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DC1205A Linear Technology BOARD EVAL LED DRIVER LT3592
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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
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IR LED 940 nm Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1998 - PHOTOELECTRIC SENSORS

Abstract:
Text: 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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2007 - Eye Safety

Abstract:
Text: 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


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PDF 22-Jan-15 Eye Safety
ir led 940 nm 1 w

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Text: 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


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2002 - lexan transparent

Abstract:
Text: . 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


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PDF HSDL-3002 825-class 5988-7424EN 5989-4165EN lexan transparent
2007 - infrared remote control ON/OFF switch application

Abstract:
Text: . 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


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PDF HSDL-3002 HSDL-3002 infrared remote control ON/OFF switch application RF remote control circuit diagram RF based remote control trw RF POWER TRANSISTOR diagram remote control receiver and transmitter SMD codes databook light dependent resistor 4 channel long range RF based remote control FDC37C669 8 channel remote control transmitter circuit
2002 - spectrally dependent photodiode

Abstract:
Text: . 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


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PDF HSDL-3002 HSDL-3002 5988-7424EN spectrally dependent photodiode PC87109 HSDL3602 HSDL-3602 HSDL-3002-007 FDC37N769 FDC37C669 BSH103 3002
2006 - lexan 940

Abstract:
Text: . 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


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PDF HSDL-3002 HSDL-3002 5988-7424EN 5988-4165EN lexan 940 lexan 920A diagram remote control receiver and transmitter RF remote control circuit diagram RF based remote control APPLICATION HSDL3602 FDC37N769 very long range ir remote control BSH103
2003 - lexan 920A

Abstract:
Text: 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


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PDF HSDL-3003 HSDL-3003 5988-9510EN lexan 920A AN-1114 AN1114 FDC37C669 FDC37N769 HSDL-3003-021 IRDA TRANSMITTER
2003 - EI 3003

Abstract:
Text: , 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


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PDF HSDL-3003 5988-9510EN EI 3003
2003 - AN1114

Abstract:
Text: 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


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PDF HSDL-3003 HSDL-3003 5989-2298EN 5989-3133EN AN1114 FDC37C669 FDC37N769 HSDL-3003-001 HSDL-3003-021 lexan 21051
2007 - P1 3003

Abstract:
Text: 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


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PDF HSDL-3003 HSDL-3003 P1 3003 Marking Code SMD databook 60RH lexan 940 AUDIO IRDA TRANSMITTER RF remote control circuit diagram Infrared Remote-control Receiver FDC37N769 very long range ir remote control
2003 - EI 3003

Abstract:
Text: 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


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PDF HSDL-3003 HSDL-3003 5988-9510EN 5989-1961EN EI 3003 LED IR for Tx, RX lexan 21051 18 pin ic for remote controller HSDL-3003-021 HSDL-3003-001 FDC37N769 FDC37C669 AN1114
2006 - AN1114

Abstract:
Text: 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


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PDF HSDL-3003 HSDL-3003 5989-2298EN 5989-3133EN AN1114 IrDA Data Link Design Guide IRDA TRANSMITTER RCLED HSDL-3003-021 HSDL-3003-001 FDC37N769 FDC37C669 very long range ir remote control
2011 - ILH-ID01-94NL-SC201

Abstract:
Text: 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


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PDF ILH-ID01-xxxx-SC201-xx ILH-ID01-94NL-SC201 ILH-ID01-85SN-SC201 DRAGON EYE powerstar SFH4236 sfh4239 ILH-ID01-85NL-SC201 sfh4233 LED DRAGON X ILH-ID01-94NN-SC201
2005 - IR LED 940 nm

Abstract:
Text: -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


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PDF 660nm/940nm) PDI-E835 PDI-E835 940nm IR LED 940 nm oximeter dual led 660 940 red infrared Infrared LED 940nm led 940nm high power led 940 dual-emitter oximeter schematic
2005 - oximeter

Abstract:
Text: 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


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PDF 660nm/940nm) PDI-E833 PDI-E833 940nm oximeter dual led 660 940 red infrared ir red led oximeter IR LED 940 nm led emitter 940nm oximeter 660 940 high power ir led finger probe 940 nm LED
IR LED array

Abstract:
Text: INFRARED LED DICE National Semiconductor is a world leader in the manufacture and sale of infrared LED dice.State of the art LPE 940 nm Gallium Arsenide and LPE 880 nm Gallium Aluminum Arsenide , . HIGH OUTPUT IR 940 nm Gallium Arsenide CXC-1818-1 RM N 18x18 CN High power emitter for DC or pulse applications. CXC-1111- IR N 11x11 CP Low cost emitter. High efficiency. CXC-1111-IRP P 11x11 CO Reverse , Number Wire Bond Pad Polarity Die Size (.001") Package Type Characteristics SUPER IR 880 nm Gallium


