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DC1319B-A Linear Technology BOARD EVAL LED DRIVER LT3756 visit Linear Technology - Now Part of Analog Devices
DC1205A Linear Technology BOARD EVAL LED DRIVER LT3592 visit Linear Technology - Now Part of Analog Devices
DC1160A Linear Technology BOARD EVAL LED DRIVER LT3518 visit Linear Technology - Now Part of Analog Devices
DC1319A-B Linear Technology BOARD EVAL LED DRIVER LT3756-1 visit Linear Technology - Now Part of Analog Devices
LTC3205XEUF#TRPBF Linear Technology LTC3205 - Multidisplay LED Controller; Package: QFN; Pins: 24; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices
LTC3216EDE#TR Linear Technology LTC3216 - 1A Low Noise High Current LED Charge Pump with Independent Torch/Flash Current Control; Package: DFN; Pins: 12; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy

IR LED 940 nm

Catalog Datasheet MFG & Type PDF Document Tags

PHOTOELECTRIC SENSORS

Abstract: CP18SDPSCM Current consumption 40 ma Protection Short circuit and overload Hysteresis 15% LED indicator Light source Yellow sensor status IR LED, 880 nm Ambient light resistance IR LED, 940 nm 10,000 Lux Halogen resistance 3,000 Lux Operating temperature range 10 to + 55°C (­ , Schematic Diagram Typical Schematic Key 1. Light Source (LED) 2. Receiver (phototransistor) 3. Signal
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Abstract: TXPI 1262 Dual LED Emitter, 660 nm/940 nm DESCRIPTION FEATURES This is a dual high radiance 660 nm visible and 940 nm infrared emitting LED Assembly, designed for medical ratio-metric , ) 412-7111 tel/(972) 412-5440 fax TXPI 1262 Dual LED Emitter, 660 nm/940 nm OUTLINE DIMENSIONS , nm) Forward Voltage (940 nm) TEST CONDITION If = 20 mA If = 20 mA SYMBOL Vf 1 Vf2 MIN Reverse Breakdown Voltage (660 nm) Ir = 10 ìA Ir = 10 ìA If = 20 mA If = 20 mA If = 20 mA If = Texas Photonics
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L14F1 phototransistor datasheet

Abstract: L14F1 PHOTOTRANSISTOR Wavelength (nm) p Min Max Max VF (V) @ IF = 100 mA QEC112 6 30 1.7 10 24 940 , 50 940 Part Number T-1 (3 mm) LED Package T-13/4 (5 mm) LED Package TO-46 (Plastic , Optoelectronics Light Emitting Diodes (LED), Surface Mount Package Ie (mW/sr) CIF = 100 mA Max IR (µA) @ , Wavelength (nm) p Part Number T-3/4 (2 mm) LED Package Part Number Ie (mW/sr) CIF = 100 mA , Degrees (°) @ 1/2 Intensity Wavelength (nm) p TO-46 LED Package (Convex Lens) 1N6264 6.00 ­
Fairchild Semiconductor
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QRB1134 L14F1 phototransistor datasheet L14F1 PHOTOTRANSISTOR phototransistor 3 pin L14F1 Phototransistor L14F1 l14f1 ir phototransistor T1 L14F1 QEC113 QEC121 QEC122 QEC123 QED233 QED234

Eye Safety

Abstract: TSAL4400 1.9 940 nm/80 mW/sr TSAL5100 3.7 940 nm/400 mW/sr TSAL5300 2.3 940 nm/150 mW/sr TSAL6100 3.7 940 nm/400 mW/sr TSAL6200 2.4 940 nm/200 mW/sr TSAL6400 2.2 940 nm/125 mW/sr TSAL7200 2.4 940 nm/200 mW/sr TSAL7300 2.3 940 nm/150 mW/sr TSAL7400 2.2 940 nm/125 mW/sr TSAL7600 1.8 940 nm/75 mW/sr TSFF5210 3.7 870 nm/360 , 1.2 890 nm/13 mW/sr TSML1000 1.2 940 nm/15 mW/sr TSML1020 1.2 940 nm/15 mW/sr
Vishay Semiconductors
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Eye Safety VSMY7850X01 VSMY7852X01 VSMY98545 VSMY98545DS VSMY99445DS VSMY3940X01

