SMCJ30E3/TR13 by Microchip Technology

The SMCJ30E3/TR13 is a robust surface-mount Transient Voltage Suppression (TVS) diode, expertly manufactured by Microchip Technology. This electronic component is engineered to protect sensitive electronic equipment from voltage transients induced by system-level events such as lightning, electrostatic discharge (ESD), and electrical fast transients (EFT).

Designed with a stand-off voltage of 30V, the SMCJ30E3/TR13 is an ideal solution for safeguarding voltage-sensitive components which operate on 24VDC power supplies. It can dissipate up to 1500W of peak pulse power for a 10/1000μs waveform, ensuring a high level of protection for your electronic devices against severe voltage spikes.

The SMCJ30E3/TR13 comes in a DO-214AB package, also known as an SMC package, which is known for its compact footprint and low profile, making it suitable for high-density circuit board designs. The package is also preferred for its ability to handle high thermal and electrical loads, enhancing the overall reliability of the protection it offers.

Microchip's SMCJ30E3/TR13 is characterized by its fast response time, typically in the order of picoseconds, ensuring that the connected components are shielded promptly upon the detection of any overvoltage event. This TVS diode also features a low incremental surge resistance and is RoHS compliant, adhering to current environmental standards by avoiding the use of hazardous substances.

The device is supplied in tape and reel packaging, denoted by the "/TR13" suffix, facilitating efficient pick-and-place assembly for high-volume production environments. This packaging ensures that the diodes are protected during transportation and handling, and are ready for automated assembly processes.

Whether it's for industrial, commercial, or consumer applications, the SMCJ30E3/TR13 from Microchip Technology is a reliable choice for circuit protection. Its combination of power, precision, and packaging makes it a go-to component for designers looking to enhance the durability and longevity of their electronic systems.