation achieving 298 lumens per watt overall system efficacy.
System efficacy 299 lm/WLED installation achieving 299 lumens per watt overall system efficacy.
System efficacy 30 lm/WLED installation achieving 30 lumens per watt overall system efficacy.
System efficacy 300 lm/WLED installation achieving 300 lumens per watt overall system efficacy.
System efficacy 31 lm/WLED installation achieving 31 lumens per watt overall system efficacy.
System efficacy 32 lm/WLED installation achieving 32 lumens per watt overall system efficacy.
System efficacy 33 lm/WLED installation achieving 33 lumens per watt overall system efficacy.
System efficacy 34 lm/WLED installation achieving 34 lumens per watt overall system efficacy.
System efficacy 35 lm/WLED installation achieving 35 lumens per watt overall system efficacy.
System efficacy 36 lm/WLED installation achieving 36 lumens per watt overall system efficacy.
System efficacy 37 lm/WLED installation achieving 37 lumens per watt overall system efficacy.
System efficacy 38 lm/WLED installation achieving 38 lumens per watt overall system efficacy.
System efficacy 39 lm/WLED installation achieving 39 lumens per watt overall system efficacy.
System efficacy 40 lm/WLED installation achieving 40 lumens per watt overall system efficacy.
System efficacy 41 lm/WLED installation achieving 41 lumens per watt overall system efficacy.
System efficacy 42 lm/WLED installation achieving 42 lumens per watt overall system efficacy.
System efficacy 43 lm/WLED installation achieving 43 lumens per watt overall system efficacy.
System efficacy 44 lm/WLED installation achieving 44 lumens per watt overall system efficacy.
System efficacy 45 lm/WLED installation achieving 45 lumens per watt overall system efficacy.
System efficacy 46 lm/WLED installation achieving 46 lumens per watt overall system efficacy.
System efficacy 47 lm/WLED installation achieving 47 lumens per watt overall system efficacy.
System efficacy 48 lm/WLED installation achieving 48 lumens per watt overall system efficacy.
System efficacy 49 lm/WLED installation achieving 49 lumens per watt overall system efficacy.
System efficacy 50 lm/WLED installation achieving 50 lumens per watt overall system efficacy.
System efficacy 51 lm/WLED installation achieving 51 lumens per watt overall system efficacy.
System efficacy 52 lm/WLED installation achieving 52 lumens per watt overall system efficacy.
System efficacy 53 lm/WLED installation achieving 53 lumens per watt overall system efficacy.
System efficacy 54 lm/WLED installation achieving 54 lumens per watt overall system efficacy.
System efficacy 55 lm/WLED installation achieving 55 lumens per watt overall system efficacy.
System efficacy 56 lm/WLED installation achieving 56 lumens per watt overall system efficacy.
System efficacy 57 lm/WLED installation achieving 57 lumens per watt overall system efficacy.
System efficacy 58 lm/WLED installation achieving 58 lumens per watt overall system efficacy.
System efficacy 59 lm/WLED installation achieving 59 lumens per watt overall system efficacy.
System efficacy 60 lm/WLED installation achieving 60 lumens per watt overall system efficacy.
System efficacy 61 lm/WLED installation achieving 61 lumens per watt overall system efficacy.
System efficacy 62 lm/WLED installation achieving 62 lumens per watt overall system efficacy.
System efficacy 63 lm/WLED installation achieving 63 lumens per watt overall system efficacy.
System efficacy 64 lm/WLED installation achieving 64 lumens per watt overall system efficacy.
System efficacy 65 lm/WLED installation achieving 65 lumens per watt overall system efficacy.
System efficacy 66 lm/WLED installation achieving 66 lumens per watt overall system efficacy.
System efficacy 67 lm/WLED installation achieving 67 lumens per watt overall system efficacy.
System efficacy 68 lm/WLED installation achieving 68 lumens per watt overall system efficacy.
System efficacy 69 lm/WLED installation achieving 69 lumens per watt overall system efficacy.
System efficacy 70 lm/WLED installation achieving 70 lumens per watt overall system efficacy.
System efficacy 71 lm/WLED installation achieving 71 lumens per watt overall system efficacy.
System efficacy 72 lm/WLED installation achieving 72 lumens per watt overall system efficacy.
System efficacy 73 lm/WLED installation achieving 73 lumens per watt overall system efficacy.
System efficacy 74 lm/WLED installation achieving 74 lumens per watt overall system efficacy.
System efficacy 75 lm/WLED installation achieving 75 lumens per watt overall system efficacy.
System efficacy 76 lm/WLED installation achieving 76 lumens per watt overall system efficacy.
System efficacy 77 lm/WLED installation achieving 77 lumens per watt overall system efficacy.
System efficacy 78 lm/WLED installation achieving 78 lumens per watt overall system efficacy.
System efficacy 79 lm/WLED installation achieving 79 lumens per watt overall system efficacy.
System efficacy 80 lm/WLED installation achieving 80 lumens per watt overall system efficacy.
System efficacy 81 lm/WLED installation achieving 81 lumens per watt overall system efficacy.
System efficacy 82 lm/WLED installation achieving 82 lumens per watt overall system efficacy.
System efficacy 83 lm/WLED installation achieving 83 lumens per watt overall system efficacy.
System efficacy 84 lm/WLED installation achieving 84 lumens per watt overall system efficacy.
System efficacy 85 lm/WLED installation achieving 85 lumens per watt overall system efficacy.
System efficacy 86 lm/WLED installation achieving 86 lumens per watt overall system efficacy.
System efficacy 87 lm/WLED installation achieving 87 lumens per watt overall system efficacy.
System efficacy 88 lm/WLED installation achieving 88 lumens per watt overall system efficacy.
System efficacy 89 lm/WLED installation achieving 89 lumens per watt overall system efficacy.
System efficacy 90 lm/WLED installation achieving 90 lumens per watt overall system efficacy.
System efficacy 91 lm/WLED installation achieving 91 lumens per watt overall system efficacy.
System efficacy 92 lm/WLED installation achieving 92 lumens per watt overall system efficacy.
System efficacy 93 lm/WLED installation achieving 93 lumens per watt overall system efficacy.
System efficacy 94 lm/WLED installation achieving 94 lumens per watt overall system efficacy.
System efficacy 95 lm/WLED installation achieving 95 lumens per watt overall system efficacy.
System efficacy 96 lm/WLED installation achieving 96 lumens per watt overall system efficacy.
System efficacy 97 lm/WLED installation achieving 97 lumens per watt overall system efficacy.
System efficacy 98 lm/WLED installation achieving 98 lumens per watt overall system efficacy.
System efficacy 99 lm/WLED installation achieving 99 lumens per watt overall system efficacy.

