STW25N95K3 - STMicroelectronics N-Channel MOSFET
The STW25N95K3 is a high-performance N-channel Power MOSFET produced by STMicroelectronics, a leader in semiconductor solutions. This power MOSFET is designed to deliver the efficiency and speed required by today's energy-conscious applications. With its state-of-the-art technology, the STW25N95K3 is an ideal choice for high-efficiency power supplies, inverters, and motor control systems.
Key Features
- Low On-Resistance: The STW25N95K3 features very low on-resistance (R<sub>DS(on)), which translates to reduced conduction losses and improved overall efficiency in power conversion applications.
- High Current Capability: With a continuous drain current (I<sub>D) rating of 25A, this MOSFET can handle high current loads, making it suitable for demanding applications.
- High Voltage Rating: The device can sustain a maximum drain-source voltage (V<sub>DSS) of 950V, providing a wide safety margin for applications involving high voltage operations.
- Fast Switching Performance: The STW25N95K3 is designed for fast switching, reducing switching losses and enabling high-frequency operation.
- Robust Thermal Performance: Thanks to its advanced package design, the MOSFET offers excellent thermal performance, ensuring reliability even under high temperature conditions.
Applications
The versatility of the STW25N95K3 makes it suitable for a wide range of applications, including but not limited to:
- Switch Mode Power Supplies (SMPS)
- LED Lighting Applications
- DC-AC Inverters for Solar Energy Systems
- Uninterruptible Power Supplies (UPS)
- High-Performance Motor Drives
Quality and Reliability
STMicroelectronics is committed to delivering products that meet the highest standards of quality and reliability. The STW25N95K3 is no exception, undergoing rigorous testing to ensure it meets the stringent requirements for industrial and consumer applications. It is a testament to STMicroelectronics' dedication to providing components that lead the industry in performance, efficiency, and reliability.