NARROWBAND SPECTRA OF HIGH-POWERED PHOSPHOR WHITE LEDS


This web page will be for nothing but spectra of 10mm, 8mm, 5mm, 3mm, and SMD LEDS (driven at 20mA to 60mA; with the exception of the LED in the Motion-Sensing Spotlight):

Ocean Optics USB2000 Spectrometer donated by P.L.
As of 10-10-07, I've been using a PC2000-ISA Spectrometer from Ocean Optics that I received several years ago, but that I didn't have a home for until now.
As of 03-08-08, I once again have the USB2000 spectrometer, enabling color spectra again.
As of 09-19-09, I no longer have the PC2000-ISA; it was sold to prevent an eviction.

HIGH-POWERED PHOSPHOR WHITE LEDS; SPECTROMETER'S RESPONSE BAND NARROWED TO PINPOINT NATIVE EMISSION BAND:


Spectrographic analysis of the LED in the 20000lm Rechargeable T6 LED MTB Bicycle Headlight; spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 447.650nm.



Spectrographic analysis of the LED in the 20000lm Rechargeable T6 LED MTB Bicycle Headlight; spectrometer's response narrowed to a band between 550nm and 570nm to pinpoint phosphor emission peak wavelength, which is 564.160nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at lepo.txt



Spectrographic analysis of the white LEDs in the KICK POWER brand Sterilising Light w/Wireless Charger; spectrometer's response narrowed to a band between 430nm and 450nm to pinpoint native emission peak wavelength, which is 438.450nm.



Spectrographic analysis of the white LEDs in the KICK POWER brand Sterilising Light w/Wireless Charger; spectrometer's response narrowed to a band between 515nm and 535nm to pinpoint phosphor emission peak wavelength, which is 520.980nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at kickw.txt



Spectrographic analysis of the LED in the Kingman Focusable LED Flashlight (2); spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 451.180nm.



Spectrographic analysis of the LED in the Kingman Focusable LED Flashlight (2); spectrometer's response narrowed to a band between 515nm and 535nm to pinpoint phosphor emission peak wavelength, which is 524.430nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at king2.txt



Spectrographic analysis of the primary LED in the P100 LED + COB Rechargeable Flashlight; spectrometer's response narrowed to a band between 435nm and 455nm to pinpoint native emission peak wavelength, which is 445.170nm.



Spectrographic analysis of the primary LED in the P100 LED + COB Rechargeable Flashlight; spectrometer's response narrowed to a band between 520nm and 540nm to pinpoint phosphor emission peak wavelength, which is 527.880nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at p100-p1.txt



Spectrographic analysis of the COB LED in the P100 LED + COB Rechargeable Flashlight; spectrometer's response narrowed to a band between 430nm and 450nm to pinpoint native emission peak wavelength, which is 439.510nm.



Spectrographic analysis of the COB LED in the P100 LED + COB Rechargeable Flashlight; spectrometer's response narrowed to a band between 520nm and 540nm to pinpoint phosphor emission peak wavelength, which is 528.910nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at p100-c1.txt



Spectrographic analysis of the LEDs in the ACDelco 13-LED Hand Lanternis lantern; spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 451.180nm.



Spectrographic analysis of the LEDs in the ACDelco 13-LED Hand Lantern; spectrometer's response narrowed to a band between 510nm and 530nm to pinpoint phosphor emission peak wavelength, which is 524.430nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at 13led.txt



Spectrographic analysis of the white LED in the Anti-Collision Strobe (2); spectrometer's response band narrowed to a range between 440nm and 460nm to pinpoint native emission peak wavelength, which is 451.180nm.


Spectrographic analysis of the white LED in the Anti-Collision Strobe (2); spectrometer's response band narrowed to a range between 545nm and 565nm to pinpoint phosphor peak emission peak wavelength, which is 555.980nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at acs2.txt



Spectrographic analysis of the LED in the Garrity COB Flashlight; spectrometer's response narrowed to a band between 445nm and 465nm to pinpoint native emission peak wavelength, which is 452.590nm.


Spectrographic analysis of the LED in the Garrity COB Flashlight; spectrometer's response narrowed to a band between 540nm and 560nm to pinpoint phosphor emission peak wavelength, which is 554.280nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at cob.txt



Spectrographic analysis of the LED in the XHP70 Outdoor Rechargeable LED Torch; spectrometer's response narrowed to a band between 435nm and 455nm to pinpoint native emission peak wavelength, which is 447.650nm.



