The power GaN device market is expected to be a $3 billion market by 2030 with a 42% CAGR from 2024 to 2030, says Yole. Consumer electronics is a leading adopter with power GaN continuing to dominate ...

Yole Group announced the release of its new edition of the Power GaN report, Power GaN 2025. This annual bestseller provides an in-depth analysis of the global power GaN market trajectory, covering ...

It has taken a while, but gallium nitride (GaN) has slowly transformed the power consumption of our electronic devices, and chipmaker Power Integrations is a good example of how that has happened.

The market for devices based on gallium nitride (GaN) technology is heating up amid the push for faster and more power efficient systems. Today, GaN is widely used in the production of LEDs. In ...

The GaN devices market for power electronics application will explode in 2016, reaching US$300 million in 2020 The GaN devices market for power electronics application will explode in 2016, reaching ...

LONDON — The market for gallium nitride (GaN) radio frequency devices was $17 million in 2007, according to Yole Developpement. The market was split 65 percent in R&D, 17 percent defense and satellite ...

EL SEGUNDO, Calif.--(BUSINESS WIRE)--Efficient Power Conversion (EPC) is joining forces with Yole Développement (Yole) and SEMI to sponsor the first ever ‘GaN Con,’ an industry networking event ...

The impressive qualities of wide-bandgap (WBG) semiconductors such as gallium nitride (GaN) and silicon carbide (SiC) have made them appealing to several markets, including electric vehicles, PV ...

"Overall, 2020 could see an estimated device market size of almost $600M, leading to approximately 580,000 x 6" wafers to be processed," explains Dr Philippe Roussel, Yole Développement. "Overall, ...

There is no doubt that 5G’s higher bandwidth, lower latency and higher availability make it well suited for a range of applications. However, the higher-frequency bands, particularly millimeter-wave ...

Delivering high-speed processing over 100 times faster than silicon, compound semiconductors have made the devices a magnet for developers of leading-edge technologies out to maximize performance in ...