ir led 940 nm 1 w

Abstract: 660 880 940 led The Dual LED series consist of a 660 nm (red) LED and a companion IR LED such as 880, 895, 905 or 940 , photodetectors' response are optimized for maximum responsivity at 660 nm as well as near IR wavelengths. They , 0 2 4 6 Wavelength (nm) Normalized LED Ouput vs. Angular Distribution 1.0 12 14 16 18 20 1.0 LLS Series CSL Series IR LED Normalized Output (mW , configuration TWO 905 nm LEDs are connected in series to increase the total radiant flux. LED CHARACTERISTICS
UDT Sensors
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ir led 940 nm 1 w 660 880 940 led IR LED 940 nm spo2 spo2 specifications emitter 660 880 940 81-XXX DLED-660/880-LLS-2 DLED-660/905-LLS-2 DLED-660/905-LLS-3 DLED-660/940-LLS-3 DLED-660/880-CSL-2

lexan transparent

Abstract: . Figure 4. IR VLED vs. ILED. ILED vs. RADIANT INTENSITY (mW/Sr) OF THE 940 nm LED TEMPERATURE = 25°C 45 RADIANT INTENSITY (mW/sr) 40 VLEDA vs. ILED FOR THE 940 nm LED TEMPERATURE = 25°C 2.5 2.0 , (2) IR remote control transmission operating at 940 nm for universal remote control applications. For , performance of the 870 nm LED, while R2 is the current limiting resistor for the 940 nm RC LED. 2. CX1 must be , 875 nm or 940 nm LED. RC TxD VCC R2 Figure 20. PCB layout suggestion. 14 Appendix C
Agilent Technologies
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lexan transparent HSDL-3002 5988-7424EN 5989-4165EN

infrared remote control ON/OFF switch application

Abstract: RF remote control circuit diagram . Figure 4. IR VLED vs. ILED. ILED vs. RADIANT INTENSITY (mW/Sr) OF THE 940 nm LED TEMPERATURE = 25°C VLEDA vs. ILED FOR THE 940 nm LED TEMPERATURE = 25°C 2.5 40 2.0 35 VLEDA (VOLTS , through-air, serial, half-duplex IR data link, and (2) IR remote control transmission operating at 940 nm , limiting resistor for the 940 nm RC LED. 2. CX1 must be placed within 0.7 cm of HSDL-3002 to obtain , switching MOSFET. The DIP switch is used to select between driving the 875 nm or 940 nm LED. Appendix
Lite-On Technology
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infrared remote control ON/OFF switch application RF remote control circuit diagram RF based remote control trw RF POWER TRANSISTOR 4 channel long range RF based remote control diagram remote control receiver and transmitter 825-C

spectrally dependent photodiode

Abstract: BSH103 . Figure 4. IR VLED vs. ILED. ILED vs. RADIANT INTENSITY (mW/Sr) OF THE 940 nm LED TEMPERATURE = 25°C VLEDA vs. ILED FOR THE 940 nm LED TEMPERATURE = 25°C 2.5 40 2.0 35 VLEDA (VOLTS , resistor for the 940 nm RC LED. 2. CX1 must be placed within 0.7 cm of HSDL-3002 to obtain optimum noise , switching MOSFET. The DIP switch is used to select between driving the 875 nm or 940 nm LED. Appendix , includes a 940 nm LED to support universal remote control applications. It is fully compliant to IrDA
Agilent Technologies
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spectrally dependent photodiode BSH103 FDC37C669 FDC37N769 HSDL-3002-007 HSDL3602

lexan 940

Abstract: diagram remote control receiver and transmitter . Figure 4. IR VLED vs. ILED. ILED vs. RADIANT INTENSITY (mW/Sr) OF THE 940 nm LED TEMPERATURE = 25°C VLEDA vs. ILED FOR THE 940 nm LED TEMPERATURE = 25°C 2.5 40 2.0 35 VLEDA (VOLTS , resistor for the 940 nm RC LED. 2. CX1 must be placed within 0.7 cm of HSDL-3002 to obtain optimum noise , switching MOSFET. The DIP switch is used to select between driving the 875 nm or 940 nm LED. Appendix , cellular phones. It also includes a 940 nm LED to support universal remote control applications. It is
Avago Technologies
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lexan 940 lexan 920A RF based remote control APPLICATION 2 pin ir led receiver 455 very long range ir remote control 5988-4165EN

