ON Semiconductor MBR40H100WTG - Robust Power Rectifier

The MBR40H100WTG from ON Semiconductor is a high-performance Schottky Barrier Rectifier designed to meet the demanding requirements of high-power, high-efficiency applications. This power rectifier is well-suited for a variety of uses, including power supply, inverters, and as freewheeling diodes for consumer, automotive, and telecommunications sectors.

Key Features

• High Surge Capacity: The device can handle a high surge current, making it reliable in applications where inrush currents are present.
• Low Power Loss: With its Schottky Barrier design, the MBR40H100WTG has a low forward voltage drop, which results in lower power loss and higher efficiency.
• High Current Capability: This component can handle a continuous forward current of up to 40A, making it suitable for high-current applications.
• Dual Diode Configuration: The MBR40H100WTG includes two diodes in a common cathode configuration, providing flexibility in circuit designs.
• High Temperature Operation: With an operating junction temperature range of -65°C to +175°C, this device is capable of handling extreme thermal environments.
• Guard-Ring for Stress Protection: The guard-ring design enhances the device's ruggedness and long-term reliability by providing extra protection against stress-induced leakage currents and avalanche breakdown.

Applications

The MBR40H100WTG is optimized for a variety of applications where efficiency and robustness are critical. These include:

• Switch Mode Power Supplies (SMPS)
• DC-DC Converters
• Free Wheeling Diodes in Converters and Motor Control Circuits
• Automotive Charging Systems
• Power Factor Correction (PFC) Circuits

Package and Quality Assurance

Housed in a TO-247 package, the MBR40H100WTG offers excellent thermal performance and is easy to mount onto a heatsink for improved thermal management. ON Semiconductor is committed to providing high-quality products, and this rectifier is no exception, complying with rigorous industry standards for performance and reliability.