The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LT4430HS6#TRPBF Linear Technology LT4430 - Secondary-Side Optocoupler Driver; Package: SOT; Pins: 6; Temperature Range: -40°C to 125°C
LT4430ES6#TRPBF Linear Technology LT4430 - Secondary-Side Optocoupler Driver; Package: SOT; Pins: 6; Temperature Range: -40°C to 85°C
LT4430IS6#TRPBF Linear Technology LT4430 - Secondary-Side Optocoupler Driver; Package: SOT; Pins: 6; Temperature Range: -40°C to 85°C
LT4430HS6#TRMPBF Linear Technology LT4430 - Secondary-Side Optocoupler Driver; Package: SOT; Pins: 6; Temperature Range: -40°C to 125°C
LT4430ES6#TRMPBF Linear Technology LT4430 - Secondary-Side Optocoupler Driver; Package: SOT; Pins: 6; Temperature Range: -40°C to 85°C
LT4430IS6#TRMPBF Linear Technology LT4430 - Secondary-Side Optocoupler Driver; Package: SOT; Pins: 6; Temperature Range: -40°C to 85°C

932 optocoupler Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2004 - LNK354

Abstract: PC817 PC817D application example 1N4007 smd bp fly-back layout transistor SMD 3906 ic e137
Text: exceeds the optocoupler diode forward conduction voltage of approximately 1 V. The current through the LED , should be placed between the negative terminals of the input filter capacitors. Optocoupler Place the optocoupler physically close to the LinkSwitch-HF to minimize the primary side trace lengths. Keep the high current, high voltage drain and clamp traces away from the optocoupler to prevent noise pick up. Output , Capacitor SEC PRI S S D LinkSwitch-HF Optocoupler S S BP FB Maximize hatched


Original
PDF LNK353/354 LNK354 PC817 PC817D application example 1N4007 smd bp fly-back layout transistor SMD 3906 ic e137
2014 - Not Available

Abstract: No abstract text available
Text: protection cost. A local supply provided by the IC allows use of a nonsafety graded optocoupler acting as a , without an optocoupler and reference to improve output voltage tolerance and regulation. Table 2 provide , regulation VO PI-3751-041509 High-Side Buck – Optocoupler Feedback BP FB + D S , respect to -VIN 3. Step down – VO < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice - Low cost non-safety rated optocoupler - No pre-load required 5. Minimum no-load


Original
PDF LNK302/304-306 LNK302
2009 - VO3150-X001

Abstract: optocoupler igbt 932 optocoupler VO3150 IEC68 VO3150-X017T NATIONAL IGBT
Text: VO3150 Vishay Semiconductors Optocoupler , IGBT and MOSFET Driver FEATURES · 0.5 A minimum , LED optically coupled to an integrated circuit with a power output stage. This optocoupler is , devices. The voltage and current supplied by this optocoupler makes it ideally suited for directly , : 83875 Rev. 1.9, 15-Apr-08 VO3150 Optocoupler , IGBT and MOSFET Driver Vishay Semiconductors , Output power dissipation OPTOCOUPLER Isolation test voltage between emitter and detector, climate per


Original
PDF VO3150 thdip87 VO3150 18-Jul-08 VO3150-X001 optocoupler igbt 932 optocoupler IEC68 VO3150-X017T NATIONAL IGBT
2013 - Not Available

Abstract: No abstract text available
Text: nonsafety graded optocoupler acting as a level shifter to further enhance line and load regulation , without an optocoupler and reference to improve output voltage tolerance and regulation. Table 2 provide , regulation VO PI-3751-041509 High-Side Buck – Optocoupler Feedback BP FB + D S , respect to -VIN 3. Step down – VO < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice - Low cost non-safety rated optocoupler - No pre-load required 5. Minimum no-load


Original
PDF LNK302/304-306 LNK302
2008 - 932 optocoupler

Abstract: VO3150-X001
Text: VO3150 Vishay Semiconductors Optocoupler , IGBT and MOSFET Driver FEATURES · 0.5 A minimum , . This optocoupler is ideally suited for driving power IGBTs and MOSFETs used in motor control inverter , controlled devices. The voltage and current supplied by this optocoupler makes it ideally suited for directly , : 83875 Rev. 1.9, 15-Apr-08 VO3150 Optocoupler , IGBT and MOSFET Driver ABSOLUTE MAXIMUM RATINGS (1 , Output power dissipation OPTOCOUPLER Isolation test voltage between emitter and detector, climate per DIN


