These advanced solutions deliver superior thermal management, reduced parasitic inductance, and enhanced reliability, making them perfect for the most demanding applications.

As automotive, mobile and other applications becoming increasingly miniature with more components needing to fit on a PCB, smaller packages are required to save space.

The NID1100 is a low forward-voltage drop ideal diode with forward and reverse voltage blocking. It can be used to replace rectifiers in low voltage systems unable to tolerate the high voltage drops of conventional Schottky diodes.

These devices are available in compact industry-standard footprints like the 5-pin SOT8098 (TSOT5) and 6-pin SOT8061 (TSOT6) package and safely operate in ambient temperatures ranging between -55 °C and 125 °C.

These drivers are perfect for low-noise and low-EMI isolated power supplies and fit a range of applications like traction inverters and motor control, DC-DC converters, battery management systems and on-board chargers in electric vehicles (EV).

In this APEC 2025 demo, we're joined by Manny Chavez from Nexperia to explore a crucial topic in modern electronics: full-system isolation.

Discover the critical design considerations for MOSFETs in automotive DC/DC converters.

Designing for optimal efficiency in MOSFET devices is crucial for longevity. Using the example of DC/DC converters, efficiency involves both conduction and switching losses due to their high switching frequencies.

Nexperia introduces a new portfolio of high-performance flip-chip land-grid-array (FC-LGA) diodes, setting a new standard for automotive ESD protection in high-speed data applications.

This video will review why 500-Amp MOSFETs are a good product to use in certain applications.

This video covers how the MOSFET body-diode will perform in an application.

This video reviews MOSFETs from Nexperia and will explain the SOA for industrial applications.

This video will cover PoE applications using MOSFETs from Nexperia.

This video reviews portable power applications for LFPAK MOSFETs from Nexperia.

This video reviews how to manage in-rush current with Power MOSFET applications.

Within many switching applications designers are faced with the challenge of balancing high efficiency and low spiking. Designers often manage this issues by adding components on the board, which in turn adds to cost and complexity.

Many high-power applications require a MOSFET to operate at very high continuous current for normal operation and/or expected fault conditions.

There is growing demand for 36 V DC motors in an increasing range of applications. From cordless power tools to outdoor power equipment and even e-bikes and scooters.

BLDC controllers for High power motors may use several MOSFETs in parallel, and high-Power Battery packs used to drive these Motors require special consideration for charge and discharge to ensure safe operation.

Selecting a MOSFET can typically require searching through large parametric tables within datasheets, and with the huge amount of power MOSFETs on offer it can become a lengthy process.