Silicon-carbide (SiC) semiconductor power electronics for extreme high-temperature environments

2004 IEEE Aerospace Conference Proceedings (IEEE Cat. No.04TH8720) Pub Date : 2004-03-13 DOI:10.1109/AERO.2004.1368048

J. Hornberger, A. Lostetter, K. Olejniczak, T. McNutt, S. Lal, A. Mantooth

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引用次数: 128

Abstract

This paper discusses the current state of SiC electronics research at Arkansas Power Electronics International, Inc. (APEI) with regard to high-temperature environments and applications. The University of Arkansas (UA) researchers' modeling and characterization of SiC power devices for these high-temperature environments are also discussed. Devices to be covered include SiC Schottky diodes, SiC power MOSFETs, and SiC static-induction-transistors (SITs). The paper reviews the current application of these devices to the specific harsh environments of deep Earth drilling and combat electric vehicles, as well as outline APEI's research work into developing operational SiC motor drives for these systems. It is proposed that this technology development be transferred to NASA space exploration applications. Two areas within the NASA program that would find this technology highly beneficial are (1) probes and landers that must operate in high-temperature environments and (2) ultra-lightweight power electronics for satellite and spacecraft power converter systems.

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用于极端高温环境的碳化硅(SiC)半导体功率电子器件

本文讨论了阿肯色州电力电子国际公司(APEI)在高温环境和应用方面碳化硅电子研究的现状。还讨论了阿肯色大学(UA)研究人员在这些高温环境下对SiC功率器件的建模和表征。涵盖的器件包括SiC肖特基二极管，SiC功率mosfet和SiC静电感应晶体管(sit)。本文回顾了这些设备目前在深地球钻井和战斗电动车辆等特定恶劣环境中的应用，并概述了APEI为这些系统开发可操作的SiC电机驱动器的研究工作。建议将这项技术的发展转移到NASA的空间探索应用中。在NASA的项目中，有两个领域将会发现这项技术非常有益:(1)必须在高温环境中运行的探测器和着陆器;(2)用于卫星和航天器电源转换系统的超轻型电力电子设备。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2004 IEEE Aerospace Conference Proceedings (IEEE Cat. No.04TH8720)

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