Original
PDF VO3150 thdip87 VO3150 08-Apr-05 932 optocoupler VO3150-X001
2004 - S 354 OPTOCOUPLER

Abstract: lnk354 battery charger ss14 transistor SMD 3906 "lnk 354" optocoupler PC817D CELL PI-3709-111203 PC817D application example SMD-8B 354 optocoupler
Text: approximately 400 mA, the voltage across the sense resistor exceeds the optocoupler diode forward conduction , should be placed between the negative terminals of the input filter capacitors. Optocoupler Place the optocoupler physically close to the LinkSwitch-HF to minimize the primary side trace lengths. Keep the high current, high voltage drain and clamp traces away from the optocoupler to prevent noise pick up. Output , S BP FB Optocoupler CBP Figure 6. Recommended Printed Circuit Layout for


Original
PDF LNK353/354 S 354 OPTOCOUPLER lnk354 battery charger ss14 transistor SMD 3906 "lnk 354" optocoupler PC817D CELL PI-3709-111203 PC817D application example SMD-8B 354 optocoupler
2005 - lnk306

Abstract: LNK302 LNK304G lnk304 PI-3779-120803 PI-3751-121003 LNK304 Application Note 8 pin SMD ic 4570 datasheet 4 pin SMD step up transformer LNK305 LinkSwitch-TN
Text: provided by the IC allows use of a non-safety graded optocoupler acting as a level shifter to further , . Topology Options LinkSwitch-TN can be used in all common topologies, with or without an optocoupler and , (±10% typ.) VO PI-3751-121003 High-Side Buck ­ Optocoupler Feedback BP FB D + S + LinkSwitch-TN VO VIN PI-3752-121003 Low-Side Buck ­ Optocoupler Feedback + + , down ­ VO < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice - Low cost


Original
PDF LNK302/304-306 LNK302 lnk306 LNK304G lnk304 PI-3779-120803 PI-3751-121003 LNK304 Application Note 8 pin SMD ic 4570 datasheet 4 pin SMD step up transformer LNK305 LinkSwitch-TN
2004 - LNK304 Application Note

Abstract: isolation Application Note LNK304 lnk306 lnk306 design guide LNK304 LNK304-306 lnk304 flyback transformer pin LNK305 932 optocoupler Application Note LNK304
Text: non-safety graded optocoupler acting as a level shifter to further enhance line and load regulation , common topologies, with or without an opto-coupler and reference to improve output voltage tolerance , PI-3751-121003 High-Side Buck ­ Optocoupler Feedback BP FB + D S + LinkSwitch-TN VO VIN PI-3752-121003 Low-Side Buck ­ Optocoupler Feedback + LinkSwitch-TN VO , Output referenced to input Negative output (VO) with respect to +VIN Step down ­ VO < VIN Optocoupler


Original
PDF LNK304-306 261/A, LNK304 Application Note isolation Application Note LNK304 lnk306 lnk306 design guide LNK304 LNK304-306 lnk304 flyback transformer pin LNK305 932 optocoupler Application Note LNK304
2006 - Power Integrations

Abstract: lnk306 LNK302 LNK304 Application Note 8 pin SMD ic 4570 datasheet PI-3757-112103 LinkSwitch-TN lnk304 isolation Application Note LNK304 lnk306 power supply
Text: protection cost. A local supply provided by the IC allows use of a non-safety graded optocoupler acting as a , VIN VO PI-3751-121003 High-Side Buck ­ Optocoupler Feedback BP FB D + S + LinkSwitch-TN VO VIN PI-3752-121003 Low-Side Buck ­ Optocoupler Feedback + + LinkSwitch-TN , . Optocoupler feedback - Accuracy only limited by reference choice - Low cost non-safety rated opto - No , < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice - Low cost non-safety


Original
PDF LNK302/304-306 LNK302 Power Integrations lnk306 LNK304 Application Note 8 pin SMD ic 4570 datasheet PI-3757-112103 LinkSwitch-TN lnk304 isolation Application Note LNK304 lnk306 power supply
2005 - lnk500 to equivalent ic

