The mechanism of parasitic oscillation in a half bridge circuit including wide band-gap semiconductor devices
Future of Electron Devices, Kansai(2014)
摘要
This paper focuses on revealing the mechanism of parasitic oscillation observed when SiC MOSFETs (metal-oxide-semiconductor field-effect transistors) operate in halfbridge configuration. The relatively large parasitic feed-back capacitance (Cgd) of SiC MOSFETs, especially if the transistors have a low threshold voltage, enhances unintentional turn-on of the device, entailing parasitic oscillation in a half bridge circuit. The wide-band gap semiconductor power device should possess a structure of as low Cgd as possible in addition to a device-specific circuit design, if the general advantage of wide band-gap power devices is utilized to facilitate high-speed switching.
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关键词
bridge circuits,circuit feedback,power mosfet,silicon compounds,wide band gap semiconductors,mosfets,sic,device-specific circuit design,half bridge circuit,high-speed switching,large parasitic feedback capacitance,low threshold voltage,metal-oxide-semiconductor field-effect transistors,parasitic oscillation mechanism,wide-band gap semiconductor power device,high speed switching,parasitic oscillation,wide band-gap semiconductor transistor,rlc circuits,transistors,photonic band gap,logic gates,oscillators
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