STTH802CB-TR Ultrafast Recovery Diode by STMicroelectronics

The STTH802CB-TR is a high-performance ultrafast recovery diode designed and manufactured by STMicroelectronics, a leader in the semiconductor industry. This diode is specifically engineered to offer exceptional efficiency in power conversion applications, making it an ideal choice for a wide range of electronic devices and systems.

Key Features

• High Reverse Voltage: With a reverse voltage of 200V, the STTH802CB-TR provides robust performance for high voltage applications.
• Ultrafast Switching: The diode features an ultrafast recovery time, minimizing energy loss and improving overall efficiency in high-frequency operations.
• Low Forward Voltage Drop: A low forward voltage drop ensures reduced power dissipation and higher efficiency, which is critical in power conservation.
• High Surge Current Capability: It is capable of handling high surge currents, making it suitable for applications that may experience unexpected overcurrent conditions.
• Surface-Mount Package: The device comes in a surface-mount DPAK (TO-252) package, which is suitable for compact designs and automated assembly processes.

Applications

The STTH802CB-TR is versatile and can be used in a variety of applications, including:

• Switch-mode power supplies (SMPS)
• Power factor correction circuits
• Freewheeling diodes in converters and inverters
• Snubber diodes
• Lighting applications

Quality and Reliability

STMicroelectronics is committed to delivering high-quality products. The STTH802CB-TR is built to meet rigorous industry standards, ensuring reliability and performance under various operating conditions. It is RoHS compliant and designed to meet the needs of environmentally conscious applications and regulations.

Whether you are designing power supplies, working on power management systems, or developing high-speed switching circuits, the STTH802CB-TR ultrafast recovery diode offers a combination of efficiency, reliability, and performance that can enhance your project's overall functionality.