Abstract: 8020 OPTOCOUPLER ee13 ferrite transformer PI-3741-101703 EE13 core LNK520 emi filter by lcr electronics tv nei schematics LNK500 bsc flyback transformer tv
Text: Schematic Outline with Optocoupler Feedback, Providing Tight CV Regulation. The characteristics described , , an optocoupler configuration can be used while still employing the constant output current , schematic outline using LinkSwitch with optocoupler feedback to improve output voltage regulation. On the primary side, the schematic only differs from Figure 5 by the addition of optocoupler U1 transistor in , threshold defined by U1 and VR1 and the optocoupler is fully off. In this region, the circuit behaves


Original
PDF LNK520 lnk500 to equivalent ic 8020 OPTOCOUPLER ee13 ferrite transformer PI-3741-101703 EE13 core LNK520 emi filter by lcr electronics tv nei schematics LNK500 bsc flyback transformer tv
2004 - LNK304 Application Note

Abstract: lnk306 LNK304 LNK302 isolation Application Note LNK304 LinkSwitch-TN* with flyback transformer lnk305 LNK304-306 LinkSwitch-TN LNK306P
Text: provided by the IC allows use of a non-safety graded optocoupler acting as a level shifter to further , . Topology Options LinkSwitch-TN can be used in all common topologies, with or without an optocoupler and , (±10% typ.) VO PI-3751-121003 High-Side Buck ­ Optocoupler Feedback BP FB D + S + LinkSwitch-TN VO VIN PI-3752-121003 Low-Side Buck ­ Optocoupler Feedback + + , down ­ VO < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice - Low cost


Original
PDF LNK302/304-306 LNK302 LNK304 Application Note lnk306 LNK304 isolation Application Note LNK304 LinkSwitch-TN* with flyback transformer lnk305 LNK304-306 LinkSwitch-TN LNK306P
2004 - LNK304

Abstract: lnk306 LNK302 isolation Application Note LNK304 LNK305 LNK304-306 4 pin SMD step up transformer LNK305 IC lnk306 LNK305P
Text: provided by the IC allows use of a non-safety graded optocoupler acting as a level shifter to further , in all common topologies, with or without an optocoupler and reference to improve output voltage , Buck ­ Optocoupler Feedback FB BP S + VIN D + VO LinkSwitch-TN PI , . Optocoupler feedback - Accuracy only limited by reference choice - Low cost non-safety rated opto - No pre-load required 5. Minimum no-load consumption Low-Side Buck ­ Optocoupler Feedback +


Original
PDF LNK302/304-306 LNK302 LNK304 lnk306 isolation Application Note LNK304 LNK305 LNK304-306 4 pin SMD step up transformer LNK305 IC lnk306 LNK305P
2006 - LNK302

Abstract: lnk306 lnk305 isolation Application Note LNK304 4 pin SMD step up transformer LNK305 LNK304 Application Note TOPswitch buck boost lnk30 LNK304-306 PI-3755-121003
Text: protection cost. A local supply provided by the IC allows use of a non-safety graded optocoupler acting as a , VIN VO PI-3751-121003 High-Side Buck ­ Optocoupler Feedback BP FB D + S + LinkSwitch-TN VO VIN PI-3752-121003 Low-Side Buck ­ Optocoupler Feedback + + LinkSwitch-TN , . Optocoupler feedback - Accuracy only limited by reference choice - Low cost non-safety rated opto - No , < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice - Low cost non-safety


Original
PDF LNK302/304-306 LNK302 lnk306 lnk305 isolation Application Note LNK304 4 pin SMD step up transformer LNK305 LNK304 Application Note TOPswitch buck boost lnk30 LNK304-306 PI-3755-121003
2005 - LNK304 Application Note

Abstract: lnk306 LNK302 LNK302P LinkSwitch-TN lnk306 design guide isolation Application Note LNK304 LNK306P 945 mosfet LNK304-306
Text: provided by the IC allows use of a non-safety graded optocoupler acting as a level shifter to further , . Topology Options LinkSwitch-TN can be used in all common topologies, with or without an optocoupler and , (±10% typ.) VO PI-3751-121003 High-Side Buck ­ Optocoupler Feedback BP FB D + S + LinkSwitch-TN VO VIN PI-3752-121003 Low-Side Buck ­ Optocoupler Feedback + + , 3. Step down ­ VO < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice -


Original
PDF LNK302/304-306 LNK302 LNK304 Application Note lnk306 LNK302P LinkSwitch-TN lnk306 design guide isolation Application Note LNK304 LNK306P 945 mosfet LNK304-306
2006 - lnk305

