NVTFWS1D3N04XM
NVTFWS1D3N04XM is a high-performance power MOSFET manufactured by onsemi, designed for efficient switching applications in modern electronic systems. It features a low on-resistance of 4.0 mΩ at VGS = 10 V, enabling minimal conduction losses and improved energy efficiency. The device operates with a maximum drain-source voltage (VDS) of 60 V, making it suitable for mid-voltage power conversion circuits such as DC-DC converters and motor drives.
This MOSFET utilizes onsemi’s advanced trench technology to optimize charge carrier mobility and reduce switching losses. Its enhanced gate oxide structure ensures reliable operation under harsh electrical conditions, while the low gate threshold voltage (VGS(th) = 1.5 V typ.) allows compatibility with low-voltage control signals from microcontrollers or logic drivers. The device also exhibits excellent thermal performance due to its optimized package design, which facilitates heat dissipation in compact PCB layouts.
The NVTFWS1D3N04XM is packaged in a TO-220-3L, a through-hole configuration that provides mechanical stability and ease of integration into existing designs. It includes an integrated body diode with low forward voltage drop, supporting freewheeling current during switching transitions without additional external components. This feature simplifies circuit design and reduces component count in power supply modules and battery management systems.
Applications for this MOSFET include automotive power electronics—such as electric power steering, onboard chargers, and battery inverters—as well as industrial automation equipment, consumer power supplies, and renewable energy systems like solar inverters. Its robustness against avalanche breakdown and high surge current capability ensure reliable performance even under transient overloads or fault conditions.
With a total gate charge (Qg) of just 90 nC at VGS = 10 V, the device supports fast switching speeds, minimizing switching losses in high-frequency applications. It also meets AEC-Q101 qualification standards, confirming its suitability for demanding automotive environments where long-term reliability and temperature resilience are critical. The combination of low RDS(on), high efficiency, and ruggedized construction makes the NVTFWS1D3N04XM a preferred choice for engineers seeking performance-driven solutions in next-generation power systems.