A landmark development led by researchers from the University of Glasgow could help create a new generation of diamond-based transistors for use in high-power electronics.

It says something about your career at a company that makes hundreds of trillions of transistors every day when your nickname ...

Avoid power leaks, power-ground DC paths, and missing level shifters with symbolic simulation. Nothing is worse for a design ...

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

If you ever work with a circuit that controls a decent amount of current, you will often encounter a FET – a Field-Effect Transistor. Whether you want to control a couple of powerful LEDs ...

From this world comes [colectornet], with a video that crosses the bridge between our two communities, examining the so-called transistor wars of the late 1950s and through the ’60s. Just as ...

Although many scientists contributed along the way, it was three men who really brought the transistor to life, and each played a different role: the thinker, the tinkerer, and the visionary.

Early in 1948, Shockley conceived of a transistor that looked like a sandwich, with two layers of one type of semiconductor surrounding a second kind. This was a completely different setup which ...

Also called a "bipolar junction transistor" (BJT), it is one of two major transistor categories; the other is "field-effect transistor" (FET). Although the first transistor was bipolar and the ...

But even though these newfangled transistors are considered an evolutionary step from finFETs, and they have been in R&D for years, any new transistor type or material is a huge undertaking for the ...

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