Abstract: No abstract text available
Text: IC allows use of a non-safety graded optocoupler acting as a level shifter to further enhance line , VO PI-3751-121003 High-Side Buck – Optocoupler Feedback BP FB D + S + LinkSwitch-TN VO VIN PI-3752-121003 Low-Side Buck – Optocoupler Feedback + + LinkSwitch-TN , < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice - Low cost non-safety , -VIN 3. Step down – VO < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice


Original
PDF LNK302/304-306 LNK302 lnk305
2006 - lnk304gn

Abstract: LNK304GN-TL LNK304 Application Note isolation Application Note LNK304 lnk306 design guide lnk306 PI-3752-121003 PI-3757-112103 lnk305 LNK304-306
Text: non-safety graded optocoupler acting as a level shifter to further enhance line and load regulation , LinkSwitch-TN PI-3751-121003 High-Side Buck ­ Optocoupler Feedback FB BP S + VIN D + VO , . Step down ­ VO < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice - Low cost non-safety rated opto - No pre-load required 5. Minimum no-load consumption Low-Side Buck ­ Optocoupler , output (VO) with respect to +VIN 3. Step down ­ VO < VIN 4. Optocoupler feedback - Accuracy only limited


Original
PDF LNK302/304-306 LNK302 869-LNK304GN-TL LNK304GN-TL lnk304gn LNK304GN-TL LNK304 Application Note isolation Application Note LNK304 lnk306 design guide lnk306 PI-3752-121003 PI-3757-112103 lnk305 LNK304-306
2006 - LNK302

Abstract: LNK304 Application Note lnk305 lnk306 design guide LNK302D 932 optocoupler TOPswitch buck boost isolation Application Note LNK304 lnk304 flyback transformer pin LNK304PG
Text: non-safety graded optocoupler acting as a level shifter to further enhance line and load regulation , (±10% typ.) VO PI-3751-121003 High-Side Buck ­ Optocoupler Feedback BP FB D + S + LinkSwitch-TN VO VIN PI-3752-121003 Low-Side Buck ­ Optocoupler Feedback + + , down ­ VO < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice - Low cost , ) with respect to -VIN 3. Step down ­ VO < VIN 4. Optocoupler feedback - Accuracy only limited by


Original
PDF LNK302/304-306 LNK302 LNK304 Application Note lnk305 lnk306 design guide LNK302D 932 optocoupler TOPswitch buck boost isolation Application Note LNK304 lnk304 flyback transformer pin LNK304PG
2005 - EE19 transformer

Abstract: EE13 core TOPSWITCH battery charger lnk501 uses of magnitude comparator PI-2799-112102 LNK501 February 2005 LNK501P core ee19 transformer schematic ee16 lnk
Text: LNK501 from Figure 5 by the addition of R3, C3 and optocoupler U1. Resistor R3 forms a potential , optocoupler configuration can be used while still employing the constant output current characteristics , schematic using LinkSwitch with optocoupler feedback to improve output voltage regulation. On the primary , Schematic with Optocoupler Feedback. Output Voltage Inherent CC to CV transition point Voltage feedback threshold Tolerance envelope without optocoupler Typical inherent characteristic without


Original
PDF LNK501 EE19 transformer EE13 core TOPSWITCH battery charger lnk501 uses of magnitude comparator PI-2799-112102 LNK501 February 2005 LNK501P core ee19 transformer schematic ee16 lnk
2004 - EE19 transformer

Abstract: smd diode 28 LNK500 IN645
Text: solution in many low power applications. If tighter load regulation is required, an optocoupler , LinkSwitch with optocoupler feedback to improve output voltage regulation. On the primary side, the schematic differs from Figure 5 by the addition of R3, C3 and optocoupler U1. R3 forms a potential divider with R1 , VR1 U1 R3 C3 RTN PI-3418-071304 Figure 6. Power Supply Outline Schematic with Optocoupler , Tolerance envelope without optocoupler Typical inherent characteristic without optocoupler Characteristic


Original
PDF LNK500 EE19 transformer smd diode 28 LNK500 IN645
2004 - EE19 transformer

Abstract: core ee19 transformer schematic PI-2222-031401 V116T EE19 type core PI-2787-112102
Text: solution in many low power applications. If tighter load regulation is required, an optocoupler , LinkSwitch with optocoupler feedback to improve output voltage regulation. On the primary side, the schematic differs from Figure 5 by the addition of R3, C3 and optocoupler U1. Resistor R3 forms a potential divider , U1 R3 C3 VR1 RTN PI-2787-112102 Figure 6. Power Supply Outline Schematic with Optocoupler , envelope without optocoupler Typical inherent characteristic without optocoupler Characteristic with


