STMicroelectronics STPSC20065DY

The STPSC20065DY is a high-performance silicon carbide (SiC) Schottky diode manufactured by STMicroelectronics. This component is specifically designed for use in power factor correction (PFC) applications and other hard switching conditions. It is known for its robustness and ability to handle high forward surge currents during transient phases, making it an ideal choice for demanding power management systems.

• High voltage rating of 650 V, suitable for high-power applications.
• High current rating of 20 A, making it suitable for demanding power management systems.
• Low reverse recovery characteristics, contributing to energy savings in SMPS applications.
• High forward surge capability, ensuring robustness during transient phases.
• Through Hole TO-220AC package, providing a reliable and durable mounting option.

• Power Factor Correction (PFC) applications.
• Switch Mode Power Supplies (SMPS).
• Solar energy conversion systems.
• Electric Vehicle (EV) or Hybrid Electric Vehicle (HEV) charging stations.
• Automotive power systems.

1. What is the voltage rating of the STPSC20065DY? The voltage rating is 650 V.
2. What is the current rating of the STPSC20065DY? The current rating is 20 A.
3. What package type does the STPSC20065DY use? The STPSC20065DY uses a Through Hole TO-220AC package.
4. What are the key benefits of the low reverse recovery characteristics of the STPSC20065DY? The low reverse recovery characteristics contribute to energy savings in SMPS applications and other emerging domains.
5. Is the STPSC20065DY suitable for automotive applications? Yes, it is suitable for automotive power systems.
6. What makes the STPSC20065DY robust during transient phases? The high forward surge capability ensures good robustness during transient phases.
7. Can the STPSC20065DY be used in solar energy conversion systems? Yes, it can be used in solar energy conversion systems.
8. What is the typical lead time for the STPSC20065DY from the manufacturer? The typical lead time is 19 weeks.
9. Why is the STPSC20065DY preferred in PFC applications? It is preferred due to its high performance and robustness in hard switching conditions.
10. Are there any specific domains where the STPSC20065DY is particularly beneficial? Yes, it is particularly beneficial in emerging domains such as EV or HEV charging stations.