NARROWBAND SPECTRA OF RED LEDs (NEWEST {03-25-12 and 01-13-13} SPECTROMETER SOFTWARE SETTINGS USED)
Spectrographic analysis of the LED in the Choicemmed Oxywatch C20 Pulse Oximeter's sensor; spectrometer's response narrowed to a band between 650nm and 660nm to pinpoint peak wavelength, which is 657.380nm.
The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/45/oximete2.txt
Spectrographic analysis of the red LEDs in the Color-Changing Twister Light; spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint peak wavelength, which is 633.650nm.
The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/45/twist-r.txt
Spectrographic analysis of the red LEDs in the Fiber Optic Vibrating Light; spectrometer's response narrowed to a band between 630nm and 640nm to pinpoint peak wavelength, which is 636.290nm.
The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/45/folrair.txt
Spectrographic analysis of the red "seat up" LED in the LavNav™ Toliet Nightlight (2); spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint peak wavelength, which is 628.670nm.
The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/44/toliet-r.txt
Spectrographic analysis of the LEDs in the Blinky Beads Flashing Necklace; spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint peak wavelength, which is 630.660nm.
The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/44/mardigra.txt
Spectrographic analysis of the red LED in the LED Flashing Magical Wand (2); spectrometer's response narrowed to a band between 630nm and 640nm to pinpoint peak wavelength, which is 635.630nm.
The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/44/magi2-r.txt
Spectrographic analysis of the red die of one of the LEDs in the Top Race® F22 4-Channel R/C Fighter Jet Quadcopter; spectrometer's response narrowed to a band between 620nm and 630nm to pinpoint peak wavelength, which is 624.690nm.
The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/44/f22red.txt
Spectrographic analysis of the red LEDs in the LED Multicolor C7 Lights; spectrometer's response narrowed to a band between 640nm and 660nm to pinpoint peak wavelength, which is 651.470nm.
The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/44/xmas22-r.txt
Spectrographic analysis of the red LEDs in the LED Battery-Operated Christmas Lights; spectrometer's response narrowed to a band between 630nm and 650nm to pinpoint peak wavelength, which is 637.950nm.
The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/44/xmas21-r.txt
Spectrographic analysis of the red LED in the 7-Mode Flashing LED Safety Strobe; newest (01-13-13) spectrometer software settings used. Spectrometer's response narrowed to a band between 630nm and 640nm to pinpoint emission peak wavelength, which is 634.640nm.
The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/43/wand-r.txt
Spectrographic analysis of the red "tuning" LED in the GP-4L Radio/Flashlight; newest (01-13-13) spectrometer software settings used. Spectrometer's response narrowed to a band between 665nm and 675nm to pinpoint peak emission wavelength, which is 666.550nm.
The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/43/gp4l-t.txt
Spectrographic analysis of the red LEDs in the LED Flashing Sunglasses; newest (01-13-13) spectrometer software settings used. Spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint emission peak wavelength, which is 631.660nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/43/lfglassr.txt
Spectrographic analysis of the LED in the Advantage E-Cigarrette 2.0; newest (01-13-13) spectrometer software settings used. Spectrometer's response narrowed to a band between 635nm and 645nm to pinpoint emission peak wavelength, which is 639.930nm.
