Nearly every piece of technology you use—from smartphones to computers—relies on one revolutionary component: the transistor.

More and more transistors per chip. There's simply no way around it as long as there's a need to create faster and smaller systems that consume less power. This will provide more gates for ASICs and ...

While attending APEC 2019, it seemed that gallium-nitride (GaN) transistors were just coming into their own in high-volume applications, while silicon-carbide (SiC) transistors have found wide ...

GaN power transistors can shrink AC‑DC power supplies and cut losses but, to get the best out of them, their gate drive waveform needs careful attention. As a German team pointed out at ISSCC, GaN ...

Most volume users of IGBT modules view the design of the gate drive circuit as a core competence, but now there is a a different approach to the design and deployment of power switching electronics, ...

It’s no secret that electronic components are getting smaller and smaller all the time, but just how tiny they’re getting may surprise even close followers of the industry. To that end, a research ...

A technical paper titled “Gate Drive Circuit Suitable for a GaN Gate Injection Transistor” was published by researchers at Nagoya University. “A GaN gate injection transistor (GIT) has great potential ...

Imec and Unisantis, a developer of Surrounding Gate Transistor (SGT) semiconductor technology, have revealed significant progress in the development of a process flow targeting an SGT 6T-SRAM cell ...

Using digital logic gates such as AND, OR, XOR, NOT, NAND, NOR, and XNOR and other related logic functions is often the foundation for defining the relationship between electrical signals and how they ...

The figure shows 3 interconnected transistors Q1, Q2, and Q3 supplied from a common supply Vcc = +5V. What particular logic gate does the circuit represent? When +5V is applied to A, Q1 is ...