Silicon Carbide Emitter Turn-off Thyristor, A Promising Technology For High Voltage and High Frequency Applications

2009 Twenty-Fourth Annual IEEE Applied Power Electronics Conference and Exposition Pub Date : 2009-03-21 DOI:10.1109/APEC.2009.4802730

Jun Wang, Gangyao Wang, Jun Li, A. Huang

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引用次数: 7

Abstract

A novel MOS-controlled SiC thyristor device, the SiC emitter turn-off thyristor (ETO), as a promising technology for future high voltage high frequency switching applications has been developed. The world's first 4.5-kV SiC p type ETO prototype based on a 0.36 cm2 SiC p type GTO shows a forward voltage drop of 4.6 V at a current density of 25 A/cm2 and a turn-off energy loss of 9.88 mJ. The low loss indicates that the SiC ETO could operate at a 4 kHz frequency with a conventional thermal management system. This frequency capability is about 4 times higher than the 4.5-kV-class silicon power devices. The numerical simulations have been carried out to discuss the potential improvement of the high voltage (10-kV) SiC ETOs. The results show that the 10-kV SiC n type ETO has much better trade-off performance than that of the p type ETO due to a smaller current gain of the internal lower (PNP) bipolar transistor in the SiC n type GTO. The experimental and theoretical studies show that the SiC ETO is a promising candidate for high-voltage (≫ 5-kV) high-frequency power conversion applications.

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碳化硅发射极关断晶闸管——一种有前途的高压高频应用技术

SiC发射极关断晶闸管(ETO)是一种新型的mos控制SiC晶闸管器件，是未来高压高频开关应用的一种很有前途的技术。世界上第一个基于0.36 cm2 SiC p型GTO的4.5 kv SiC p型ETO原型，在电流密度为25 a /cm2时，正向压降为4.6 V，关断能量损失为9.88 mJ。低损耗表明SiC ETO可以在传统热管理系统下工作在4khz频率。这种频率能力比4.5 kv级硅功率器件高约4倍。通过数值模拟，探讨了高电压(10kv) SiC eto的改进潜力。结果表明，由于SiC n型GTO内部低端(PNP)双极晶体管的电流增益较小，10 kv SiC n型ETO具有比p型ETO更好的权衡性能。实验和理论研究表明，SiC ETO是高电压(5-kV)高频功率转换的理想器件。

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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2009 Twenty-Fourth Annual IEEE Applied Power Electronics Conference and Exposition

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