Spectrographic analysis of the LED in the XHP70 Outdoor Rechargeable LED Torch; spectrometer's response narrowed to a band between 550nm and 570nm to pinpoint phosphor emission peak wavelength, which is 558.030nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at xhp70.txt



Spectrographic analysis of the LED in the Cheetah LED Flashlight / Stun Gun; spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 447.650nm.


Spectrographic analysis of the LED in thw Cheetah LED Flashlight / Stun Gunt; spectrometer's response narrowed to a band between 520nm and 540nm to pinpoint phosphor emission peak wavelength, which is 524.430nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at stun.txt



Spectrographic analysis of the LEDs in the Optolight Warm White LED Floodlamp Bulb; spectrometer's response narrowed to a band between 445nm and 465nm to pinpoint native emission peak wavelength, which is 451.180nm.



Spectrographic analysis of the LEDs in the Optolight Warm White LED Floodlamp Bulb; spectrometer's response narrowed to a band between 600nm and 640nm to pinpoint phosphor emission peak wavelength, which is 566.200nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at ol-3.txt



Spectrographic analysis of the LEDs in the Bulbstar Daylight LED Light Bulb (2); spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 449.06nm.



Spectrographic analysis of the LEDs in the Bulbstar Daylight LED Light Bulb (2); spectrometer's response narrowed to a band between 500nm and 580nm to pinpoint phosphor emission peak wavelength, which is 520.98nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at bulbstar.txt



Spectrographic analysis of the LEDs in the K-LITE 5W LED Light Bulb; spectrometer's response narrowed to a band between 435nm and 455nm to pinpoint native emission peak wavelength, which is 445.880nm.



Spectrographic analysis of the LEDs in the K-LITE 5W LED Light Bulb; spectrometer's response narrowed to a band between 500nm and 580nm to pinpoint phosphor emission peak wavelength, which is 522.360nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at k-lite.txt



Spectrographic analysis of the LEDs in the Bulbstar Daylight LED Light Blub; spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 449.06nm.



Spectrographic analysis of the LEDs in the Bulbstar Daylight LED Light Blub; spectrometer's response narrowed to a band between 500nm and 580nm to pinpoint phosphor emission peak wavelength, which is 520.98nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at bulbstar.txt



Spectrographic analysis of the LED (flashlight mode) in the Life+Gear Grab And Glow Flashlight (White/Blue LEDs); spectrometer's response narrowed to a band between 440nm and 460nm to show LED's native emission peak wavelength of 447.650nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at gng-white.txt



Spectrographic analysis of the LEDs in the (Halloween) Strobe Light; spectrometer's response narrowed to a band between 440nm and 470nm to pinpoint native emission peak wavelength, which is 453.290nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at hstrobe.txt



Spectrographic analysis of the LED in the "Light Switch" LED Floodlight/Lantern; spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 445.170nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at switch.txt



Spectrographic analysis of the LED in the replacement unit of the 2-Cell POS LED Flashlight; spectrometer's response narrowed to a band between 435nm and 455nm to pinpoint native emission peak wavelength, which is 447.650nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at pos2.txt



Spectrographic analysis of the white LED in the DroMight White Anti Collision Drone Strobe Light; spectrometer's response band narrowed to a range between 430nm and 460nm to pinpoint native emission peak wavelength, which is 440.930nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at dm.txt



Spectrographic analysis of the LEDs in the Unknown brand 9xLED Headlamp; spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 449.060nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at 9ledh.txt



Spectrographic analysis of the LEDs in the 7x LED 2x D Cell Flashlight; spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 445.880nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at 7led3d.txt



Spectrographic analysis of the LED in the 2-Cell POS LED Flashlight; spectrometer's response narrowed to a band between 435nm and 455nm to pinpoint native emission peak wavelength, which is 445.170nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at pos.txt



Spectrographic analysis of the LED in the Handy Brite Cordless LED Work Light; spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 451.180nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at h-brite.txt



Spectrographic analysis of the white LED in the Ozark Trail Headlamp; spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 451.180nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at ot-head.txt



Spectrographic analysis of the white LED in the Ozark Trail Penlight; spectrometer's response narrowed to a band between 435nm and 455nm to pinpoint native emission peak wavelength, which is 443.410nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at ot-pen.txt



Spectrographic analysis of the white LED in the Ozark Trail Lantern; spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 450.470nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at ol-white.txt



Spectrographic analysis of the LED in the LED Tactical Flashlight w/ Focusable Beam; spectrometer's response narrowed to a band between 435nm and 455nm to pinpoint native emission peak wavelength, which is 443.410nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at zoom3.txt

USB2000 Spectrometer graciously donated by P.L.



