Wondering what a GaN charger is? Learn how it works, why it’s faster and smaller, and how to tell if your charger uses GaN technology.

Fig. 5: Hexagonal Wurtzite structure of gallium nitride showing major crystal planes. [⁠9] Silicon device designers have long relied on precise placement of dopants to control both electron and hole ...

German semiconductor maker Infineon said on Wednesday that it would take a large slice of the growing market for gallium nitride (GaN) chips, after announcing a technological breakthrough that it ...

This study focuses on the adaptability evaluation of two key tasks in the Pix2Pix–BicycleGAN landscape masterplan generation workflow—layout generation and masterplan rendering.

Gallium nitride (GaN) power semiconductors continue to push the boundaries of high-voltage electronics, as evident at this year’s Applied Power Electronics Conference (APEC) in Long Beach, California.

Gallium nitride (GaN) and its wide bandgap cousin silicon carbide (SiC) have started to disrupt power electronics. Ironically, just a few years ago, GaN was considered useless as a semiconductor, ...

For electric vehicles and power devices, device makers are working their way to GaN integrated circuits.

Three years after releasing its first gallium nitride (GaN) charger, Anker has revealed its second-gen models. The GaN Nano II lineup is more efficient, smaller and better at regulating ...

Gallium nitride (GaN) is a superior semiconductor to silicon and is powering a wave of new mobile-related technologies, including gallium nitride chargers.