STF7N65M6 - N-channel 650 V, 1.2 Ω typ., 7 A MDmesh™ M6 Power MOSFET in a TO-220FP package by STMicroelectronics
The STF7N65M6 is a cutting-edge N-channel Power MOSFET presented by STMicroelectronics, renowned for its high efficiency and performance in a wide variety of applications. This Power MOSFET is part of the MDmesh™ M6 series, which utilizes an innovative proprietary vertical structure that combines the benefits of a reduced on-resistance and fast switching speed.
With a voltage rating of 650 V, this MOSFET is designed to handle high voltage applications with ease, making it an ideal choice for switch mode power supplies, lighting applications, welding equipment, and high-performance converters. Its low on-resistance of just 1.2 Ω (typical) ensures minimal voltage drop and power loss, thereby improving the overall efficiency of the system it is integrated into.
The STF7N65M6 can provide a continuous drain current of 7 A, which allows it to drive significant loads while maintaining a compact form factor in a TO-220FP package. The TO-220FP package is known for its robustness and excellent thermal performance, ensuring that the device can operate reliably even under high power and temperature conditions.
Featuring Zener-protected gate, this MOSFET is resistant to electrostatic discharge and ensures safe operation during normal and abnormal conditions. The device also includes fast recovery diode characteristics, which are essential for high-speed switching operations and reduce switching losses.
Key features of the STF7N65M6 include:
- 650 V drain-source voltage (V<sub>DS)
- 1.2 Ω typical on-resistance (R<sub>DS(on))
- 7 A continuous drain current (I<sub>D)
- High dv/dt and avalanche capabilities
- Low gate charge and input capacitance
- 100% avalanche tested
STMicroelectronics' STF7N65M6 is a testament to the company's commitment to providing high-performance, reliable, and energy-efficient solutions for power management and conversion. Whether for industrial, consumer, or computing applications, this MOSFET represents a superior choice for designers looking to optimize their power systems.