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T

T5 / T8 (tube format)Fluorescent-tube diameters now replicated by LED tube replacements.
Tape (thermal)Thermally conductive adhesive tape for strip-to-profile heat transfer.
Task lightingFocused light on work surfaces meeting required lux.
Temperature (ambient / Ta)Surrounding air temperature affecting LED performance.
Temperature (case / Tc)Temperature measured on the LED package case.
Temperature (colour / CCT)White-light hue in kelvins.
Temperature (junction / Tj)LED die temperature at the p-n junction.
Temperature (storage)Safe temperature range for storing components.
Terminal blockMulti-way connector for joining power and signal cables at a junction.
Test (burn-in)Initial operation to stabilise LED performance.
Test (dielectric / hipot)High-voltage withstand test verifying insulation integrity.
Test (photometric)Measurement of luminaire flux, efficacy and distribution.
Test (salt spray)Accelerated corrosion test for outdoor finishes (ISO 9227).
Test (thermal cycling)Repeated heating and cooling to assess long-term reliability.
Test (vibration)Mechanical test simulating transport or operational vibrations.
THD (Total Harmonic Distortion)Measure of current-waveform distortion drawn by the driver.
Thermal compoundPaste or pad improving thermal contact between LED strip and profile.
Thermal deratingReduction of allowable power as ambient temperature increases.
Thermal interface material (TIM)Pad or paste improving strip-to-profile heat transfer.
Thermal managementStrategies keeping LED temperature within safe limits.
Thermal padConductive cushion between strip and profile for heat transfer.
Thermal pasteConductive compound applied between strip and profile.
Thermal rating 100x10mm profileAluminium LED profile 100x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 100x15mm profileAluminium LED profile 100x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 100x20mm profileAluminium LED profile 100x20mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 100x25mm profileAluminium LED profile 100x25mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 100x30mm profileAluminium LED profile 100x30mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 100x40mm profileAluminium LED profile 100x40mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 100x50mm profileAluminium LED profile 100x50mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 100x7mm profileAluminium LED profile 100x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 120x10mm profileAluminium LED profile 120x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 120x15mm profileAluminium LED profile 120x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 120x20mm profileAluminium LED profile 120x20mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 120x25mm profileAluminium LED profile 120x25mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 120x30mm profileAluminium LED profile 120x30mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 120x40mm profileAluminium LED profile 120x40mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 120x50mm profileAluminium LED profile 120x50mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 120x7mm profileAluminium LED profile 120x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 150x10mm profileAluminium LED profile 150x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 150x15mm profileAluminium LED profile 150x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 150x20mm profileAluminium LED profile 150x20mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 150x25mm profileAluminium LED profile 150x25mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 150x30mm profileAluminium LED profile 150x30mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 150x40mm profileAluminium LED profile 150x40mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 150x50mm profileAluminium LED profile 150x50mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 150x7mm profileAluminium LED profile 150x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 15x10mm profileAluminium LED profile 15x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 15x15mm profileAluminium LED profile 15x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 15x7mm profileAluminium LED profile 15x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 20x10mm profileAluminium LED profile 20x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 20x15mm profileAluminium LED profile 20x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 20x20mm profileAluminium LED profile 20x20mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 20x7mm profileAluminium LED profile 20x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 25x10mm profileAluminium LED profile 25x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 25x15mm profileAluminium LED profile 25x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 25x20mm profileAluminium LED profile 25x20mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 25x25mm profileAluminium LED profile 25x25mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 25x7mm profileAluminium LED profile 25x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 30x10mm profileAluminium LED profile 30x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 30x15mm profileAluminium LED profile 30x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 30x20mm profileAluminium LED profile 30x20mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 30x25mm profileAluminium LED profile 30x25mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 30x30mm profileAluminium LED profile 30x30mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 30x7mm profileAluminium LED profile 30x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 35x10mm profileAluminium LED profile 35x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 35x15mm profileAluminium LED profile 35x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 35x20mm profileAluminium LED profile 35x20mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 35x25mm profileAluminium LED profile 35x25mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 35x30mm profileAluminium LED profile 35x30mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 35x7mm profileAluminium LED profile 35x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 40x10mm profileAluminium LED profile 40x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 40x15mm profileAluminium LED profile 40x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 40x20mm profileAluminium LED profile 40x20mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 40x25mm profileAluminium LED profile 40x25mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 40x30mm profileAluminium LED profile 40x30mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 40x40mm profileAluminium LED profile 40x40mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 40x7mm profileAluminium LED profile 40x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 50x10mm profileAluminium LED profile 50x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 50x15mm profileAluminium LED profile 50x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 50x20mm profileAluminium LED profile 50x20mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 50x25mm profileAluminium LED profile 50x25mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 50x30mm profileAluminium LED profile 50x30mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 50x40mm profileAluminium LED profile 50x40mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 50x50mm profileAluminium LED profile 50x50mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 50x7mm profileAluminium LED profile 50x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 60x10mm profileAluminium LED profile 60x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 60x15mm profileAluminium LED profile 60x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 60x20mm profileAluminium LED profile 60x20mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 60x25mm profileAluminium LED profile 60x25mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 60x30mm profileAluminium LED profile 60x30mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 60x40mm profileAluminium LED profile 60x40mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 60x50mm profileAluminium LED profile 60x50mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 60x7mm profileAluminium LED profile 60x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 70x10mm profileAluminium LED profile 70x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 70x15mm profileAluminium LED profile 70x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 70x20mm profileAluminium LED profile 70x20mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 70x25mm profileAluminium LED profile 70x25mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 70x30mm profileAluminium LED profile 70x30mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 70x40mm profileAluminium LED profile 70x40mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 70x50mm profileAluminium LED profile 70x50mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 70x7mm profileAluminium LED profile 70x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 80x10mm profileAluminium LED profile 80x10mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 80x15mm profileAluminium LED profile 80x15mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 80x20mm profileAluminium LED profile 80x20mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 80x25mm profileAluminium LED profile 80x25mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 80x30mm profileAluminium LED profile 80x30mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 80x40mm profileAluminium LED profile 80x40mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 80x50mm profileAluminium LED profile 80x50mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal rating 80x7mm profileAluminium LED profile 80x7mm cross-section; larger sections offer lower thermal resistance (C/W), improving heat dissipation from high-power LED strips and extending component lifetime significantly.
