Strategic Overview of High-Voltage SiC Power Device Development Aiming at Global Energy Savings

Strategic Overview of High-Voltage SiC Power Device Development Aiming at Global Energy Savings

Advanced high-voltage (≥10 kV) silicon carbide (SiC) devices described in this paper have the potential to significantly impact the system size, weight, high-temperature reliability, and cost of modern variable-speed medium-voltage (MV) systems such as variable speed (VSD) drives for electric motors...

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Veröffentlicht in:Materials science forum 2014-02, Vol.778-780, p.1089-1095, Article 1089
Hauptverfasser: Wang, Gang Yao, Allen, Scott T., Burk, Albert A., O'Loughlin, Michael J., Sung, Woong Je, Cheng, Lin, Palmour, John W., Pala, Vipindas, Scozzie, Charles, Agarwal, Anant K., Grider, David E., Brunt, Edward V., Huang, Alex Q.
Format: Artikel
Sprache:eng
Schlagworte:
Devices
Electric power generation
Energy conservation
PIN diodes
Silicon carbide
Strategy
Thyristors
Traction
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Zusammenfassung:Advanced high-voltage (≥10 kV) silicon carbide (SiC) devices described in this paper have the potential to significantly impact the system size, weight, high-temperature reliability, and cost of modern variable-speed medium-voltage (MV) systems such as variable speed (VSD) drives for electric motors, integration of renewable energy including energy storage, micro-grids, traction control, and compact pulsed power systems. In this paper, we review the current status of the development of 10 kV-20 kV class power devices in SiC, including MOSFETs, JBS diodes, IGBTs, GTO thyristors, and PiN diodes at Cree. Advantages and weakness of each device are discussed and compared. A strategy for high-voltage SiC power device development is proposed.
ISSN:0255-5476
1662-9752
1662-9752
DOI:10.4028/www.scientific.net/MSF.778-780.1089