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4N35DCJ Texas Instruments 4N35 Optocoupler visit Texas Instruments
TIL186 Texas Instruments TIL186 AC-Input Optocouplers visit Texas Instruments
TIL919C Texas Instruments TIL919C Quad-Channel Optocoupler/Optoisolator visit Texas Instruments
4N26 Texas Instruments Optocoupler 6-PDIP visit Texas Instruments
HCPL2601 Texas Instruments Optocoupler/Optoisolator 8-PDIP visit Texas Instruments
MOC3020 Texas Instruments Optocoupler/Optoisolator 6-PDIP visit Texas Instruments

932 optocoupler

Catalog Datasheet MFG & Type PDF Document Tags

LNK354

Abstract: PC817 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
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VO3150-X001

Abstract: optocoupler igbt 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
Vishay Semiconductors
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VO3150-X001 optocoupler igbt 932 optocoupler NATIONAL IGBT IEC68 VO3150-X017T
Abstract: 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 â'" Optocoupler Feedback BP FB + D S , respect to -VIN 3. Step down â'" 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 Power Integrations
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LNK302/304-306 LNK302

932 optocoupler

Abstract: VO3150-X001 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
Vishay Semiconductors
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D-74025
Abstract: 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 â'" Optocoupler Feedback BP FB + D S , respect to -VIN 3. Step down â'" 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 Power Integrations
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S 354 OPTOCOUPLER

Abstract: lnk354 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
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S 354 OPTOCOUPLER lnk354 battery charger ss14 transistor SMD 3906 optocoupler PC817D CELL LNK353/354 D-80336 261/A

lnk500 to equivalent ic

Abstract: 8020 OPTOCOUPLER 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
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LNK520 lnk500 to equivalent ic 8020 OPTOCOUPLER ee13 ferrite transformer EE13 core PI-3741-101703

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Abstract: lnk306 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
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Power Integrations lnk306 LNK304 Application Note 8 pin SMD ic 4570 datasheet PI-3757-112103 lnk304

lnk306

Abstract: LNK302 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
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LNK304G PI-3779-120803 4 pin SMD step up transformer LNK305 LinkSwitch-TN dt-55 LNK304-306

LNK304 Application Note

Abstract: isolation Application Note LNK304 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
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isolation Application Note LNK304 lnk306 design guide lnk304 flyback transformer pin LNK305 Application Note LNK304 37541

LNK302

Abstract: lnk306 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
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TOPswitch buck boost lnk30 PI-3755-121003 LinkSwitch-TN* with flyback transformer opto mosfet Basic Halogen Converter

LNK304 Application Note

Abstract: lnk306 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
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smd zener bp SMD Power MOSFET Cross Reference Guide LNK302P LNK304P LNK305P LNK306P

lnk306

Abstract: LNK304 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 +
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IC lnk306

lnk304gn

Abstract: LNK304GN-TL 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
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LNK304GN-TL lnk304gn LNK304PG PI-3709-111203 PI-3750-121106 PI-3660-081303 869-LNK304GN-TL

lnk305

Abstract: 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 â'" Optocoupler Feedback BP FB D + S + LinkSwitch-TN VO VIN PI-3752-121003 Low-Side Buck â'" Optocoupler Feedback + + LinkSwitch-TN , < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice - Low cost non-safety , -VIN 3. Step down â'" VO < VIN 4. Optocoupler feedback - Accuracy only limited by reference choice
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LNK304 Application Note

Abstract: lnk306 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 -
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lnk306 power supply 945 mosfet Energy Efficient Off-Line Switcher IC

LNK302

Abstract: LNK304 Application Note 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
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LNK302D schematic diagram voltage regulator for AC to AC

EE19 transformer

Abstract: EE13 core 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
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EE19 transformer TOPSWITCH battery charger PI-2799-112102 uses of magnitude comparator PI-2777-032503 DIP-8B

EE19 transformer

Abstract: smd diode 28 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
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LNK500 smd diode 28 IN645

EE19 transformer

Abstract: core ee19 transformer schematic 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
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core ee19 transformer schematic EE19 type core PI-2222-031401 V116T
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