Thermal resistanceOpposition to heat flow, in °C/W.
Thermal runawayPositive feedback leading to destructive overheating.
Thermal self-regulationAutomatic power reduction when temperature exceeds a threshold.
Thermal simulationComputer modelling of heat flow in an LED system.
ThermocoupleTemperature sensor for monitoring the hot spot on a profile or heat sink.
Thread (protocol)IP-based mesh networking protocol for smart-home lighting.
Threshold (dimming)Minimum control-signal level at which the LED begins to emit visible light.
Tilt angleRotational adjustment of a luminaire around its horizontal axis.
Time clock (astronomical)Timer calculating sunrise/sunset for automatic outdoor lighting.
TimerDevice switching lighting on/off per a time schedule.
TIR (Total Internal Reflection)Optical principle for high-efficiency lenses.
TM-21IES method projecting LED lifetime from LM-80 data.
TM-30Advanced colour-rendering method using 99 colour samples.
TM-30 (Rf)TM-30 fidelity index, analogous to CRI but more accurate.
TM-30 (Rg)TM-30 gamut index, indicating whether colours are more or less saturated than reference.
Tolerance (chromatic)Allowable colour variation among LEDs, in SDCM steps.
Tolerance (dimensional)Permitted variation in profile dimensions from the nominal specification.
Torque (screw)Recommended tightening force for terminal and mounting screws.
Track (electrified)Rail system providing power and mechanical support for movable luminaires.
Track (low-voltage)12 V or 24 V track system for LED spotlights and pendants.
Track (magnetic)Magnetic rail for quick module insertion and removal.
Track (mains-voltage)230 V (or 120 V) track system for LED spotlights.
Track (recessed)Track installed flush within a ceiling channel.
Track (surface-mounted)Track fixed directly to the ceiling surface.
Trailing-edge dimmingPhase-cut dimming clipping the end of the AC waveform, better for LEDs.
TransformerDevice changing AC voltage level; replaced by drivers in LED systems.
Transformer (electronic)Lightweight HF transformer for 12 V halogen, sometimes used with LED MR16.
Transformer (magnetic / toroidal)Heavy iron-core transformer, compatible with some LED dimmers.
TransmittancePercentage of light passing through a cover or diffuser.
Transmittance 40 percent coverLED profile diffuser allowing 40% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 41 percent coverLED profile diffuser allowing 41% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 42 percent coverLED profile diffuser allowing 42% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 43 percent coverLED profile diffuser allowing 43% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 44 percent coverLED profile diffuser allowing 44% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 45 percent coverLED profile diffuser allowing 45% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 46 percent coverLED profile diffuser allowing 46% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 47 percent coverLED profile diffuser allowing 47% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 48 percent coverLED profile diffuser allowing 48% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 49 percent coverLED profile diffuser allowing 49% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 50 percent coverLED profile diffuser allowing 50% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 51 percent coverLED profile diffuser allowing 51% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 52 percent coverLED profile diffuser allowing 52% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 53 percent coverLED profile diffuser allowing 53% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 54 percent coverLED profile diffuser allowing 54% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 55 percent coverLED profile diffuser allowing 55% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 56 percent coverLED profile diffuser allowing 56% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 57 percent coverLED profile diffuser allowing 57% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 58 percent coverLED profile diffuser allowing 58% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 59 percent coverLED profile diffuser allowing 59% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 60 percent coverLED profile diffuser allowing 60% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 61 percent coverLED profile diffuser allowing 61% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 62 percent coverLED profile diffuser allowing 62% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 63 percent coverLED profile diffuser allowing 63% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 64 percent coverLED profile diffuser allowing 64% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 65 percent coverLED profile diffuser allowing 65% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 66 percent coverLED profile diffuser allowing 66% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 67 percent coverLED profile diffuser allowing 67% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 68 percent coverLED profile diffuser allowing 68% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 69 percent coverLED profile diffuser allowing 69% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 70 percent coverLED profile diffuser allowing 70% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 71 percent coverLED profile diffuser allowing 71% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 72 percent coverLED profile diffuser allowing 72% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 73 percent coverLED profile diffuser allowing 73% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 74 percent coverLED profile diffuser allowing 74% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 75 percent coverLED profile diffuser allowing 75% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 76 percent coverLED profile diffuser allowing 76% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 77 percent coverLED profile diffuser allowing 77% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 78 percent coverLED profile diffuser allowing 78% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 79 percent coverLED profile diffuser allowing 79% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 80 percent coverLED profile diffuser allowing 80% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 81 percent coverLED profile diffuser allowing 81% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 82 percent coverLED profile diffuser allowing 82% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 83 percent coverLED profile diffuser allowing 83% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 84 percent coverLED profile diffuser allowing 84% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 85 percent coverLED profile diffuser allowing 85% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 86 percent coverLED profile diffuser allowing 86% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 87 percent coverLED profile diffuser allowing 87% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 88 percent coverLED profile diffuser allowing 88% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 89 percent coverLED profile diffuser allowing 89% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 90 percent coverLED profile diffuser allowing 90% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 91 percent coverLED profile diffuser allowing 91% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 92 percent coverLED profile diffuser allowing 92% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 93 percent coverLED profile diffuser allowing 93% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 94 percent coverLED profile diffuser allowing 94% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
Transmittance 95 percent coverLED profile diffuser allowing 95% of incident light to pass. Higher values maximise output; lower values improve dot concealment and glare control at the cost of luminous efficiency.
tree uplighting techniqueGround-mounted LED spots aimed into tree canopies create dramatic shadows and reveal branch structure, transforming gardens and parks at night.
TRIACSemiconductor for phase-cut dimming.
Trim (ceiling)Decorative ring or flange covering the gap between a recessed luminaire and the ceiling.
TrimlessRecessed profile or luminaire with no visible frame or flange.
TrofferRecessed rectangular luminaire fitting into a ceiling grid, now available in LED.
Trunking (lighting)Modular linear system with interchangeable optical inserts.
Tunable whiteSystem with warm and cool white LEDs for dynamic CCT adjustment.
Tungsten lampIncandescent lamp with a tungsten filament, largely replaced by LED.

