Introducing the BUK768R1-100E Power MOSFET by NXP Semiconductors

Discover the BUK768R1-100E, a robust and efficient N-channel TrenchMOS™ power MOSFET designed by NXP Semiconductors, tailored for high-performance applications. This advanced semiconductor device is engineered to meet the demanding requirements of a wide array of power conversion and management tasks in the automotive and industrial sectors.

Key Features:

• Low On-State Resistance: The BUK768R1-100E features an ultra-low on-state resistance (R_DS(on)) of just 8.4 mΩ at V_GS = 10 V, reducing conduction losses and improving overall efficiency.
• High Current Capability: With a continuous drain current (I_D) of 100 A, this MOSFET can handle high current loads, making it suitable for power-intensive applications.
• High-Temperature Performance: It is designed to operate effectively at high temperatures, with a maximum junction temperature (T_j) of 175°C, ensuring reliability under thermal stress.
• Logic Level Gate Drive: The device can be driven at logic level gate voltages, simplifying the drive circuitry and reducing power consumption.

Applications:

The versatility of the BUK768R1-100E allows it to be used in a variety of applications, including:

• Automotive systems such as engine control units, power steering, and braking systems.
• DC-to-DC converters for efficient power conversion in electric and hybrid vehicles.
• Motor control circuits for industrial automation and robotics.
• Switch-mode power supplies (SMPS) for reliable and efficient power distribution.

Package and Quality:

The BUK768R1-100E comes in a LFPAK56 (Power-SO8) package, which offers a compact footprint while providing excellent thermal performance. NXP's commitment to quality ensures that this MOSFET meets the stringent requirements of the automotive industry, including compliance with the AEC-Q101 standard for automotive-grade reliability.

With its combination of efficiency, power handling, and thermal performance, the BUK768R1-100E from NXP Semiconductors stands as a superior choice for designers looking to optimize their power management systems.