Spectrographic analysis of the white Luxeon I LED in the Arc LS Prototype; spectrometer's response narrowed to a band between 440nm and 470nm to pinpoint LED's native emission peak of 457.170nm


Spectrographic analysis of the white Luxeon I LED in the Arc LS Prototype; spectrometer's response narrowed to a band between 550nm and 570nm to pinpoint LED's phosphor emission peak of 563.480nm


Spectrographic analysis of the white Luxeon I LED in the Arc LS Prototype; spectrometer's response narrowed to a band between 600nm and 625nm to pinpoint a curious phosphor spike at 611.690nm

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at alsproto.txt



Spectrographic analysis of the white LED in the Anti-Collision Strobe for Drones; spectrometer's response band narrowed to a range between 438nm and 450nm to pinpoint native emission peak wavelength, which is 445.170nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at acs.txt



Spectrographic analysis of the LEDs inthe NorthLux™ 95 CRI 6500K BR30 LED Bulb for Artwork & Painting (maximum intensity); spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 449.760nm.

The raw spectrometer data (maximum intensity) (tab-delimited that can be loaded into Excel) is at http://www.tllm.site/51/north.txt



Spectrographic analysis of the LEDs inthe NorthLux™ 95 CRI 6500K BR30 LED Bulb for Artwork & Painting (minimum intensity available from our "wall switch" dimmer).






Spectrographic analysis of the LEDs in the LuminAID® PackLite 16; spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 447.650nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at pack16.txt



Spectrographic analysis of the LED in the Sunwayman Revolution Variable Intensity LED Flashlight (minimum intensity); spectrometer's response narrowed to a band between 435nm and 445nm to pinpoint native emission peak wavelength, which is 437.740nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at sunwayl.txt



Spectrographic analysis of the LED in the Sunwayman Revolution Variable Intensity LED Flashlight (maximum intensity); spectrometer's response narrowed to a band between 435nm and 445nm to pinpoint native emission peak wavelength, which is again 437.740nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at sunwayh.txt



Spectrographic analysis of the LED in the Seraph SP-6 Titanium LED Flashlight (low); spectrometer's response narrowed to a band between 445nm and 455nm to pinpoint native emission peak wavelength, which is 445.170nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://www.tllm.site/48/stil.txt



Spectrographic analysis of the LED in the Seraph SP-6 Titanium LED Flashlight (high); spectrometer's response narrowed to a band between 445nm and 455nm to pinpoint native emission peak wavelength, which is 445.170nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://www.tllm.site/48/stih.txt



Spectrographic analysis of the LED in the ICON Modus 2 Flashlightt (maximum intensity); newest (03-10-15) spectrometer software settings used.
Spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 445.880nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at modus2h.txt



Spectrographic analysis of the LED in the ICON Modus 2 Flashlightt (minimum intensity); newest (03-10-15) spectrometer software settings used.
Spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 445.880nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at modus2l.txt



Spectrographic analysis of the LED in the ICON Solo Flashlight (maximum intensity); newest (03-10-15) spectrometer software settings used.
Spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 447.650nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at isolo-hi.txt



Spectrographic analysis of the LED in the ICON Solo Flashlight (minimum intensity); newest (03-10-15) spectrometer software settings used.
Spectrometer's response narrowed to a band between 440nm and 460nm to pinpoint native emission peak wavelength, which is 445.880nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at isolo-lo.txt



Spectrographic analysis of the LED in the Micro Illuminator Flashlight; newest (03-10-15) spectrometer software settings used. Spectrometer's response narrowed to a band between 435nm and 455nm to pinpoint native emission peak wavelength, which is 442.700nm.



