Overview of SBR20A200CTB-13-G from Diodes Incorporated

The SBR20A200CTB-13-G is a high-performance Super Barrier Rectifier (SBR) designed and manufactured by Diodes Incorporated, a leading global provider of discrete, logic, analog, and mixed-signal semiconductors. This rectifier is specifically engineered to offer superior performance in applications requiring high surge capability, low forward voltage drop, and high thermal stability. The SBR20A200CTB-13-G is an ideal choice for a wide range of power conversion and management applications where efficiency and reliability are critical.

Key Features and Benefits

• High Surge Capability: The device is capable of withstanding high surge currents, making it well-suited for applications prone to surges and spikes.
• Low Forward Voltage Drop: It features a low forward voltage drop, which enhances overall system efficiency by reducing power losses during operation.
• High Thermal Stability: With its excellent thermal performance, the SBR20A200CTB-13-G can operate reliably over a wide temperature range.
• RoHS Compliant: The rectifier is compliant with the RoHS directive, ensuring that it is free from hazardous substances and suitable for use in environmentally sensitive applications.
• TO-263 Package: The device comes in a TO-263 (D2PAK) package, which provides a compact footprint along with good thermal characteristics for better heat dissipation.

Electrical Characteristics

• Rectifier Configuration: Dual, Common Cathode
• Maximum Average Forward Current: 20A
• Peak Repetitive Reverse Voltage: 200V
• Forward Voltage Drop: Typically 0.95V at 10A
• Maximum Reverse Leakage Current: 500µA at 200V

Applications

The SBR20A200CTB-13-G is suitable for a variety of applications, including:

• Power Supply Units (PSUs)
• Lighting Systems
• Automotive Charging Systems
• DC/DC Converters
• AC/DC Rectification
• Power Factor Correction Circuits

With its robust design and advanced features, the SBR20A200CTB-13-G from Diodes Incorporated is a reliable and efficient solution for designers looking to enhance the performance of their power management systems.