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PDF CXC-1316-GAL CXC-1818-GAL CXC-1111-RM 11x11 14x14* CXC-1111-HRM CXC-1111-YM CXC-1111-GM IR LED array cxc1111gm CXC-1818-1 IR LED 940 nm CXC-1111-IRP vial gm
Not Available

Abstract:
Text: 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


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PDF HSDL-44XX HSDL-54XX HSDL-44XX/54XX Sens002)
2002 - Not Available

Abstract:
Text: Storage & Operating Temp 660 nm LED Soldering Temperature* +80 o C 240 -40 o C 940 nm LED A C * For 3 seconds max using a heat sink. ELECTRO-OPTICAL CHARACTERISTICS (TA , PHOTONIC DETECTORS INC. Three Drive Emitter, Oximeter Component (660/ 940 nm ) Type PDI-E835 , L.E.D . WIRE BOND I.R . L.E.D . .225 [5.71] METALIZED CERAMIC SUBSTRATE CLEAR ENCAPSULATE , Oximeter probes Finger clamps Reusable probes emitter oximeter component. The 660 GaAlAs and 940 nm


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PDF PDI-E835 PDI-E835 100-PDI-E835
Not Available

Abstract:
Text: 660 nm LED 940 nm LED C A * 1/16 inch from case for 3 seconds max. ELECTRO-OPTICAL , 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 , 2.4 661 22 0.08 0.03 664 MIN 1.2 940 nm TYP MAX 2.0 1.3 5 930 1.5 940 42 , Ceramic Package FEATURES DESCRIPTION APPLICATIONS • Low Cost • 660 nm +/- 3nm • 3


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PDF 660nm/940nm) PDI-E835 PDI-E835 940nm
2002 - Not Available

Abstract:
Text: PHOTONIC DETECTORS INC. Dual Drive Emitter, Oximeter Component (660/ 940 nm ) Type PDI-E833 , .055 [1.40] RED L.E.D . CHIP .025 [0.64] I.R . L.E.D . CHIP .060 [1.52] C L METALIZED CERAMIC , GaAlAs and 940 nm GaAs emitters are high power LPE grown. The metalized ceramic has clear epoxy , nm LED 660 nm LED mA C B * For 3 seconds max using a heat sink. ELECTRO-OPTICAL CHARACTERISTICS (TA=25OC unless otherwise noted) SYMBOL CHARACTERISTIC TEST CONDITIONS 660 nm 940 nm


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PDF PDI-E833 PDI-E833 100-PDI-E833
Not Available

Abstract:
Text: Soldering Temperature* +240 A mW ° C 940 nm LED 660 nm LED B * 1/16 inch from , 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


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PDF 660nm/940nm) PDI-E833 PDI-E833 940nm
2005 - Infrared led 850 smd

Abstract:
Text: ( 940 nm ) LED while the TxD_RC input pin is grounded. The transceiver is in default mode (IrDA-SIR , ) LED and the remote control ( 940 nm ) LED are turned on separately by two different input pins. The , on the remote control ( 940 nm ) LED . Please refer to the Transceiver I/O truth table for more , operating at the optimum 940 nm wavelength for universal remote control applications. The HSDL , control transmission function at 940 nm typically · Typical link distance up to 14 meters (on-axis


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PDF HSDL-3020 HSDL-3020 IEC825 5989-2359EN Infrared led 850 smd SA-1110 RCLED LED IR RX AC97 HSDL-3020-021 AN1114 SMT IR LED
2007 - Marking Code SMD databook

Abstract:
Text: VIH Low IL -0.02 1 µA 0 VI VIL 940 ° nm RC LED Anode On-State , programmable mode, only one input pin (TxD_IR input pin) is used to turn on the remote control ( 940 nm ) LED , transmission mode, the IrDA (875 nm ) LED and the remote control ( 940 nm ) LED are turned on separately by two , is used to turn on the remote control ( 940 nm ) LED . Please refer to the Transceiver I/O truth table , operating at the optimum 940 nm wavelength for universal remote control applications. The HSDL


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PDF HSDL-3020 HSDL-3020 Marking Code SMD databook IR LED and photodiode 5mm A 3020 LED IR RX A 3020 8 pin RC transmitter edge emitter LED HSDL-3020-021 smd marking code eg Infrared Remote-control Receiver
2006 - HSDL-3020

Abstract:
Text: ( 940 nm ) LED while the TxD_RC input pin is grounded. The transceiver is in default mode (IrDA-SIR , ) LED and the remote control ( 940 nm ) LED are turned on separately by two different input pins. The , on the remote control ( 940 nm ) LED . Please refer to the Transceiver I/O truth table for more , at the optimum 940 nm wavelength for universal remote control applications. The HSDL-3020 features , angle and high radiant intensity · Spectrally suited to remote control transmission function at 940 nm


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PDF HSDL-3020 HSDL-3020 IEC825 5989-2359EN 5989-4167EN "universal remote control" chip SA-1110 RC-6 ir remote control LED IR RX HSDL-3020-021 AN1114 AC97 SMT IR LED
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