NVMTS1D2N08H
NVMTS1D2N08H is a high-performance N-channel MOSFET manufactured by onsemi, designed for efficient power management in demanding applications. It features a low on-resistance of 8 mฮฉ at VGS = 10 V, enabling minimal conduction losses and high energy efficiency. The device is optimized for switching frequencies up to several hundred kHz, making it suitable for high-frequency DC-DC converters and switch-mode power supplies (SMPS).
This MOSFET operates with a maximum drain-source voltage (VDS) of 30 V and a continuous drain current (ID) of 160 A, ensuring robust performance under heavy load conditions. Its advanced trench technology and optimized gate charge characteristics reduce switching losses and improve overall system efficiency. The low gate threshold voltage (VGS(th) = 1.5 V typ.) allows for easy drive compatibility with standard logic-level controllers, enhancing design flexibility.
The NVMTS1D2N08H includes an integrated body diode with fast reverse recovery characteristics, minimizing energy loss during freewheeling operations. It also features a thermally enhanced packageโtypically a TO-247-4L configurationโthat provides excellent thermal dissipation, supporting reliable operation even in compact or high-density designs. The device is fully characterized for safe operating area (SOA) and avalanche ruggedness, offering protection against transient overloads and inductive kickback events.
It is commonly used in automotive power systems, industrial motor drives, server power modules, and consumer electronics where high efficiency, reliability, and compact form factor are critical. The MOSFETโs low RDS(on), fast switching speed, and high current handling capability make it ideal for synchronous rectification, buck converters, and battery-powered applications requiring extended runtime.
Manufactured using onsemiโs proven silicon process technology, the NVMTS1D2N08H meets AEC-Q101 qualification standards, ensuring suitability for harsh environments such as those found in automotive and industrial settings. Its robust construction supports long-term operational stability under varying temperature and voltage conditions, reducing maintenance needs and improving system uptime.