SMCJ7.5CA-13-F TVS Diode by Diodes Incorporated

The SMCJ7.5CA-13-F is a robust transient voltage suppression (TVS) diode from Diodes Incorporated, designed to provide high-quality surge protection in a compact package. This TVS diode is specifically engineered to safeguard sensitive electronic equipment from voltage transients induced by system inductive load switching and lightning. It is an ideal choice for a variety of applications, including consumer electronics, automotive systems, and industrial equipment.

Key Features

• Reverse Stand-Off Voltage: The SMCJ7.5CA-13-F has a reverse stand-off voltage of 7.5V, making it suitable for protecting circuits with operating voltages around this level.
• Peak Pulse Power: It can handle a peak pulse power of 1500 Watts at 10/1000μs waveform, which helps to ensure that your devices are protected from high energy transients.
• Clamping Voltage: The clamping voltage is a critical parameter, and this device clamps at 12.9V for a 7.5V reverse stand-off voltage, providing a swift and effective response to voltage spikes.
• Bi-Directional Protection: As a bidirectional TVS diode, the SMCJ7.5CA-13-F can protect circuits from surges in both directions, making it versatile for various circuit configurations.
• DO-214AB Package: Encased in a DO-214AB package, it not only ensures a small footprint on the PCB but also offers a robust and durable construction suitable for high-density circuit designs.
• Compliance: This product is compliant with the RoHS and REACH standards, ensuring that it meets current environmental and safety regulations.

Applications

The SMCJ7.5CA-13-F is used in a wide range of applications where transient voltage protection is critical. It is commonly used in:

• Power supply circuits
• Automotive systems
• Communication devices
• AC/DC applications
• Portable electronics

With its combination of compact size, high power handling, and bidirectional protection, the SMCJ7.5CA-13-F from Diodes Incorporated is an excellent choice for designers looking to enhance the reliability and longevity of their electronic systems.