SMCJ150CA-13 TVS Diode from Diodes Incorporated

The SMCJ150CA-13 is a robust transient voltage suppressor (TVS) diode designed by Diodes Incorporated to provide high-quality circuit protection in a variety of applications. This TVS diode is specifically engineered to protect sensitive electronic equipment from voltage transients induced by system inductance, lightning, and other transient voltage events.

Key Features

• Reverse Stand-Off Voltage: The device has a reverse stand-off voltage of 150V, making it suitable for a range of overvoltage protection applications.
• Peak Pulse Power: It can handle a peak pulse power dissipation of 1500 Watts at 10/1000μs waveform, ensuring effective protection against high energy transients.
• Clamping Voltage: With a low clamping voltage, the SMCJ150CA-13 can quickly respond to transient events, minimizing the risk of damage to the protected component.
• Bidirectional Protection: As a bidirectional TVS diode, the SMCJ150CA-13 provides protection for both positive and negative voltage transients.
• Package: The device is packaged in an SMC (DO-214AB) package, offering a compact footprint and easy mounting on printed circuit boards.
• Compliance: It meets the MSL level 1 standard, per J-STD-020, and is compliant with RoHS and REACH standards, ensuring environmental safety and global acceptance.

Applications

The SMCJ150CA-13 TVS diode is an ideal choice for a variety of applications that require reliable transient voltage suppression. It is commonly used in:

• Power Supply Units (PSUs)
• Automotive systems
• Telecommunication devices
• Industrial systems
• Consumer electronics

Reliability and Performance

Manufactured by Diodes Incorporated, a leader in the semiconductor industry, the SMCJ150CA-13 is a testament to the company's commitment to providing components that offer reliability and performance. Whether used in commercial, industrial, or automotive environments, this TVS diode ensures that sensitive circuits are shielded from the detrimental effects of voltage spikes and surges, thus enhancing the longevity and stability of electronic systems.