The raw spectrometer data (tab-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/43/e-cig.txt
Spectrographic analysis of the LED in the 2.4GHz Cordless Optical Mouse; spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint emission peak wavelength, which is 630.330nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/mouse5.txt
Spectrographic analysis of the red LEDs in the Light Relief; newest (01-13-13) spectrometer software settings used. Spectrometer's response narrowed to a band between 640nm and 650nm to pinpoint emission peak wavelength, which is 644.550nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/lightrr.txt
Spectrographic analysis of the red LEDs in the Light Relief; newest (01-13-13) spectrometer software settings used. Spectrometer's response narrowed to a band between 640nm and 650nm to pinpoint emission peak wavelength, which is 644.550nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/lightrr.txt
Spectrographic analysis of the LEDs in the LED Chevron Arrow Mat; newest (01-13-13) spectrometer software settings used. Spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint emission peak wavelength, which is 630.330nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/chevron.txt
Spectrographic analysis of the red LEDs in the Best Blinkers "Princess" LED Pin; spectrometer's response narrowed to a band between 630nm and 640nm to pinpoint peak wavelength, which is 633.980nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/bestsatr.txt
Spectrographic analysis of the red LED in the Life+Gear 6" Lantern; spectrometer's response narrowed to a band between 630nm and 640nm to pinpoint peak wavelength, which is 635.300nm
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/lg-lan-r.txt
Spectrographic analysis of the LEDs in the Light-Up Patriotic Tiara; spectrometer's response narrowed to a band between 628nm and 638nm to pinpoint native emission peak wavelength, which is 632.320nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/tiara.txt
Spectrographic analysis of the red LEDs in the "Congrats GRAD" Button; spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint peak wavelength, which is exactly 629.00nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/gradpin.txt
Spectrographic analysis of the red LEDs in the Flashing LED Graduation Necklaces; spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint peak wavelength, which is exactly 629.00nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/gradred.txt
Spectrographic analysis of the red LED in the Light-Up Red LED "Star" Ring; spectrometer's response narrowed to a band between 630nm and 640nm to pinpoint peak wavelength, which is 632.320nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/starrinr.txt
Spectrographic analysis of the LEDs in the Skull & Crossbones w/ Bright Eyes; spectrometer's response narrowed to a band between 632nm and 642nm to pinpoint emission peak wavelength, which is 637.620nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/skullkey.txt
Spectrographic analysis of the red LED in the HuaLe HL803 Piper J3 Cub NC26170 R/C Airplane; spectrometer's response narrowed to a band between 620nm and 630nm to pinpoint native emission peak wavelength, which is 628.010nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/piper.txt
Spectrographic analysis of the LED in the red version of the Lambda's Keylight Nano; spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint peak wavelength, which is exactly 629.00nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/keyred.txt
Spectrographic analysis of the LEDs in the Patriotic Flashing Bracelet; spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint peak wavelength, which is 630.330nm.
The raw spectrometer data (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/pfb.txt
Spectrographic analysis of the red LEDs in the Best Blinkers Flashing US Flag Pin; spectrometer's response narrowed to a band between 640nm and 650nm to pinpoint peak wavelength, which is 643.560nm.
The raw spectrometer data for the red LEDs (comma-delimited that can be loaded into Excel) is at http://ledmuseum.candlepower.us/42/4thjulr.txt
Spectrographic analysis of the LEDs in the Patriotic Light-Up Necklace; spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint emission peak wavelength, which is exactly 629.00nm (yes, I used the spectrometer's data file to determine this!).
Spectrographic analysis of the LEDs in the PowerFlare; newest (01-13-13) spectrometer software setting used. Spectrometer's response narrowed to a band between 635nm and 645nm to pinpoint peak wavelength, which is 639.288nm.
Spectrographic analysis of the LED in the mouse in the Cordless Keyboard & Easy-Glide Mouse package; spectrometer's response narrowed to a band between 620nm and 640nm to pinpoint emission peak wavelength, which is 632.002nm.
Spectrographic analysis of the red LEDs in the Flashing Light Baton; spectrometer's response narrowed to a band between 620nm and 640nm to pinpoint peak emission wavelength, which is 633.211nm.
Spectrographic analysis of the red LED in the Flashing LED ''Duck'' Jelly Finger Ring; spectrometer's response narrowed to a band between 630nm and 640nm to pinpoint peak wavelength, which is 632.607nm.
Spectrographic analysis of the flashing red LED in the US Eagle R/C Copter; spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint peak wavelength, which is 627.566nm.
Spectrographic analysis of the red "Power" LED in the remote control for the US Eagle R/C Copter; spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint peak wavelength, which is 628.993nm.
Spectrographic analysis of the red LED in the Lite-Up Chick; spectrometer's response narrowed to a band between 630nm and 650nm to pinpoint emission peak wavelength, which is 644.193nm.
Spectrographic analysis of the LEDs in the Bicycle LED + Laser Taillight; spectrometer's response narrowed to a band between 625nm and 645nm to pinpoint peak wavelength, which is exactly 634nm.
