The STW24NM65N is a cutting-edge power MOSFET developed by STMicroelectronics, designed to cater to the demanding needs of modern high-efficiency power conversion applications. This device is part of the MDmesh™ V series, which is renowned for its outstanding performance in terms of energy efficiency, thermal management, and reliability.
Key Features
- Voltage Rating: The STW24NM65N boasts a maximum voltage rating of 650V, making it suitable for a wide range of applications that require high voltage capabilities.
- Low On-Resistance: With an on-resistance (R<sub>DS(on)) of just 0.190 Ω, this MOSFET ensures minimal conduction losses, enhancing overall system efficiency.
- High Current Capability: The device is capable of handling continuous drain currents up to 18A, ensuring robust performance for high-power applications.
- Reduced Switching Losses: The STW24NM65N is optimized for low gate charge and capacitance, resulting in reduced switching losses and faster switching speeds.
- 100% Avalanche Tested: Each unit is guaranteed to withstand rugged operating conditions, having been thoroughly tested for avalanche ruggedness.
Applications
The STW24NM65N is ideal for a variety of power conversion applications, including:
- Switch Mode Power Supplies (SMPS)
- LED Lighting Solutions
- High-Efficiency DC/DC Converters
- Solar Inverters
- Welding Equipment
- Uninterruptible Power Supplies (UPS)
Advanced Technology
Utilizing STMicroelectronics' advanced MDmesh™ V technology, the STW24NM65N achieves an optimal balance between on-resistance, gate charge, and switching performance. This technology integrates a vertical structure that enables the MOSFET to handle high current and high voltage with improved power density, making it a superior choice for designers looking to optimize their power management solutions.
Quality and Reliability
STMicroelectronics is committed to delivering high-quality products. The STW24NM65N is no exception, as it is manufactured to meet the highest industry standards for performance and reliability, ensuring that it meets the rigorous demands of today's advanced electronic systems.