Spectrographic analysis of the LED in the e Micro Illuminator Flashlight; newest (03-10-15) spectrometer software settings used. Spectrometer's response narrowed to a band between 600nm and 620nm to pinpoint that queer little phosphor peak (native to all early-generation Luxeon 1 and 3 LEDs) emission wavelength, which is 610.020nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at lambda.txt



Spectrographic analysis of the LED (high mode) in the ICON Rogue 2 Flashlight; newest (03-10-15) spectrometer software settings used. Spectrometer's response narrowed to a band between 430nm and 450nm to pinpoint native emission peak wavelength, which is 443.410nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at rogue2.txt



Spectrographic analysis of the LED (low mode) in the ICON Rogue 2 Flashlight; newest (03-10-15) spectrometer software settings used. Spectrometer's response narrowed to a band between 430nm and 450nm to pinpoint native emission peak wavelength, which is 441.640nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at rogue3.txt



Spectrographic analysis of the LED in the NLS; newest (03-10-15) spectrometer software settings used. Spectrometer's response narrowed to a band between 450nm and 480nm to pinpoint native emission peak wavelength, which is 465.610nm.



Spectrographic analysis of the LED in the NLS; newest (03-10-15) spectrometer software settings used. Spectrometer's response narrowed to a band between 600nm and 630nm to pinpoint that queer little phosphor emission spike's peak wavelength, which is 608.680nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at nls-2.txt



Spectrographic analysis of the LED in the WorkStar® 2000 Technician's Floodlight (low); spectrometer's response narrowed to a band between 440nm and 450nm to pinpoint native emission peak wavelength, which is 443.760nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at /44/maxx200l.txt



Spectrographic analysis of the LED in the WorkStar® 2000 Technician's Floodlight (high); spectrometer's response narrowed to a band between 440nm and 450nm to pinpoint native emission peak wavelength, which is 445.880nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at /44/maxx200h.txt



Spectrographic analysis of the LED in the Workstar 320 Pocket Floodlightâ„¢; spectrometer's response narrowed to a band between 450nm and 460nm to pinpoint native emission peak wavelength, which is 452.590nm.

The raw spectrometer data (tab-delimited that can be loaded into Excel) is at /44/maxx-320.txt



Spectrographic analysis of the LED in the Ultrafire WF-502B 3W Cree Flashlight; newest (01-13-13) spectrometer software settings used. Spectrometer's response narrowed to a band between 445nm and 455nm to pinpoint native emission peak wavelength, which is 451.180nm.

The raw spectrometer data (comma-delimited that can be loaded into Excel) is at /43/ultrafir.txt



Spectrographic analysis of the Luxeon LED in the Gelb Nightwalker Flashlight (Ultra Oval); spectrometer's response narrowed to a band between 452nm and 462nm to pinpoint native emission peak wavelength, which is 457.170nm.

The raw spectrometer data (comma-delimited that can be loaded into Excel) is at /42/gelbf.txt



Spectrographic analysis of the LED in the Corona Blaster; spectrometer's response narrowed to a band between 435nm and 455nm to pinpoint native emission peak wavelength, which is 445.945nm.



Spectrographic analysis of the white Luxeon LED in the Modified Brinkmann Rebel Flashlights; spectrometer's response narrowed to a band between 440nm and 470nm to pinpoint native emission peak wavelength, which is 451.937nm.



Spectrographic analysis of the white Luxeon LED in the Modified Brinkmann Rebel Flashlights; spectrometer's response narrowed to a band between 600nm and 620nm to pinpoint that queer phosphor emission spike (present in all early 1- and 5-watt Luxeon LEDs) in the orange part of the spectrum, which is 610.444nm.



Spectrographic analysis of the LED in the TNC Splash Ano Flashlight; spectrometer's response narrowed to a band between 430nm and 450nm to pinpoint native emission peak wavelength, which is 440.990nm.



Spectrographic analysis of the LED in the TNC Splash Ano Flashlight; spectrometer's response narrowed to a band between 600nm and 620nm to pinpoint that queer phosphor spike (present in all early 1- and 5-watt Luxeon LEDs) peak wavelength, which is 611.378nm.



Spectrographic analysis of the LED in the CPF Orb 3W Luxeon LED Torch; spectrometer's response narrowed to a band between 430nm and 450nm to pinpoint native emission peak wavelength, which is 440.922nm.



Spectrographic analysis of the LEDs in the Tri-Star Phazer; spectrometer's response narrowed to a band between 440nm and 480nm to pinpoint native emission peak wavelength, which is 457.740nm.