Spectrographic analysis of a Nichia NSPR510CS red LED from 2008; newest (01-13-13) spectrometer software & settings used. Spectrometer's response narrowed to a band between 625nm and 640nm to pinpoint peak wavelength, which is 633.266nm.
Spectrographic analysis of the LEDs in the 1x AA 12x Red LED Flashlight; newest (01-13-13) spectrometer software & settings used. Spectrometer's response narrowed to a band between 635nm and 645nm to pinpoint peak wavelength, which is 637.588nm.
Spectrographic analysis of the red LED taillights in the Radio Shack Lamborghini R/C Car; spectrometer's response narrowed to a band between 620nm and 640nm to pinpoint native emission peak wavelength, which is 629.366nm.
Spectrographic analysis of the red LED "Power" indicator in the Radio Shack Lamborghini R/C Car's Tx; spectrometer's response narrowed to a band between 620nm and 640nm to pinpoint native emission peak wavelength, which is 630.996nm.
Spectrographic analysis of the red LEDs in the ''Happy Birthday'' Flashing Pin; spectrometer's response narrowed to a band between 620nm and 640nm to pinpoint peak wavelength, which is 632.488nm.
Spectrographic analysis of the LED (red) in the Sauce Mini LightWand; spectrometer's response narrowed to a band between 625nm and 645nm to pinpoint peak wavelength, which is 635.555nm.
Spectrographic analysis of the red LEDs in the Galileo Thermometer; newest (01-13-13) spectrometer software & settings used. Spectrometer's response narrowed to a band between 620nm and 640nm to pinpoint peak wavelength, which is 633.997nm.
Spectrographic analysis of the LED in the Tx cum charger for the Atomic Racers Micro R/C Car; spectrometer's response narrowed to a band between 630nm and 640nm to pinpoint emission peak wavelength, which is 635.992nm.
Spectrographic analysis of the red LEDs in the Multicolor 'Chasing' LED Light Set; spectrometer's response narrowed to a band between 620nm and 640nm to pinpoint emission peak wavelength, which is exactly 632nm.
Spectrographic analysis of the red LEDs in the Elliptic Strobe; spectrometer's response narrowed to a band between 620nm and 640nm to pinpoint peak wavelength, which is 632.488nm.
Spectrographic analysis of the red LED "bulbs" in the 60 LED Multicolor Christmas Light Set; spectrometer's response narrowed to a band between 620nm and 640nm to show peak wavelength, which is 630.622nm.
Spectrographic analysis of the red LEDs in the Mini LED Projector; spectrometer's response narrowed to a band between 625nm and 645nm to pinpoint peak wavelength, which is 634.588nm.
Spectrographic analysis of the LED in the removeable part of the Star Trek Type II Phaser Replica; newest (03-25-12) spectrometer software settings used. Spectrometer's response narrowed to a band between 650nm and 670nm to pinpoint peak wavelength, which is 664.555nm.
Spectrographic analysis of the LED in the pistol part of the Star Trek Type II Phaser Replica; spectrometer's response narrowed to a band between 625nm and 635nm to pinpoint peak wavelength, which is 628.332nm.
Spectrographic analysis of the LED in the Peak 1xAAA 1xLED Prototype Brass Flashlight; spectrometer's response narrowed to a band between 620nm and 640nm to pinpoint peak wavelength, which is 630.401nm.
Spectrographic analysis of the red LEDs in the Multicolor 20 LED Fairy Lights; spectrometer's response narrowed to a band between 620nm and 640nm to pinpoint peak wavelength, which is 631.566nm.
Spectrographic analysis of the LED in the Coleman Keychain ''Lantern''; spectrometer's response narrowed to a band between 620nm and 660nm to pinpoint peak wavelength, which is 638.770nm.
Spectrographic analysis of the red LED in the ''Gummy'' Flashing Ring; spectrometer's response narrowed to a band between 630nm and 650nm to pinpoint peak wavelength, which is 641.966nm.
Spectrographic analysis of the red LEDs in the Geo Strobe; spectrometer's response narrowed to a band between 620nm and 650nm to pinpoint peak wavelength, which is 635.033nm.
