ON Semiconductor MBR30H150CTG Dual Schottky Rectifier

The MBR30H150CTG from ON Semiconductor is a robust dual Schottky rectifier designed to offer efficient and fast switching with a low voltage drop. This high-performance device is packaged in a TO-220AB package, providing a compact solution for power management in a wide range of electronic applications. It is particularly suited for use in switching power supplies, converters, free-wheeling diodes, and reverse battery protection.

Key Features:

• High Current Capability: The MBR30H150CTG is capable of delivering a forward current of 30A, making it suitable for high-current applications.
• Low Forward Voltage Drop: With a low forward voltage drop, this component ensures minimal power loss and improved efficiency, which is critical for energy-sensitive designs.
• High Surge Capacity: The device can handle high surge currents, providing robust performance during transient conditions.
• 150V Reverse Voltage: It can withstand reverse voltages up to 150V, offering protection against high voltage spikes.
• Guard Ring for Enhanced Ruggedness and Long Term Reliability: The inclusion of a guard ring enhances the ruggedness and reliability of the device, making it suitable for demanding environments.
• Operating Temperature Range: The MBR30H150CTG operates within a junction temperature range of -65°C to 175°C, allowing for use in extreme temperature conditions.

Applications:

• Switching power supplies
• Power converters
• Free-wheeling diodes
• Reverse battery protection
• Automotive and consumer applications
• DC-DC modules

This ON Semiconductor component is RoHS compliant and is designed with the industry-standard TO-220AB package, which makes it easy to integrate into various circuit designs. The dual diode configuration allows for use in both single and dual-phase applications, providing designers with flexibility in their power circuit topologies. With its combination of performance and reliability, the MBR30H150CTG is an excellent choice for engineers looking to improve the efficiency and longevity of their power management systems.