Spectrographic analysis of the LED in the In-Cabinet Light; spectrometer's response narrowed to a band between 440nm and 470nm to pinpoint native emission peak wavelength, which is 451.898nm.



Spectrographic analysis of the LED in the In-Cabinet Light; spectrometer's response narrowed to a band between 570nm and 600nm to pinpoint phosphor peak peak wavelength, which is 451.898nm.



Spectrographic analysis of the LED in the ICON Solo Flashlight (minimum intensity); spectrometer's response narrowed to a band between 430nm and 470nm to pinpoint native emission peak wavelength, which is 446.933nm.



Spectrographic analysis of the LED in the ICON Solo Flashlight (maximum intensity); spectrometer's response narrowed to a band between 430nm and 470nm to pinpoint native emission peak wavelength, which is 446.957nm.



Spectrographic analysis of the LED in the JIL Intelli Flashlight (maximum intensity); spectrometer's response narrowed to a band between 430nm and 470nm to pinpoint native emission peak wavelength, which is 439.502nm.



Spectrographic analysis of the LED in the JIL Intelli Flashlight (minimum intensity); spectrometer's response narrowed to a band between 430nm and 470nm to pinpoint native emission peak wavelength, which is 440.111nm.



Spectrographic analysis of the LED in the Fenix P1D CE Flashlight (maximum intensity); spectrometer's response narrowed to a band between 430nm and 470nm to pinpoint native emission peak wavelength, which is 457.144nm.



Spectrographic analysis of the LED in the Fenix P1D CE Flashlight (minimum intensity); spectrometer's response narrowed to a band between 430nm and 470nm to pinpoint native emission peak wavelength, which is 457.138nm.



Spectrographic analysis of the LED (flashlight mode) in the Life+Gear Glow 400 Flashlight (White & Green LEDs); spectrometer's response narrowed to a band between 430nm and 470nm to show LED's native emission peak wavelength, which is exactly 453.000nm.



Spectrographic analysis of the LED in the Lumos LED Flashlight using the newest spectrometer software settings; spectrometer's response narrowed to a band between 430nm and 470nm to pinpoint native emission peak wavelength, which is 457.144nm.



Spectrographic analysis of the LED in the Beamshot Personal Defense Flashlight; spectrometer's response narrowed to a band between 420nm and 460nm to pinpoint native emission peak wavelength, which is exactly 441.00nm.



Spectrographic analysis of the LED in the Nu-Flare Rebel 90 6-Watt 210 Lumen Flashlight; spectrometer's response narrowed to a band between 430nm and 470nm to pinpoint native emission peak wavelength, which is 443.782nm.



Spectrographic analysis of the LED in the power failure detector module/flashlight from the Mr. Beamsâ„¢ ReadyBright Power Failure Home Lighting System; spectrometer's response narrowed to a band between 420nm and 470nm to pinpoint native emission peak, which is 441.588nm.



Spectrographic analysis of the LED in the path light from the Mr. Beamsâ„¢ ReadyBright Power Failure Home Lighting System; spectrometer's response narrowed to a band between 420nm and 470nm to pinpoint native emission peak, which is exactly 454.000nm.



Spectrographic analysis of the LED in the ceiling light from the Mr. Beamsâ„¢ ReadyBright Power Failure Home Lighting System; spectrometer's response narrowed to a band between 420nm and 470nm to pinpoint native emission peak, which is 452.317nm.



Spectrographic analysis of the LED in sample 2 of the Mr. Beamsâ„¢ R/C & Motion-Sensing Path Lights (maximum output); spectrometer's response narrowed to a band between 420nm and 470nm to pinpoint native emission peak, which is 447.533nm.



Spectrographic analysis of the LED in sample 2 of the Mr. Beamsâ„¢ R/C & Motion-Sensing Path Lights (glow mode); spectrometer's response narrowed to a band between 420nm and 470nm to pinpoint native emission peak, which is 449.669nm.



Spectrographic analysis of the LED in sample 1 of the Mr. Beamsâ„¢ Motion-Sensing "Stick Anywhere" Night Lights; spectrometer's response narrowed to a band between 420nm and 470nm to pinpoint native emission peak, which is 453.590nm.



