Each century has its major inventions in every field of human endeavors. For Power Electronics, the 21 st Century is lapping up the discovery of Wide-Bandgap. Over the last two decades, researchers ...

ORLANDO, Fla.--(BUSINESS WIRE)--onsemi (Nasdaq: ON), a leader in intelligent power and sensing technologies, today announced a breakthrough in simulation tools for onsemi’s EliteSiC Silicon Carbide ...

The steady growth of power electronics performance, coupled with a reduction in component footprint, has integrated power-based technologies into products and solutions in novel ways that were not ...

Energy efficiency, integration, and innovation were the primary drivers behind 2023's remarkable advances in power electronics. WBG (SiC and GaN) semiconductor technologies have matured rapidly over ...

Growth in power electronics market demand is driven by electric mobility, wider adoption of renewable energy, and increasing focus on energy-efficient industrial applications, with Asia-Pacific ...

Gallium nitride (GaN) is beginning to show up across a broad range of power semiconductor applications due to its wide bandgap, enabling fast-charging, very high speeds, and much smaller form factors ...

Wide-bandgap (WBG) semiconductors are a class of materials that can offer a range of advantages over silicon. These materials can operate at higher voltages and higher temperatures, serving as ...

Relationship of power density and field strength. Some of the more uncommon power-density apps. RF designers frequently need to know the true power density or field intensity at a particular distance ...

Thermal Interface Materials (TIMs) enhance energy efficiency by improving heat dissipation, reducing power consumption, and extending component lifespan.

Electric vehicles, converters for charging infrastructure, energy storage systems, solar and wind power plants or new types of heat pumps — key technologies for the energy transition rely on ...