The SUM60N06-15 is an N-Channel MOSFET manufactured by Vishay, designed for high-current, high-efficiency switching applications. This power MOSFET is characterized by its low on-resistance and fast switching speed, which minimizes power losses and enhances overall system performance. Its robust design enables it to withstand high levels of avalanche energy, ensuring reliability in demanding circuit conditions.

Applications

• Synchronous Rectification
• DC-DC Converters
• Power Inverters
• Motor Control
• Load Switching

Features

• N-Channel MOSFET
• Low On-Resistance (RDS(on))
• Fast Switching Speed
• High Avalanche Energy Rating
• RoHS Compliant

Benefits

• High Efficiency: The low on-resistance reduces conduction losses, leading to improved efficiency and less heat generation.
• Rapid Switching: Faster switching speeds support higher operating frequencies, resulting in smaller and more cost-effective power supply designs.
• Enhanced Durability: High avalanche energy rating provides better protection against voltage spikes and inductive kickback.
• Simplified Thermal Management: Lower power dissipation means easier heat sink requirements and reduced overall system cost.
• Environmentally Compliant: RoHS compliance ensures that the product is free of hazardous substances, making it more environmentally friendly.

Specifications

The SUM60N06-15 operates with a drain-source voltage (VDS) of 60V and a continuous drain current (ID) of 60A. Its typical on-resistance (RDS(on)) is 15 mΩ at a gate-source voltage (VGS) of 10V. The gate threshold voltage (VGS(th)) typically ranges from 2-4V. This MOSFET is commonly packaged in a TO-252 (DPAK) package to facilitate effective heat dissipation. It can operate within a temperature range of -55°C to +175°C, providing reliable performance under various operating conditions. The device's gate charge is optimized for efficient and fast switching, reducing switching losses. The SUM60N06-15 is designed for surface mount applications, allowing for automated assembly and higher density board layouts.