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U

UGR (Unified Glare Rating)Glare index 10–30; lower means less discomfort.
UGR tableTabulated glare values for a luminaire at various room dimensions and reflectances.
UGR ≤ 10Luminaire rated for a maximum Unified Glare Rating of 10.
UGR ≤ 13Luminaire rated for a maximum Unified Glare Rating of 13.
UGR ≤ 16Luminaire rated for a maximum Unified Glare Rating of 16.
UGR ≤ 19Luminaire rated for a maximum Unified Glare Rating of 19.
UGR ≤ 22Luminaire rated for a maximum Unified Glare Rating of 22.
UGR ≤ 25Luminaire rated for a maximum Unified Glare Rating of 25.
UGR ≤ 28Luminaire rated for a maximum Unified Glare Rating of 28.
ULUnderwriters Laboratories; North American safety certifier.
UL 1598Luminaire safety (US).
UL 8750UL standard for LED equipment safety.
UL 8752LED driver safety (US).
Ultraviolet (UV)Radiation below 380 nm, negligible in modern white LEDs.
Under-cabinet lightingLED strip beneath kitchen cabinets illuminating the worktop.
UnderdrivingOperating below rated current for extended lifetime.
UniformityHomogeneity of light distribution on a surface (Uo = Emin/Emean).
Uniformity (chromatic)Colour consistency along the entire strip or luminaire.
Uniformity (longitudinal)Consistency of illuminance along the length of a road or corridor.
Universe (DMX)512-channel set managed by a single controller output.
UplightUpward emission for indirect or ceiling-wash illumination.
USBInterface for programming LED controllers and drivers.
Utilisation factor (UF)Ratio of useful flux on the work plane to total luminaire flux.
UV-C LEDShort-wavelength ultraviolet LED for disinfection and sterilisation.

