ON Semiconductor NVH4L018N075SC1 MOSFET Overview

The ON Semiconductor NVH4L018N075SC1 is a high-performance, N-channel MOSFET that offers an efficient power management solution for a wide range of applications. This device is part of ON Semiconductor's extensive portfolio of MOSFETs designed to provide low on-resistance, high switching speeds, and minimal power loss, making it an ideal choice for power conversion and management tasks.

Key Features

• Advanced Technology: Built on ON Semiconductor's advanced silicon technology, the NVH4L018N075SC1 provides excellent thermal performance and reliability.
• Low On-Resistance (R_DS(on)): The device features an extremely low on-resistance of 18 mΩ at V_GS = 10 V, which translates into reduced conduction losses and improved overall efficiency.
• High Continuous Drain Current (I_D): It supports a high continuous drain current of 75 A, allowing it to handle high power levels with ease.
• High Switching Speed: The fast switching capability of the NVH4L018N075SC1 minimizes switching losses and enables high-frequency operation.
• Robust Thermal Performance: The MOSFET is designed to maintain stability and performance even under high temperature conditions, with a maximum junction temperature of 175°C.

Applications

• DC/DC Converters
• Power Supply Modules
• Motor Drives
• Automotive Applications
• High-Efficiency Power Management

Package and Environmental Compliance

The NVH4L018N075SC1 comes in a compact and robust PQFN-8 package, which is designed to minimize the PCB footprint while providing excellent power dissipation. This package is lead-free and RoHS compliant, reflecting ON Semiconductor's commitment to environmental sustainability.

Conclusion

With its combination of low on-resistance, high current capability, and fast switching speeds, the NVH4L018N075SC1 from ON Semiconductor is a strong candidate for designers looking to optimize power efficiency and performance in their electronic systems. Its robust thermal characteristics and compact package further enhance its appeal for a diverse array of power management applications.