P1 3003

Abstract: Marking Code SMD databook for HSDL-3003 (TxD_IrDA input pin) is used to turn on either the 875 nm LED or the 940 nm LEDs , In the two-TXD direct transmission mode, the 875 nm LED and the 940 nm LEDs are turned on , the TxD_RC input pin is used to turn on the 940 nm LEDs. SD TXD_IrDA TXD_RC IrDA LED , (V) Figure 5. Typical 940 nm LED VLEDA vs. ILEDA at room temperature performance. 7 0.15 , 0.5 0.6 0.7 ILEDA CURRENT (A) Figure 6. Typical 940 nm LED radiant intensity vs. ILED
Lite-On Technology
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P1 3003 Marking Code SMD databook 60RH AUDIO IRDA TRANSMITTER HSDL-3003-001 HSDL-3003-021

lexan 920A

Abstract: AN1114 optimum 940 nm wavelength for universal remote control applications. For IR data communication, the , . turn on either the 875 nm LED or the 940 nm LEDs while the TxD_RC input pin is grounded. The , the two-TXD direct transmission mode, the 875 nm LED and the 940 nm LEDs are turned on separately , (V) Figure 5. Typical 940 nm LED VLEDA vs. ILEDA at room temperature performance. 7 0.15 , 0.5 0.6 0.7 ILEDA CURRENT (A) Figure 6. Typical 940 nm LED radiant intensity vs. ILED
Agilent Technologies
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AN1114 IRDA TRANSMITTER AN-1114 5988-9510EN

AN1114

Abstract: FDC37C669 optimum 940 nm wavelength for universal remote control applications. For IR data communication, the , the two-TXD direct transmission mode. turn on either the 875 nm LED or the 940 nm LEDs while the , . Two-TXD Direct Transmission Mode In the two-TXD direct transmission mode, the 875 nm LED and the 940 nm , on the 875 nm LED while the TxD_RC input pin is used to turn on the 940 nm LEDs. Please refer to , . Typical 940 nm LED VLEDA vs. ILEDA at room temperature performance. 7 0.15 Figure 4. Typical 875
Agilent Technologies
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lexan 21051 5989-2298EN 5989-3133EN

EI 3003

Abstract: , half-duplex IR data link, and (2) IR remote control transmission operating at the optimum 940 nm wavelength , turn on either the 875 nm LED or the 940 nm LEDs while the TxD_RC input pin is grounded. The , nm LED and the 940 nm LEDs are turned on separately by two different input pins. The TxD_IrDA input pin is used to turn on the 875 nm LED while the TxD_RC input pin is used to turn on the 940 nm LEDs , nm LED VLEDA vs. ILEDA at room temperature performance. Figure 6. Typical 940 nm LED radiant
Agilent Technologies
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EI 3003

EI 3003

Abstract: LED IR for Tx, RX optimum 940 nm wavelength for universal remote control applications. For IR data communication, the , the two-TXD direct transmission mode. turn on either the 875 nm LED or the 940 nm LEDs while the , . Two-TXD Direct Transmission Mode In the two-TXD direct transmission mode, the 875 nm LED and the 940 nm , on the 875 nm LED while the TxD_RC input pin is used to turn on the 940 nm LEDs. Please refer to , CURRENT (A) Figure 6. Typical 940 nm LED radiant intensity vs. ILED current at room temperature
Agilent Technologies
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LED IR for Tx, RX Universal IR Remote ic 18 pin ic for remote controller 5989-1961EN

AN1114

Abstract: IrDA Data Link Design Guide for HSDL-3003 (TxD_IrDA input pin) is used to turn on either the 875 nm LED or the 940 nm LEDs , In the two-TXD direct transmission mode, the 875 nm LED and the 940 nm LEDs are turned on , the TxD_RC input pin is used to turn on the 940 nm LEDs. SD TXD_IrDA TXD_RC IrDA LED , (V) Figure 5. Typical 940 nm LED VLEDA vs. ILEDA at room temperature performance. 7 0.15 , 0.5 0.6 0.7 ILEDA CURRENT (A) Figure 6. Typical 940 nm LED radiant intensity vs. ILED
Avago Technologies
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IrDA Data Link Design Guide RCLED

