The 1.5KE75A-T from Diodes Incorporated is a high-quality transient voltage suppressor (TVS) diode designed to protect sensitive electronic equipment from voltage transients induced by system inductive load switching and lightning. This robust TVS diode is a member of the 1.5KE series, offering a peak pulse power dissipation of 1500 Watts for a 10/1000μs waveform, which helps to safeguard against voltage spikes and surges.

Key Features

• Peak Pulse Power: The 1.5KE75A-T can handle a peak pulse power of 1500 Watts, ensuring a high degree of protection for sensitive circuits.
• Breakdown Voltage: With a minimum breakdown voltage of 75V, this TVS diode is well-suited for a wide range of applications.
• Reverse Stand-off Voltage: It has a reverse stand-off voltage of 64.1V, which means it remains non-conductive until the threshold is exceeded.
• Clamping Voltage: Upon reaching the specified breakdown voltage, the clamping voltage of 103V is activated to protect the circuit.
• Uni-directional: The 1.5KE75A-T is a uni-directional TVS diode, offering targeted protection for specific polarity transients.
• DO-201 Package: Encased in a DO-201 package, it is robust and suited for through-hole mounting, providing a reliable solution for PCB designs.

Applications

The 1.5KE75A-T is ideal for a variety of applications where transient voltage protection is critical. These include:

• Industrial systems
• Power supply units
• Automotive systems
• Telecommunication devices
• Consumer electronics

Reliability and Compliance

Reliability is a hallmark of Diodes Incorporated components, and the 1.5KE75A-T is no exception. It complies with the RoHS and REACH environmental standards, ensuring that it meets global regulatory requirements for environmental safety. Additionally, its robust construction ensures long-term performance even in challenging conditions.

Whether you're designing industrial machinery or consumer electronics, the 1.5KE75A-T TVS diode from Diodes Incorporated offers the protection your circuits need against the unpredictable nature of transient voltages.