Spectrographic analysis of the red LED in the Flashing Magical Wand; spectrometer's response narrowed to a band between 620nm and 650nm to pinpoint peak wavelength, which is 634.442nm.
Spectrographic analysis of the LED in the Radio Shack # 276-299 Bright Red Blinking LED Module; spectrometer's response narrowed to a band between 620nm and 650nm to pinpoint native emission peak wavelength, which is 634.777nm.
Spectrographic analysis of the red "Charge cycle in progress" LED in the QuiqLiteX Rechargeable (Red/White) and the QuiqLiteX Rechargeable (Two white LEDs); spectrometer's response narrowed to a band between 620nm and 650nm to pinpoint peak wavelength, which is 636.277nm.
Spectrographic analysis of the red LED in the Light-Up Halloween Skull Spinner; spectrometer's response narrowed to a band between 620nm and 650nm to pinpoint peak wavelength, which is 636.022nm.
Spectrographic analysis of the red LED in the Flashing LED "Skull" Jelly Finger Ring; spectrometer's response narrowed to a band between 610nm and 640nm to pinpoint peak wavelength, which is 635.007nm.
Spectrographic analysis of the LEDs in the Favor Patch Flashing Pumpkin Earrings; spectrometer's response narrowed to a band between 620nm and 66 0nm to pinpoint peak wavelength, which is 644.312nm.
Spectrographic analysis of the red LED in the QuiqLiteX Rechargeable (Red/White); spectrometer's response narrowed to a band between 620nm and 650nm to pinpoint peak wavelength, which is 638.962nm.
Spectrographic analysis of the red LEDs in the VestLED; spectrometer's response narrowed to a band between 630nm and 670nm to pinpoint peak wavelength, which is 653.444nm.
Spectrographic analysis of the red "All systems go" LED on the undercarriage of the Tuffoam™ Fun Flyer ''Park Flyer'' R/C Airplane; spectrometer's response narrowed to a band between 620nm and 650nm to pinpoint emission peak wavelength, which is 633.777nm.
Spectrographic analysis of the red "Power" LED on the radio of the Tuffoam™ Fun Flyer ''Park Flyer'' R/C Airplane.; spectrometer's response narrowed to a band between 620nm and 660nm to pinpoint emission peak wavelength, which is 638.994nm.
Spectrographic analysis of the LED (glowstick mode) in the Life+Gear Glow 400 Flashlight (White & Red LEDs); spectrometer's response narrowed to a band between 620nm and 660nm to show peak emission wavelength, which is 640.627nm.
Spectrographic analysis of the LED in the amber SafeFlame LED Candle; spectrometer's response narrowed to a band between 570nm and 610nm to pinpoint peak wavelength, which is exactly 595.00nm.
Spectrographic analysis of the red LED on the base of the Star Trek: The Next Generation Medical Scanner Stage Prop; spectrometer's response narrowed to a band between 610nm and 650nm to pinpoint peak wavelength, which is 627.699nm.
Spectrographic analysis of the red LEDs in the LED ''SIGNS'' Sign.
Spectrometer's response narrowed to a band between 615nm and 645nm to pinpoint peak wavelength, which is 632.450nm.
Spectrographic analysis of the LED (the glowing "cherry") in the end of the Advantage E-Cigarrette 2.0; spectrometer's response narrowed to a band between 620nm and 660nm to pinpoint peak wavelength, which is 642.444nm.
Spectrographic analysis of the red LEDs in the TGE Electronics Backlit LED Keyboard; spectrometer's response narrowed to a range between 625nm and 675nm to pinpoint peak wavelength, which is 652.830nm.
Spectrographic analysis of the rear (red) LED in the P-38 Lightning R/C "Park Flyer" Airplane; spectrometer's response narrowed to a band between 650nm and 690nm to pinpoint peak wavelength, which is 666.951nm.
Spectrographic analysis of the red LEDs in the control panel of the Quickie® Pulse 6 Electric Wheelchair; spectrometer's response narrowed to a band between 605nm and 645nm to pinpoint peak wavelength, which is 628.120nm.