The SBR2060CTB-13 is a state-of-the-art Schottky Barrier Rectifier designed and manufactured by Diodes Incorporated, a leading company in the semiconductor market. This rectifier is part of Diodes Incorporated's Super Barrier Rectifier (SBR) series, which is renowned for its high performance in power conversion applications. The SBR2060CTB-13 is specifically engineered to deliver low forward voltage drop and high surge current capability, which makes it an ideal choice for high-efficiency power supply designs.

Key Features

• High Forward Surge Current: This rectifier is capable of handling a high surge current, which ensures reliability and stability in applications where inrush currents may be high.
• Low Power Loss: The low forward voltage drop characteristic of the SBR2060CTB-13 leads to reduced power loss during operation, contributing to the overall efficiency of the system.
• High Temperature Operation: With an operating junction temperature range of -55°C to 150°C, this device is suitable for use in high-temperature environments.
• RoHS Compliant: The SBR2060CTB-13 is compliant with RoHS standards, making it an environmentally friendly option for electronic designs.

Applications

The versatility of the SBR2060CTB-13 allows it to be used in a wide array of applications, including:

• Power supply units
• DC-DC converters
• Free-wheeling diodes
• Polarity protection devices
• Automotive applications
• Lighting systems

Technical Specifications

The SBR2060CTB-13 comes in a TO-263 package and features dual rectifiers with a common cathode configuration. It has a maximum average rectified current of 20A and a peak repetitive reverse voltage of 60V. The device also boasts a low forward voltage drop, typically 0.71V at 10A, which enhances its efficiency in power conversion circuits.

Quality and Reliability

Diodes Incorporated is committed to delivering high-quality products. The SBR2060CTB-13 is subjected to rigorous testing and quality control measures to ensure it meets the high standards expected by customers in terms of performance and reliability.