Original
PDF LNK501 EE19 transformer core ee19 transformer schematic PI-2222-031401 V116T EE19 type core PI-2787-112102
2005 - ee19 transformer

Abstract: LNK500 8020 OPTOCOUPLER PI-278 TOPSWITCH battery charger core ee19 PI-2799-112102 279011 PI-255 LNK501
Text: 5 by the addition of R3, C3 and optocoupler U1. R3 forms a potential divider with R1 to limit the , power applications. If tighter load regulation is required, an optocoupler configuration can be used , optocoupler feedback to improve output voltage regulation. On the primary side, the schematic differs U1 , R3 C3 RTN PI-3418-071304 Figure 6. Power Supply Outline Schematic with Optocoupler Feedback , envelope without optocoupler Typical inherent characteristic without optocoupler Characteristic with


Original
PDF LNK500 ee19 transformer LNK500 8020 OPTOCOUPLER PI-278 TOPSWITCH battery charger core ee19 PI-2799-112102 279011 PI-255 LNK501
2003 - EE19 transformer

Abstract: 2904 SMD IC EE13 core lnk501 and 2003 ee16 lnk ee13 ferrite transformer HIGH FREQUENCY Transformer ee19 DIP-8B PI-2787-112102 LNK501
Text: the addition of R3, C3 and optocoupler U1. R3 forms a potential divider with R1 to limit the U1 , power applications. If tighter load regulation is required, an optocoupler configuration can be used , shows a typical power supply outline schematic using LinkSwitch with optocoupler feedback to improve , 6. Power Supply Outline Schematic with Optocoupler Feedback. Output Voltage Inherent CC to CV transition point Voltage feedback threshold Tolerance envelope without optocoupler Typical


Original
PDF LNK501 EE19 transformer 2904 SMD IC EE13 core lnk501 and 2003 ee16 lnk ee13 ferrite transformer HIGH FREQUENCY Transformer ee19 DIP-8B PI-2787-112102 LNK501
2004 - lnk500 to equivalent ic

Abstract: LNK500 emi filter by lcr electronics ee16 lnk
Text: Supply Schematic Outline with Optocoupler Feedback, Providing Tight CV Regulation. The characteristics , , an optocoupler configuration can be used while still employing the constant output current , schematic outline using LinkSwitch with optocoupler feedback to improve output voltage regulation. On the primary side, the schematic only differs from Figure 5 by the addition of optocoupler U1 transistor in , the optocoupler is fully off. In this region, the circuit behaves exactly as previously described with


Original
PDF LNK520 lnk500 to equivalent ic LNK500 emi filter by lcr electronics ee16 lnk
2004 - lnk500 to equivalent ic

Abstract: LNK500 ee13 ferrite transformer 1N400x EE16 core transformer LNK520 ee16 lnk
Text: PI-3703-030404 Figure 6. Power Supply Schematic Outline with Optocoupler Feedback, Providing Tight , power applications. If even tighter load regulation is required, an optocoupler configuration can be , optocoupler feedback to improve output voltage regulation. On the primary side, the schematic only differs from Figure 5 by the addition of optocoupler U1 transistor in parallel to R1. On the secondary side , the optocoupler is fully off. In this region, the circuit behaves exactly as previously described


Original
PDF LNK520 lnk500 to equivalent ic LNK500 ee13 ferrite transformer 1N400x EE16 core transformer LNK520 ee16 lnk
2003 - ee19 transformer

Abstract: lnk500 to equivalent ic LNK500 lnk501 and 2003 ee16 lnk lnk 305 pn ee13 ferrite transformer EE16 core transformer transistor smd ALG TL431
Text: and optocoupler U1. R3 forms a potential divider with R1 to limit the U1 collector emitter voltage , regulation is required, an optocoupler configuration can be used while still employing the constant output , outline schematic using LinkSwitch with optocoupler feedback to improve output voltage regulation. On , Outline Schematic with Optocoupler Feedback. Output Voltage Inherent CC to CV transition point Voltage feedback threshold Tolerance envelope without optocoupler Typical inherent characteristic


Original
PDF LNK500 ee19 transformer lnk500 to equivalent ic LNK500 lnk501 and 2003 ee16 lnk lnk 305 pn ee13 ferrite transformer EE16 core transformer transistor smd ALG TL431
Supplyframe Tracking Pixel