Gallium nitride and silicon carbide are designated wide-bandgap (WBG) semiconductors based on the energy required to shift electrons in these materials from the valence to the conduction band — about 3.2 eV for SiC and 3.4 eV for GaN, compared with just 1.1 eV for silicon. The WBG properties lead to a higher applicable breakdown voltage, which can reach up to 1,700 V in some applications. At this year’s digital only PCIM Europe, held in May, several companies showed their latest innovations in GaN and SiC and offered insights on where WBG technology is headed.

EE Times – Europe
July, 2021
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Based on the authors' years of extensive experience, this is an authoritative overview of Wide Bandgap (WBG) device characterization.

EL SEGUNDO, Calif. – September 2018 – Efficient Power Conversion Corporation (www.epc-co.com) announces the publication by the Institution of Engineering and Technology of Characterization of Wide Bandgap Power Semiconductor Devices co-authored by EPC Senior Applications Engineer, Dr. Edward A. Jones. This textbook provides essential tools to assist researchers, advanced students, and practicing engineers in performing both static and dynamic characterization of WBG devices, particularly those based on using silicon carbide (SiC) and gallium nitride (GaN) power semiconductors. The book presents practical considerations for real applications and includes examples of applying the described methodology.

Bandgap materials GaN and SiC are generating significant buzz globally. Demand for GaN devices used in power electronics applications expected to grow strongly

http://www.compoundsemiconductor.net/csc/news-details/id/19736817/name/GaN-in-power-electronics-application.html

By: Andy Extance, Power Dev’
April, 2013

Efficient Power Conversion Corporation (EPC), Fairchild Semiconductor, GeneSiC Semiconductor, ROHM Semiconductor, and Transphorm tell Andy Extance and Power Dev’ how they’re turning module and system makers toward wide bandgap devices.

http://www.bluetoad.com/publication/?i=157700&p=6

By: Steve Taranovich, EDN
March 15, 2013

As the race toward leadership in the power element continues to evolve, industry experts have said that by mid-2013 about half a dozen GaN, Si, and SiC suppliers will reveal process enhancements, new architectures, and the latest new capabilities that will bring new choices and tools to the industry. http://www.edn.com/design/power-management/4409627/1/Si-vs--GaN-vs--SiC--Which-process-and-supplier-are-best-for-my-power-design-

Wide-bandgap materials, such as GaN and SiC, are enabling a new generation of power switching devices that switch faster and with fewer losses than the venerable silicon MOSFET, resulting in smaller, more efficient power supplies.

By Margery Conner
EDN
August 25, 2011

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