A team of international researchers has found a new way to use diamond as the basis of a power transistor that remains ...

Glasgow University researchers have led work that could lead to a new generation of diamond-based transistors.

High-voltage power devices and transistors are essential components in modern electronic systems, particularly in applications that require efficient power management and conversion. These devices ...

A landmark development led by researchers from the University of Glasgow could help create a new generation of diamond-based ...

What we could perhaps all agree on, though, is that getting 300 volts out of a USB power supply is certainly a “high voltage” we wouldn’t normally expect to see in that kind of context ...

Here’s a simple FET circuit that lets you switch power to ... a 3.3 V MCU that can’t handle the high-side voltage on its pins, you can add a NPN transistor section as shown – this inverts ...

At the University of Glasgow’s James Watt Nanofabrication Centre, the team used surface chemistry techniques to improve the ...

GaN is especially well-established in low-power applications like chargers for personal electronics, while silicon and SiC ...

SiC and GaN advances used improved device structures and higher levels of integration to support higher voltages and power ...

The difference between high-side and low-side power switching is not apparent to many new designers but is a critical aspect ...