BN033

Abstract: BIR-BO03J4G-1 BIR-BO07J4G BIR-BL03J4G-1 BIR-BL07J4G-1 Peak Wave Length p (nm) Material GaAs/GaAs 940 GaAlAs/GaAs 940 GaAlAs/GaAlAs 880 GaAlAs/GaAlAs 850 GaAs/GaAs 940 GaAlAs/GaAs 940 GaAlAs/GaAlAs 880 GaAlAs/GaAlAs 850 GaAs/GaAs 940 BIR-BM03J4G-1 T-13/4 , -1 BIR-BO03J4G-1 BIR-BO07J4G-1 BIR-BM03J4Q-1 BIR-BM07J4Q-1 940 880 GaAlAs/GaAlAs GaAlAs/GaAs 940 , BIR-BN03J7M BIR-BN07J7M BIR-BO03J7M BIR-BO07J7M 850 940 850 GaAlAs/GaAs 940 GaAlAs/GaAlAs
Bright LED Electronics
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BIR-BL0331 BIR-BL0731 BIR-BM1331 BIR-BN0331 BIR-BN0731 BIR-BO0331 BN033 ir05 BM1331 BIR-BL03J4G BIR-BM0331

IR LED 940 nm

Abstract: oximeter -40 +80 °C °C +240 °C TS Soldering Temperature* B 660 nm LED 940 nm LED , GaAlAs High power IR LED Emitters (660nm/940nm) PDI-E835 PACKAGE DIMENSIONS INCH [mm] .205 [5.21] .055 [1.40] .025 [0.64] RED L.E.D. WIRE BOND I.R. L.E.D. .225 [5.71] METALIZED , 0.08 0.03 664 MIN 1.2 940 nm TYP MAX 2.0 1.3 5 930 1.5 940 42 2 1 950 , Ceramic Package FEATURES DESCRIPTION APPLICATIONS · Low Cost · 660 nm +/- 3nm · 3 drive line
Advanced Photonix
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oximeter dual led 660 940 red infrared led 940nm high power Infrared LED 940nm led 940 dual-emitter
Abstract: 1.5 2.5 |iA E ^.'Im W /eM ^ XPK - 940 nm. Vr = 5 V a %/k , ; 1 = 1 mW/cm2, Xpk = 875 nm, VR = 5 V Param eter Reverse Light Current at 875 nm Reverse Light Current at 940 nm E = , -5400 AIra875/AT TBD HSDL-5420 AIra94()/AT T BD ; E = 1 mW/cm2, ?tpK = 940 nm, VR = 5 V , HSDL-5420 S(l)940 TBD AAV E = 1 mW/cm2, > K = 940 nm, VR = 5 V ,p Viewing Angle HSDL , , XpK = 940 nm, VR = 5 V HSDL-5400 N EP §75 TBD W /VÏÏz XpK = 875 nm, VR = 5 V HSDL -
OCR Scan
HSDL-44XX HSDL-54XX HSDL-44XX/54XX HSDL-440X 004S2

ILH-ID01-94NL-SC201

Abstract: ILH-ID01-85SN-SC201 fit. LED Solutions Applications zz Surveillance systems zz IR illumination for cameras LED , : zz Each Dragon1IR PowerStar contains an Osram Dragon IR LED zz Up to 100,000 Hour lifetime to 70% of , 's LED, when powered up, emits high levels of IR light thus it is advised that you do NOT look directly , @ 5A Radiance Angle [half power] Relevant Osram LED Data Sheet 850 nm 950 1250 3.0 V typ 3.5 V typ ±60° SFH4235 ILH-ID01-94NN-SC201. 940 nm 500 800 1.4 V typ
Intelligent LED Solutions
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ILH-ID01-94NL-SC201 ILH-ID01-85SN-SC201 powerstar DRAGON EYE SFH4236 sfh4239 ILH-ID01-

oximeter

Abstract: dual led 660 940 red infrared Soldering Temperature* +240 A mW °C 940 nm LED 660 nm LED B * 1/16 inch from case , GaAlAs High power IR LED Emitters (660nm/940nm) PDI-E833 .063 [1.60] PACKAGE DIMENSIONS INCH [mm] .167 [4.24] C L .104 [2.64] C L .055 [1.40] RED L.E.D. CHIP .025 [0.64] I.R. L.E.D. CHIP .060 [1.52] C L METALIZED CERAMIC WIRE BONDS .250 [6.35] ENCAPSOLATE , 940 nm TYP MAX 1.8 1.3 5 930 1.5 940 50 0.8 0.8 950 UNITS mW mcd V V nm nm
Advanced Photonix
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ir red led oximeter led emitter 940nm 940 nm LED high power ir led oximeter 660 940 finger probe
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