The power electronics market presents growth opportunities driven by EV adoption, smart grid advancements, and rising demand for renewable energy solutions. The automotive sector, silicon carbide ...

Developed by EPFL, the transformers are integrated into Navitas’ GeneSiC 3,300- and 1,200-V SiC devices with the goal of ...

Power electronics in the Industry 4.0 era are evolving to deliver higher efficiency and power density and simplify power design.

Bob Erickson, a professor of electrical, computer and energy engineering at CU Boulder, was recently named a CU Distinguished Professor—the highest faculty rank bestowed by the university. Known for ...

Ga₂O₃, BFOM values are projected to greatly exceed those of SiC and GaN, making Ga₂O₃ a compelling candidate for high-voltage ...

The term ‘bandgap’ refers to the energy difference between a material’s insulating and conducting states, a critical factor determining its electrical conductivity. As shown in figure 1, with its wide ...

A U of A student team placed first and received the Best Oral Presentation Award at the 2025 Institute of Electrical and Electronics Engineers' Power & Energy Society Aerospace Power Electronics ...

The annual Applied Power Electronics Conference & Exposition (APEC 2026) showcases hundreds of companies that exhibit their latest component and technology advances for system power designers across a ...

Power electronics is an interdisciplinary field that centres on the efficient conversion, control and conditioning of electrical energy through semiconductor devices and innovative circuit topologies.

Covering an expansive area of 45 acres and designed with the latest manufacturing and assembly technologies to serve as an optimal hub for manufacturing and distributing their products across the ...