ON Semiconductor MBR5H100MFS Schottky Barrier Rectifier
The MBR5H100MFS is a high-performance Schottky Barrier Rectifier designed and manufactured by ON Semiconductor, a leading provider of semiconductor-based solutions. This robust component is engineered to offer superior switching performance and high surge capability, making it an ideal choice for high-frequency applications.
Key Features
- High Forward Surge Capability: This rectifier is capable of withstanding high surge currents, ensuring reliability and stability in applications subject to surge conditions.
- Low Forward Voltage Drop: The MBR5H100MFS boasts a low forward voltage drop, which enhances system efficiency by reducing power loss during operation.
- High Junction Temperature: With an operating junction temperature range of -65°C to +175°C, this device is suitable for high-temperature environments, offering consistent performance under extreme conditions.
- Guard Ring for Enhanced Ruggedness and Long-Term Reliability: The inclusion of a guard ring provides protection against potential voltage spikes, improving the overall ruggedness of the rectifier.
- Package: The MBR5H100MFS comes in a surface-mountable Flat Lead package, which is designed to optimize board space and to allow for better thermal performance.
Applications
The ON Semiconductor MBR5H100MFS is suitable for a variety of applications, including:
- Power Supply Management
- DC-DC Converters
- Automotive Applications
- Free-Wheeling Diodes
- Reverse Battery Protection
- Switching Power Supply
Technical Specifications
- Peak Repetitive Reverse Voltage (Vrrm): 100V
- Average Rectified Forward Current (Io): 5A
- Peak Forward Surge Current (Ifsm): 150A
- Maximum Forward Voltage Drop (Vf) @ If: 0.85V @ 5A
- Operating Junction Temperature (Tj): -65°C to +175°C
With its combination of efficiency, reliability, and thermal performance, the MBR5H100MFS from ON Semiconductor is a prime choice for engineers looking to enhance their power management systems. Its robust design and high-quality construction ensure that it can meet the rigorous demands of modern electronic applications.