The APEC 2026 Conference Committee is pleased to announce that four distinguished leaders in power electronics will headline ...

As industrial and power electronics operate in increasingly harsh environments, manufacturers face growing challenges related ...

A next-generation capacitor family is setting a new bar for high-current DC link designs, pushing continuous operation to 105 ...

As global energy demand surges—driven by AI-hungry data centers, advanced manufacturing, and electrified ...

Tau, a pioneer in advanced electrification, unveiled Ion™, its software-defined power electronic platform, at CES 2026. Designed for broad applicability and scale across mobility, energy, industrial ...

Professor Singisetti at the University at Buffalo discusses the commercialisation path for Gallium Oxide in high-power ...

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 ...

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 ...

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.

Electronics companies confront AI integration, workforce training, sustainability, and infrastructure challenges in the new ...

Wide bandgap semiconductors have taken both power electronics and high frequency circuits by storm, replacing so many applications that were previously dominated by silicon-based devices, e.g., LDMOS ...