Micro Commercial Components (MCC) has released its first 1700V, 25A Silicon Carbide Schottky Barrier Diode (SBD), the SICPT25170P — designed to tackle the most demanding power design challenges. Engineered for high efficiency and reliability, this diode offers zero reverse recovery current, minimal energy loss, and high-speed switching performance for next-generation power systems.
Housed in a robust TO-247AD package, the SICPT25170P supports operation at junction temperatures up to 175°C, making it ideal for harsh and high-load environments. Its positive temperature coefficient enables safe parallel configuration, while stable thermal characteristics help maintain consistent performance under extreme conditions.
The diode’s temperature-independent switching behavior eliminates drift, ensuring reliable operation across a wide range of applications — from industrial automation and power supplies to electric vehicle (EV) charging systems.
With reduced heat dissipation requirements, this SiC diode minimizes the need for oversized or costly cooling systems, enabling more compact and energy-efficient power designs. Its combination of rugged design, simplified thermal management, and high-speed capability makes it an excellent choice for engineers working on high-performance, high-voltage systems.
Key Features:
- 1700V / 25A rating for high-power circuits
- Zero reverse recovery current for minimal switching loss
- High-speed switching capability for fast-response applications
- Positive temperature coefficient for safe parallel use
- Low heat generation simplifies cooling and system design
- Rugged TO-247AD package (15.9mm x 20.6mm x 4.8mm) ensures mechanical and thermal stability
The SICPT25170P is built to help engineers scale designs efficiently while maintaining reliability and reducing total system costs. It delivers a balance of advanced SiC performance and mechanical resilience for today’s most power-intensive designs.
Original – Micro Commercial Components