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V

Validation (lighting design)Post-installation measurement confirming design intent is met.
Vapour barrierSeal preventing moisture migration into an IP-rated enclosure.
VariatorSynonym for dimmer; device regulating luminous intensity.
Veletta (lighting pelmet)Architectural element concealing the source for indirect light.
VentilationAirflow for thermal dissipation.
Verification (EMC)Testing to confirm a product meets electromagnetic-compatibility limits.
Verification (photometric)Measuring installed luminaires to confirm they meet design specifications.
Visual comfortCondition free of fatigue, glare or discomfort.
Visual taskActivity requiring a defined level of illuminance and rendering quality.
Vitrified enamel finishGlass-like coating on metal luminaires for durability and aesthetics.
Voice: accent amberExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: activate focus modeExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: activate movie sceneExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: activate reading modeExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: all lights 50%Example smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: bathroom mirror onExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: brighten bathroomExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: dim bedroom slowlyExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: dim hallwayExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: dim living room 30%Example smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: evening sceneExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: goodnight routineExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: lower blinds and dim lightsExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: maximum brightnessExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: night light onExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: party mode onExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: porch light offExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: set bedroom warm whiteExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: set dining 2700KExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: set garage brightExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: set lights blueExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: set office daylightExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: strip lights redExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: turn off all lightsExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: turn off upstairsExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: turn on garden lightsExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: turn on kitchen lightsExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: turn on staircaseExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: under-cabinet onExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Voice: wake-up routineExample smart-lighting voice command. Interpreted by the voice assistant (Alexa, Google, Siri), translated into the appropriate protocol (Zigbee, Matter, Wi-Fi) and sent to the designated luminaire group within the typical 200-500 ms response time.
Void (ceiling)Space above a suspended ceiling used for cable routing and recessed luminaires.
Volt (V)Unit of electrical potential; 12 V, 24 V, 48 V standard for LED strips.
Voltage (forward / Vf)Voltage drop across the LED under forward bias.
Voltage (input)Mains voltage entering the driver (typically 100–240 V AC).
Voltage (output)DC voltage delivered by the driver to the strip.
Voltage (reverse)Maximum reverse voltage before LED damage.
Voltage dropVoltage loss along a cable, critical for LED brightness consistency.
Voltage drop calculatorOnline tool or formula computing voltage loss for a given cable run.
Voltage regulatorComponent maintaining a stable output voltage despite input fluctuations.
Volumetric lightingLarge-area, low-luminance luminaires producing soft, shadow-free illumination.

