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WBGWhole Blood Glucose
WBGWilliamsburg (Amtrak station code; Williamsburg, VA)
WBGWorld Bank Group
WBGWorld Business Garden (Chiba, Japan)
WBGWide Bandgap
WBGWilly-Brandt-Gymnasium (Oer-Erkenschwick, Germany)
WBGWilhelmina Barns-Graham (British artist)
WBGWales Biodiversity Group
WBGWorld Brotherhood of Gamers (gaming clan)
WBGWide-Band Gaussian
WBGWe Be Gamers
WBGWe Blow Guys (gaming clan)
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References in periodicals archive ?
ON Semiconductor provides a portfolio of advanced wide bandgap devices and simulation environments.
"The high conductivity and wide bandgap make this an ideal material for making optically transparent conducting films which could be used in a wide variety of electronic devices, including high power electronics, electronic displays, touchscreens and even solar cells in which light needs to pass through the device," Jalan said. 
A bow tie antenna in free space is designed to cover the wide bandgap of the abovementioned HIS.
Nitride Wide Bandgap Semiconductor Material and Electronic Devices
Department of Energy, industry and academia, has released a new call for projects to advance wide bandgap (WBG) semiconductor manufacturing and to accelerate the adoption of WBG semiconductor power electronics applications.
Silicon Carbide (4H-SIC) is a wide bandgap semiconductor which is expected to be the enabling technology for advanced power electronics applications.
The Model 2460's flexible, four-quadrant voltage and current source/load coupled with precision voltage and current measurement capabilities make it suitable for research and development of modern high-power semiconductor devices made of wide bandgap materials such as silicon carbide (SiC) and gallium nitride (GaN).
Zinc oxide (ZnO) is a semiconductor material with a wide bandgap energy (3.37 eV) and large exciton binding energy (60 meV) at room temperature.
Dye sensitized solar cell (DSSC) is a type technology for converting light energy into electrical energy based on the sensitization of wide bandgap semiconductors.
The Department of Energy will lead the third institute, which will focus on making wide bandgap semiconductors for power electronics.
Misran, "Performance investigation of a uni-planar compact electromagnetic bandgap (UC-EBG) structure for wide bandgap characteristics," Proceedings of the 2012 Asia-Pacific Symposium on Electromagnetic Compatibility (APEMC), 637-640, Singapore, May 2012.
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