- RS Stock No.:
- 169-6162
- Mfr. Part No.:
- VO617A-2X017T
- Manufacturer:
- Vishay
3000 In stock for delivery within 4 working days
Added
Price Each (On a Reel of 1000)
SGD0.191
(exc. GST)
SGD0.208
(inc. GST)
Units | Per unit | Per Reel* |
1000 - 4000 | SGD0.191 | SGD191.00 |
5000 + | SGD0.172 | SGD172.00 |
*price indicative |
- RS Stock No.:
- 169-6162
- Mfr. Part No.:
- VO617A-2X017T
- Manufacturer:
- Vishay
Technical data sheets
Legislation and Compliance
- COO (Country of Origin):
- CN
Product Details
Optocoupler, Transistor Output, VO6xxA Series, Vishay Semiconductor
Vishay low input current optocoupler with a phototransistor output VO615A, VO617A, VO618A series protect equipment users from electrical shocks and protect the microprocessors within these systems from being damaged by voltage spikes.
VO617A and VO618A series provides up to 5300Vrms of voltage Isolation
VO615A series provides up to 5000Vrms of voltage Isolation
Applications include Isolation in AC adapters, switch mode power supplies, programmable logic controllers, Industrial controls, telecom systems, smart meters, office equipment, power on Internet and solar
Optocouplers VO615A, VO617A, VO618A have an operating temperature up to 110 degrees Celsius.
VO615A series provides up to 5000Vrms of voltage Isolation
Applications include Isolation in AC adapters, switch mode power supplies, programmable logic controllers, Industrial controls, telecom systems, smart meters, office equipment, power on Internet and solar
Optocouplers VO615A, VO617A, VO618A have an operating temperature up to 110 degrees Celsius.
For products that are Customized and under Non-cancellable & Non-returnable, Sales & Conditions apply.
Optocouplers, Vishay Semiconductor
Specifications
Attribute | Value |
---|---|
Mounting Type | Surface Mount |
Output Device | Phototransistor |
Maximum Forward Voltage | 1.65V |
Number of Channels | 1 |
Number of Pins | 4 |
Package Type | SMD |
Input Current Type | DC |
Typical Rise Time | 4.6µs |
Maximum Input Current | 60 mA |
Isolation Voltage | 5.3 kVrms |
Maximum Current Transfer Ratio | 125% |
Typical Fall Time | 15µs |