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W

Wafer (LED)Thin semiconductor disc from which individual LED dies are cut.
Wall grazerLuminaire casting grazing light on a wall to accentuate texture.
wall grazing techniqueLED strip mounted within 100mm of a textured surface so oblique light accentuates every relief and grain through dramatic shadow, commonly used on stone, brick and exposed concrete walls.
Wall plateElectrical or control panel mounted flush in a wall.
Wall washerLuminaire uniformly illuminating an entire wall surface.
wall washing techniqueUniform vertical illumination using wide-beam linear LEDs positioned at one-third of wall height from the surface, creating an even luminance gradient that makes walls appear brighter and spaces larger.
Warm dimmingSynonym for dim-to-warm; CCT drops as brightness decreases.
Warm WhiteColour temperature 2 700–3 000 K, cosy atmosphere.
WarrantyManufacturer’s guarantee of product performance for a stated period.
water feature techniqueIP68-rated LEDs submerged in fountains or pools make moving water glow with colour, enhancing the visual and sensory experience of water features.
Waterproof connectorSealed connector maintaining IP rating at a wiring junction.
Watt (W)Unit of electrical power consumed.
Watt per metre (W/m)Strip power consumption per linear metre.
Wavelength (dominant)Perceived colour wavelength, in nanometres.
Wavelength (peak)Wavelength at the spectrum maximum of the LED emission.
Wavelength 365 nmLED emission at a peak wavelength of 365 nanometres.
Wavelength 370 nmLED emission at a peak wavelength of 370 nanometres.
Wavelength 375 nmLED emission at a peak wavelength of 375 nanometres.
Wavelength 380 nmLED emission at a peak wavelength of 380 nanometres.
Wavelength 385 nmLED emission at a peak wavelength of 385 nanometres.
Wavelength 390 nmLED emission at a peak wavelength of 390 nanometres.
Wavelength 395 nmLED emission at a peak wavelength of 395 nanometres.
Wavelength 400 nmLED emission at a peak wavelength of 400 nanometres.
Wavelength 405 nmLED emission at a peak wavelength of 405 nanometres.
Wavelength 410 nmLED emission at a peak wavelength of 410 nanometres.
Wavelength 415 nmLED emission at a peak wavelength of 415 nanometres.
Wavelength 420 nmLED emission at a peak wavelength of 420 nanometres.
Wavelength 425 nmLED emission at a peak wavelength of 425 nanometres.
Wavelength 430 nmLED emission at a peak wavelength of 430 nanometres.
Wavelength 435 nmLED emission at a peak wavelength of 435 nanometres.
Wavelength 440 nmLED emission at a peak wavelength of 440 nanometres.
Wavelength 445 nmLED emission at a peak wavelength of 445 nanometres.
Wavelength 450 nmLED emission at a peak wavelength of 450 nanometres.
Wavelength 455 nmLED emission at a peak wavelength of 455 nanometres.
Wavelength 460 nmLED emission at a peak wavelength of 460 nanometres.
Wavelength 465 nmLED emission at a peak wavelength of 465 nanometres.
Wavelength 470 nmLED emission at a peak wavelength of 470 nanometres.
Wavelength 475 nmLED emission at a peak wavelength of 475 nanometres.
Wavelength 480 nmLED emission at a peak wavelength of 480 nanometres.
Wavelength 485 nmLED emission at a peak wavelength of 485 nanometres.
Wavelength 490 nmLED emission at a peak wavelength of 490 nanometres.
Wavelength 495 nmLED emission at a peak wavelength of 495 nanometres.
Wavelength 500 nmLED emission at a peak wavelength of 500 nanometres.
Wavelength 505 nmLED emission at a peak wavelength of 505 nanometres.
Wavelength 510 nmLED emission at a peak wavelength of 510 nanometres.
Wavelength 515 nmLED emission at a peak wavelength of 515 nanometres.
Wavelength 520 nmLED emission at a peak wavelength of 520 nanometres.
Wavelength 525 nmLED emission at a peak wavelength of 525 nanometres.
Wavelength 530 nmLED emission at a peak wavelength of 530 nanometres.
Wavelength 535 nmLED emission at a peak wavelength of 535 nanometres.
Wavelength 540 nmLED emission at a peak wavelength of 540 nanometres.
Wavelength 545 nmLED emission at a peak wavelength of 545 nanometres.
Wavelength 550 nmLED emission at a peak wavelength of 550 nanometres.
Wavelength 555 nmLED emission at a peak wavelength of 555 nanometres.
Wavelength 560 nmLED emission at a peak wavelength of 560 nanometres.
