And it's not just smartphones -- most modern chargers can handle heavier loads such as tablets and laptops. With the transition from silicon transistors to gallium nitride (GaN) transistors ...

[Brian Dipert] looked at what this means in a practical sense by tearing down a GaN phone charger. The charger in question is a 30 watt USB-C charger produced by Voltme. It cost [Brian] just $10 ...

The 100W USB-C GaN charger can help you out in a pinch, and it can currently be yours for only $59.99 (reg. $119). This tiny but mighty power solution is less than the length of a credit card ...

Of course, since this is a GaN charger, you'll get maximum power with reduced heat. In addition to the above, Anker includes ...

A USB charger that uses gallium nitride (GaN) components rather than silicon. GaN chargers are more efficient and smaller than USB chargers, and they can contain more ports per square inch.

The basis for that has been gallium nitride, or GaN as a technology to drive the need for faster and faster charging speeds that neither damage the charger (heating can be an issue with speedy ...

A 650-V bi-directional GaN IC combined with a high-speed isolated gate driver facilitates this single-stage power conversion.