The SM712-02HTG is a 2A, 120V surface mount transient voltage suppressor (TVS) diode from Littelfuse. It is designed to protect sensitive electronic circuits from transient overvoltage events, such as those caused by electrostatic discharge (ESD), lightning strikes, and electrical fast transients (EFT). The SM712-02HTG has a high surge capability of 100A, making it ideal for use in applications where high levels of protection are required.
Key Features
High surge capability of 100A
Low leakage current of 1uA
Fast response time of 1ns
Wide operating temperature range of -55°C to +125°C
Benefits
Protects sensitive electronic circuits from transient overvoltage events
Ideal for use in applications where high levels of protection are required
Can help to extend the life of electronic devices
Can help to reduce the cost of repairs and replacements
Applications
Consumer electronics: TVs, computers, smartphones, tablets, etc.
Industrial applications: motor drives, power supplies, control systems, etc.
Automotive systems: electronic control units (ECUs), sensors, actuators, etc.
Specifications
Voltage rating: 120V
Current rating: 2A
Surge capability: 100A
Leakage current: 1uA
Response time: 1ns
Operating temperature range: -55°C to +125°C
How the SM712-02HTG Works
TVS diodes work by shunting transient voltage spikes away from sensitive electronic components. When a transient overvoltage event occurs, the TVS diode conducts current, diverting the excess voltage away from the protected components. Once the transient overvoltage event has passed, the TVS diode returns to its normal state.
How to Use the SM712-02HTG
The SM712-02HTG is a bidirectional TVS diode, meaning that it can protect against transient overvoltage events from either polarity. To use the SM712-02HTG, simply connect it in parallel with the components that you want to protect. The SM712-02HTG is available in a SOT-23-3 package, making it easy to mount on printed circuit boards.
Conclusion
The SM712-02HTG is a versatile and reliable TVS diode that can be used to protect a wide range of electronic devices from transient overvoltage events. It is ideal for use in applications where high levels of protection are required, such as consumer electronics, industrial applications, and automotive systems.