Wavelength 565 nmLED emission at a peak wavelength of 565 nanometres.
Wavelength 570 nmLED emission at a peak wavelength of 570 nanometres.
Wavelength 575 nmLED emission at a peak wavelength of 575 nanometres.
Wavelength 580 nmLED emission at a peak wavelength of 580 nanometres.
Wavelength 585 nmLED emission at a peak wavelength of 585 nanometres.
Wavelength 590 nmLED emission at a peak wavelength of 590 nanometres.
Wavelength 595 nmLED emission at a peak wavelength of 595 nanometres.
Wavelength 600 nmLED emission at a peak wavelength of 600 nanometres.
Wavelength 605 nmLED emission at a peak wavelength of 605 nanometres.
Wavelength 610 nmLED emission at a peak wavelength of 610 nanometres.
Wavelength 615 nmLED emission at a peak wavelength of 615 nanometres.
Wavelength 620 nmLED emission at a peak wavelength of 620 nanometres.
Wavelength 625 nmLED emission at a peak wavelength of 625 nanometres.
Wavelength 630 nmLED emission at a peak wavelength of 630 nanometres.
Wavelength 635 nmLED emission at a peak wavelength of 635 nanometres.
Wavelength 640 nmLED emission at a peak wavelength of 640 nanometres.
Wavelength 645 nmLED emission at a peak wavelength of 645 nanometres.
Wavelength 650 nmLED emission at a peak wavelength of 650 nanometres.
Wavelength 655 nmLED emission at a peak wavelength of 655 nanometres.
Wavelength 660 nmLED emission at a peak wavelength of 660 nanometres.
Wavelength 665 nmLED emission at a peak wavelength of 665 nanometres.
Wavelength 670 nmLED emission at a peak wavelength of 670 nanometres.
Wavelength 675 nmLED emission at a peak wavelength of 675 nanometres.
Wavelength 680 nmLED emission at a peak wavelength of 680 nanometres.
Wavelength 685 nmLED emission at a peak wavelength of 685 nanometres.
Wavelength 690 nmLED emission at a peak wavelength of 690 nanometres.
Wavelength 695 nmLED emission at a peak wavelength of 695 nanometres.
Wavelength 700 nmLED emission at a peak wavelength of 700 nanometres.
Wavelength 705 nmLED emission at a peak wavelength of 705 nanometres.
Wavelength 710 nmLED emission at a peak wavelength of 710 nanometres.
Wavelength 715 nmLED emission at a peak wavelength of 715 nanometres.
Wavelength 720 nmLED emission at a peak wavelength of 720 nanometres.
Wavelength 725 nmLED emission at a peak wavelength of 725 nanometres.
Wavelength 730 nmLED emission at a peak wavelength of 730 nanometres.
Wavelength 735 nmLED emission at a peak wavelength of 735 nanometres.
Wavelength 740 nmLED emission at a peak wavelength of 740 nanometres.
Wavelength 745 nmLED emission at a peak wavelength of 745 nanometres.
Wavelength 750 nmLED emission at a peak wavelength of 750 nanometres.
Wavelength 755 nmLED emission at a peak wavelength of 755 nanometres.
Wavelength 760 nmLED emission at a peak wavelength of 760 nanometres.
Wavelength 765 nmLED emission at a peak wavelength of 765 nanometres.
Wavelength 770 nmLED emission at a peak wavelength of 770 nanometres.
Wavelength 775 nmLED emission at a peak wavelength of 775 nanometres.
Wavelength 780 nmLED emission at a peak wavelength of 780 nanometres.
WEEEEU directive on waste electrical and electronic equipment.
WEEE directive LEDEU legislation requiring manufacturers to finance collection and recycling of decommissioned LED luminaires, with category 5 covering lighting equipment.
WELL v2 Light conceptWELL Building Standard lighting criteria.
Well-being lightingSynonym for HCL; lighting supporting health and productivity.
Wet locationRating for environments exposed to water, requiring a high IP.
White pointChromaticity coordinates defining a specific white shade.
Wi-FiWireless network for remote LED control.
Wire (bonding)Fine gold or aluminium wire connecting the die to lead-frame pads inside the package.
Wire gauge (AWG)American Wire Gauge for cable-diameter classification.
Wireless controlManaging LED lighting without physical cables, using RF, BLE, Zigbee or Wi-Fi.
Work planeHorizontal surface at 0.8 m height on which illuminance is calculated.
WS2811External IC driving three LEDs per pixel in some addressable strip designs.
WS2812BAddressable RGB LED with integrated control IC, SPI protocol.
WS2813Improved WS2812B with dual-signal backup for single-LED fault tolerance.
WS281512 V addressable LED with backup function on single-LED failure.

