To make a long story short, Gallium Nitride (GaN) is a crystalline-like material capable of conducting higher voltages. Current flows faster through components made of GaN than silicon, resulting in faster processing speeds. GaN is more efficient, and so there isless heat.

But there's a bit more to it than that. Read on to findout the full story.

Why are GaN Chargers Better ?

GaN components conduct electrons more efficiently than silicon and can withstand higher electric fields. This allows GaN devices to have superior power and speed, and operate at lower temperatures. Because of this, GaN is gradually replacing silicon in the construction of chargers and other electronics.

When it comes to chargers, heat is generally caused by certain components being overworked. Since GaN operates much faster and more efficiently, there is significantly less heat created compared to silicon-based devices.

To make a long story short, Gallium Nitride (GaN) is a crystalline-like material capable of conducting higher voltages. Current flows faster through components made of GaN than silicon, resulting in faster processing speeds. GaN is more efficient, and so there isless heat.

But there's a bit more to it than that. Read on to findout the full story.

Demo Content Head 1

To make a long story short, Gallium Nitride (GaN) is a crystalline-like material capable of conducting higher voltages. Current flows faster through components made of GaN than silicon, resulting in faster processing speeds. GaN is more efficient, and so there isless heat.

But there's a bit more to it than that. Read on to findout the full story.

Demo Content Head 2

To make a long story short, Gallium Nitride (GaN) is a crystalline-like material capable of conducting higher voltages. Current flows faster through components made of GaN than silicon, resulting in faster processing speeds. GaN is more efficient, and so there isless heat.

But there's a bit more to it than that. Read on to findout the full story.