一种基于双极模SIT结构的新型整流器

Proceedings of International Symposium on Power Semiconductor Devices and IC's: ISPSD '95 Pub Date : 1995-05-23 DOI:10.1109/ISPSD.1995.515048

K. Yano, M. Kasuga, A. Shimizu, M. Mitsui, H. Moroshima, J. Morita

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引用次数: 1

摘要

作者提出了一种基于双极模式静态感应晶体管(BSIT)工作的新型整流器。数值模拟结果表明，该整流器在正向导通过程中结合静电感应效应和少量载流子注入，具有比传统p-i-n整流器更小的正向压降和反向恢复时间，并且不会产生过大的漏电流。结果还表明，在低于400k的温度下，使用BSIT操作的整流器的稳态功耗优于p-i-n整流器和肖特基整流器。

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A novel rectifier based on bipolar-mode SIT structure

The authors propose a novel rectifier based on bipolar-mode static induction transistor (BSIT) operation. A numerical simulation has revealed that, this rectifier, which operates with a combination of static induction effects and minority carrier injection during forward conduction, exhibits a forward-voltage drop and a reverse recovery time that are smaller than those of the conventional p-i-n rectifiers, and without causing excessive leakage current. It is also shown that, at temperatures below 400 K, the steady state power dissipation for the rectifier using BSIT operation is superior to that for the p-i-n rectifiers and the Schottky rectifiers.

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Proceedings of International Symposium on Power Semiconductor Devices and IC's: ISPSD '95

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