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X

X-ray inspectionNon-destructive test examining solder joints inside LED packages.
XLR connector (3-pin)Professional DMX512 connector, three-pin variant.
XLR connector (5-pin)Professional DMX512 connector, five-pin variant.
XY colour spaceCIE 1931 chromaticity diagram for precise colour specification.

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Y

YAG (Yttrium Aluminium Garnet)Yellow phosphor converting blue LED light into white.
Yellow (dominant wavelength)LED emission around 585 nm, used for amber or warm effects.
Yield (LED manufacturing)Percentage of functional dies obtained from a processed wafer.
Yoke (adjustable bracket)Bracket enabling angular orientation of LED projectors.

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Z

Z-WaveWireless home-automation protocol including lighting control.
ZhagaIndustry consortium specifying interchangeable LED module and sensor interfaces.
Zhaga Book 11Zhaga specification for outdoor luminaire modules.
Zhaga Book 18Zhaga specification for the smart socket combining a sensor receptacle with an LED module.
ZigbeeLow-power wireless mesh protocol for smart lighting.
Zigbee 3.0Unified Zigbee version with full interoperability.
Zigbee Green PowerUltra-low-power Zigbee profile for energy-harvesting devices like switches.
Zigbee Light Link (ZLL)Zigbee profile specifically for lighting control.
Zonal-cavity methodLighting-calculation method dividing a room into ceiling, room and floor cavities.
Zone (comfort)Area with illuminance and glare levels compliant with standards.
Zone (shadow)Area not reached by direct light, contributing to spatial perception.

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Lighting Line UAB
V. Nageviciaus str. 3, 08237 Vilnius (LT)
Phone +370 5 2559408
VAT payer’s code LT100010316810
www.lightingline.eu

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