Cell pitch influence on the current distribution during avalanche operation of trench IGBTs: Design issues to increase UIS ruggedness
Power Semiconductor Devices & IC's(2014)
摘要
Actual design of power devices considers ruggedness in harsh operating conditions as mandatory to meet the always-increasing demand for lifetime device reliability, this being particularly true when the devices are used in safety-critical automotive applications. In this paper we show, for the first time, that a careful engineering of the standard cell geometry can shift the avalanche current from termination to active region and eventually lead to increased avalanche ruggedness without impacting the forward capability of a 1200 V-rated field-stop trench IGBT designed for power traction purposes.
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关键词
automotive electronics,current distribution,insulated gate bipolar transistors,semiconductor device reliability,uis ruggedness,active region,avalanche current,avalanche operation,cell pitch,field-stop trench igbt,lifetime device reliability,power devices,power traction,safety-critical automotive applications,standard cell geometry,voltage 1200 v,geometry,impact ionization,temperature measurement
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