Product Summary
The ILD620GB-X009T is a multi-channel input phototransistor optocoupler that use inverse parallel GaAs IRLED emitter and highgain NPN silicon phototransistors per channel. The ILD620GB-X009T is constructed using over/under lead frame optical coupling and double molded insulation result-ing in a withstand test voltage of 5300 VRMS. The LED parameters and the linear CTR characteristics make the ILD620GB-X009T well suited for AC voltage detection.
Parametrics
ILD620GB-X009T absolute maximu ratings: (1) Forward current IF : ±60mA; (2) Surge current IFSM: ±1.5A; (3) Power dissipation Pdiss: 100mW; (4) Derate linearly from 25°C: 1.3m°C/W; (5) Collector-emitter breakdown voltage: 70V; (6) Collector current: 50mA; (7) Power dissipation: 150mW; (8) Derate from 25°C: 2.0m°C/W.
Features
ILD620GB-X009T features: (1) Identical Channel to Channel Footprint; (2) High Collector-Emitter Voltage, BVCEO = 70 V; (3) Isolation Test Voltage 5300 VRMS; (4) Lower Pin and Parts Count; (5) Better Channel to Channel CTR Match; (6) Improved Common Mode Rejection.
Diagrams
Image | Part No | Mfg | Description | Pricing (USD) |
Quantity | |||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
ILD620GB-X009T |
Vishay Semiconductors |
Transistor Output Optocouplers Phototransistor Out Dual CTR > 100% |
Data Sheet |
|
|
|||||||||||||
Image | Part No | Mfg | Description | Pricing (USD) |
Quantity | |||||||||||||
ILD610 |
Other |
Data Sheet |
Negotiable |
|
||||||||||||||
ILD610-2 |
Vishay Semiconductors |
Transistor Output Optocouplers Phototransistor Out Dual CTR > 63-125% |
Data Sheet |
Negotiable |
|
|||||||||||||
ILD610-2X007T |
Vishay Semiconductors |
Transistor Output Optocouplers Phototransistor Out Dual CTR > 63-125% |
Data Sheet |
|
|
|||||||||||||
ILD615 |
Other |
Data Sheet |
Negotiable |
|
||||||||||||||
ILD615/ILQ615 |
Other |
Data Sheet |
Negotiable |
|
||||||||||||||
ILD615-1X007 |
Vishay Semiconductors |
Transistor Output Optocouplers Phototransistor Out Dual CTR > 40-80% |
Data Sheet |
|
|