The SUM75N04-07L is an N-channel MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor) manufactured by Vishay. This power MOSFET is designed for high-efficiency power switching applications. It features a low on-state resistance (Rds(on)), which minimizes power losses during conduction, making it suitable for various power management and motor control systems.

Applications

• DC-DC converters: Used in converting DC voltage levels efficiently.
• Power inverters: Employed in converting DC power to AC power.
• Motor control: Applied in controlling the speed and torque of electric motors.
• Load switches: Used for switching power to various loads in electronic systems.
• Synchronous rectification: Implemented in power supplies to improve efficiency.

Features

• N-channel MOSFET: Allows for efficient current flow when activated.
• Low on-state resistance (Rds(on)): Minimizes power losses during conduction.
• High current capability: Handles substantial current levels.
• Fast switching speed: Enables rapid switching transitions.
• Logic level gate drive: Allows direct drive from logic circuits.
• Lead-free and RoHS compliant: Meets environmental regulations.

Benefits

• High efficiency: Reduces power consumption and heat generation.
• Compact size: Allows for space-saving designs.
• Reliable performance: Ensures stable operation in demanding conditions.
• Easy to use: Simplified gate drive requirements for ease of integration.
• Environmentally friendly: Compliant with environmental regulations.

Additional Details

The SUM75N04-07L boasts a drain-source voltage (Vds) rating of 40V and a continuous drain current (Id) rating of up to 75A. The low on-state resistance, typically around 7 mΩ, contributes to its high efficiency. The gate threshold voltage (Vgs(th)) is designed for logic-level compatibility, making it easy to drive with standard logic circuits. It is typically available in a surface-mount package, allowing for automated assembly and compact designs. Its fast switching speeds further enhance its suitability for high-frequency power conversion applications. The device is designed to operate within a broad temperature range, ensuring reliable performance in various operating conditions.