DocumentCode :
150283
Title :
Avoiding Si MOSFET avalanche and achieving true zero-voltage-switching for cascode devices
Author :
Xiucheng Huang ; Weijing Du ; Zhengyang Liu ; Lee, Fred C. ; Qiang Li
Author_Institution :
Bradley Dept. of Electr. & Comput. Eng., Virginia Polytech. Inst. & State Univ., Blacksburg, VA, USA
fYear :
2014
fDate :
14-18 Sept. 2014
Firstpage :
106
Lastpage :
112
Abstract :
The cascode structure is widely used for high voltage normally-on wide-band-gap devices. However, the interaction between the high voltage normally-on device and the low voltage normally-off Si MOSFET may induce undesired features. This paper analyzes the voltage distribution principle during the turn-off transition as well as the zero-voltage-switching (ZVS) principle during the turn-on transition for cascode devices. The capacitance mismatch between high voltage normally-on devices and the low voltage Si MOSFET causes the Si MOSFET to avalanche, and internal high voltage devices lose the ZVS condition. This issue must be solved in consideration of both power loss and reliability. A simple and effective solution is proposed by adding an extra capacitor to compensate the capacitance mismatch, thereby avoiding Si MOSFET avalanche and achieving true ZVS for cascode devices. The benefits and small penalty of this solution are analyzed in detail. The theoretical analysis is validated by experiments which are implemented based on a 600V cascode GaN device. The experiment shows that the proposed method improves the 600V cascode GaN devices performance significantly in high frequency applications.
Keywords :
MOSFET; elemental semiconductors; power semiconductor devices; silicon; voltage distribution; zero voltage switching; MOSFET avalanche; Si; capacitance mismatch; cascode devices; high voltage normally on device; low voltage normally off device; voltage 600 V; voltage distribution principle; zero voltage switching; Capacitance; Capacitors; Gallium nitride; Junctions; MOSFET; Silicon; Zero voltage switching;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Energy Conversion Congress and Exposition (ECCE), 2014 IEEE
Conference_Location :
Pittsburgh, PA
Type :
conf
DOI :
10.1109/ECCE.2014.6953382
Filename :
6953382
Link To Document :
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