Power devices continue to evolve rapidly as SiC and GaN technologies become more highly integrated, easy to use, and cost-effective. Meanwhile, steady improvements in MOSFET structures and processes ...

Power devices continue to evolve rapidly as SiC and GaN technologies become more efficient, integrated, and cost-effective. Meanwhile, steady improvements in MOSFET structures and processes enable ...

The reliability and performance of power electronic devices underpin modern electrical systems across energy, transport and industrial sectors. These devices, such as insulated gate bipolar ...

As the growth in global electricity need and supply continues to accelerate, efficient power electronics will be key to improving grid efficiency, stability, integration, and resilience for all energy ...

Driven by the global effort towards reduction of carbon dioxide emissions from cars, the gradual phase out of fuel cars accompanied by the rise of electric vehicles (EVs) has become a megatrend.

GaN devices are gaining traction due to their ability to tolerate higher voltages. New approaches such as chiplets offer faster switching with less loss. The first applications to benefit from GaN ...

Texas Tech University’s Edward E. Whitacre Jr. College of Engineering has secured a $6 million U.S. Department of Defense grant to develop advanced semiconductor materials and devices, particularly ...