Intelligent soft switching with AI support promises to reduce switching losses in power transistors by up to 95 per cent.

There is a great deal of activity in wide bandgap (WBG) power electronics lately, with Gallium Nitride (GaN) and Silicon Carbide (SiC) devices getting a lot of attention due to the technologies’ ...

Herein, wafer-scale 8-nm films of Sn-doped gallium oxide (Ga 2 O 3) were fabricated via physical vapor deposition at room temperature. Using these films, 8-nm Sn-doped Ga 2 O 3 field-effect ...

Properties of wide-bandgap materials, with a focus on SiC. How a bridgeless totem-pole topology can help cut losses. A breakdown of the half-bridge inverter topology The efficiency of power-conversion ...

Communication satellites and flying antenna platforms can contribute to the comprehensive and resilient operation of global mobile networks of the fifth and sixth generation (5G, 6G). However, as ...

Integrated circuit (IC) sizes continue to grow as they meet the compute requirements of cutting-edge applications such as artificial intelligence (AI), autonomous driving, and data centers. As design ...

A new type of transistor could bring about a bevy of innovative electronic applications, ranging from wearables to implants to IoT devices, due to the tiny amount of power it uses. Developed by ...

Engineers are starting to build hardware that does not just run artificial intelligence, it behaves like a primitive form of it. Instead of long chains of conventional transistors, researchers are ...

PowiGaN technology permits manufacture of 94% efficient power supplies suitable for regions with frequent brown-outs and line surges InnoSwitch3 ICs incorporating PowiGaN technology permits ...