Spectrographic analysis of the LED in sample 2 of the Mr. Beamsâ„¢ Motion-Sensing "Stick Anywhere" Night Lights; spectrometer's response narrowed to a band between 420nm and 470nm to pinpoint native emission peak, which is 451.623nm.



Spectrographic analysis of the LED in sample 3 of the Mr. Beamsâ„¢ Motion-Sensing "Stick Anywhere" Night Lights; spectrometer's response narrowed to a band between 420nm and 470nm to pinpoint native emission peak, which is 450.489nm.



Spectrographic analysis of the LED in the NLS; spectrometer's response narrowed to a band between 430nm and 480nm to pinpoint peak native emission wavelength, which is 462.837nm.



Spectrographic analysis of the LED in the Arc 4+ Flashlight (low mode); spectrometer's response narrowed to a band between 430nm and 480nm to pinpoint native emission peak wavelength, which is 447.573nm.



Spectrographic analysis of the LED in the Arc 4+ Flashlight (high mode); spectrometer's response narrowed to a band between 430nm and 480nm to pinpoint native emission peak wavelength, which is 442.693nm.



Spectrographic analysis of the LED in sample 1 of the Mr. Beamsâ„¢ R/C & Motion-Sensing Path Lights (maximum output); spectrometer's response narrowed to a band between 420nm and 470nm to pinpoint native emission peak, which is 445.509nm.



Spectrographic analysis of the LED in sample 1 of the Mr. Beamsâ„¢ R/C & Motion-Sensing Path Lights (glow mode); spectrometer's response narrowed to a band between 425nm and 475nm to pinpoint native emission peak, which is 449.017nm.



Spectrographic analysis of the LED in the SureFire L6 Digital Lumamax Flashlight; spectrometer's response narrowed to a band between 430nm and 480nm to pinpoint native emission peak wavelength, which is 452.555nm.



Spectrographic analysis of the LED in the SureFire KL3 LS Bezel; spectrometer's response narrowed to a band between 430nm and 480nm to pinpoint native emission peak wavelength, which is 450.492nm.



Spectrographic analysis of the LED in the SureFire L5 Flashlight; spectrometer's response narrowed to a band between 430nm and 480nm to pinpoint native emission peak wavelength, which is 452.577nm.



Spectrographic analysis of an unknown-type "spider" (high-flux) white LED; spectrometer's response narrowed to a band between 440nm and 480nm to pinpoint native emission peak wavelength, which is 459.832nm.



Spectrographic analysis of the LED (high mode) in the SureFire L2 Digital Lumamax; spectrometer's response narrowed to a band between 430nm and 480nm to pinpoint native emission peak, which is 455.330nm.



Spectrographic analysis of the LED (low mode) in the SureFire L2 Digital Lumamax; spectrometer's response narrowed to a band between 430nm and 480nm to pinpoint native emission peak, which is 455.330nm.



Spectrographic analysis of the white LED (low) in the SureFire K2 Kroma Flashlight; spectrometer's response narrowed to a band between 430nm and 480nm to pinpoint native emission peak, which is 455.330nm.



Spectrographic analysis of the white LED (high) in the SureFire K2 Kroma Flashlight; spectrometer's response narrowed to a band between 430nm and 480nm to pinpoint native emission peak, which is 448.683nm.



Spectrographic analysis of the LED in the SBP (Super Baby Pin); spectrometer's response narrowed to a band between 420nm and 470nm to pinpoint native emission peak, which is 445.090nm.



Spectrographic analysis of the LED in the SBP (Super Baby Pin); spectrometer's response narrowed to a band between 580nm and 630nm to pinpoint that queer little phosphor peak in the orange region of the spectrum, which is 611.150nm.



Spectrographic analysis of the Luxeon LED in the Gelb Nightwalker Flashlight (Ultra Oval); spectrometer's response narrowed to a band between 430nm and 480nm to pinpoint native emission, which is 459.066nm.




White Luxeon I LED in the Arc LS Prototype; spectrometer's response narrowed to a band between 430nm and 480nm to pinpoint LED's native emission peak (well, two peaks actually) of 452.550nm and 457.220nm.










Do you manufacture or sell an LED flashlight, task light, utility light, or module of some kind? Want to see it tested by a real person, under real working conditions? Do you then want to see how your light did? If you have a sample available for this type of real-world, real-time testing, please contact me at bdf1111@yahoo.com.

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