In today’s automotive and industrial electronics, low-voltage MOSFETs (<100 V) have seen an increased demand for high power. Applications such as motor drives now require power output in the kilowatts ...

Unpacking the challenges with high-voltage power conversion and how SiC fits in. The pivotal advantages of SiC over traditional silicon in next-gen power converters. Rethinking circuit design for ...

High voltage power semiconductor devices are integral components in modern electrical systems, enabling efficient switching and control in a range of applications from renewable energy converters to ...

A power module is a high-power switching circuit used in applications for electric vehicles, renewable energy, photovoltaics, wind power, and much more. Switching-element IGBTs and MOSFETs are used in ...

Each new generation of microprocessors has seen the integration of a larger number of transistors operating at higher clock frequencies with the goal of enabling higher performance in computing and ...

In vehicle electrical systems, a high- to low-voltage DC/DC converter is a reversible electronic device that changes the DC from the vehicle’s high-voltage (400 V or 800 V) battery to a lower DC ...

Power modules are high-power switching circuits that convert DC- in AC-currents in electric vehicles, renewable energy, and many more applications. New materials [14] and device technologies [14], ...

Analog circuit design using MOS transistors represents a dynamic and rapidly evolving field that is integral to modern electronics. Exploiting the inherent advantages of MOS technology—such as ...

EMI design:All relevant devices must pass EMC standards, but it can be challenging to optimize devices for EMI performance. Flyback solutions typically require a common-mode (CM) inductor to improve ...

A new type of device provides designers of automated installations for North America with performance, cost, and safety benefits. Industrial machinery and equipment system designs typically rely on ...