宽禁带材料及其在新型功率器件中的影响综述

2017 IEEE International Workshop of Electronics, Control, Measurement, Signals and their Application to Mechatronics (ECMSM) Pub Date : 2017-05-24 DOI:10.1109/ECMSM.2017.7945876

David Garrido-Diez, I. Baraia

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引用次数: 30

摘要

电力电子变换器采用半导体来满足不同应用的需要。目前，这些半导体主要是基于硅(Si)，它可以加工几乎没有缺陷。然而，硅的极限已经达到，因此，硅基半导体具有有限的电压阻塞能力，有限的传热能力，有限的效率和最大结温。近年来，功率半导体器件已采用碳化硅(SiC)和氮化镓(GaN)等宽带隙材料制造。这些材料的使用有望超越硅所施加的限制。用这些材料可以制造更紧凑、更高效的设备。然而，为了利用这些设备的好处，有必要知道所有的影响，采用这些新组件在转换器。本文综述了目前的SiC和GaN材料和器件，比较了它们在实际功率应用中的优点和缺点。

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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Review of wide bandgap materials and their impact in new power devices

Power electronic converters use semiconductors to satisfy the needs of different applications. Nowadays, these semiconductors are mainly based on Silicon (Si), which can be processed virtually without defects. However, the limits of Si are being reached and in consequence, Si based semiconductors have limited voltage blocking capability, limited heat transfer capability, limited efficiency and maximum junction temperature. In recent years, power semiconductor devices have been built with wide-bandgap materials such as Silicon Carbide (SiC) and Gallium Nitride (GaN). The use of these materials promises to surpass the limits imposed by Si. More compact and efficient devices can be fabricated with these materials. However, in order to exploit the benefits of these devices, is necessary to know all the implications that the adoption of these new components has in the converter. This paper provides a review of current SiC and GaN materials and devices comparing their benefits and drawbacks for real power applications.

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来源期刊

2017 IEEE International Workshop of Electronics, Control, Measurement, Signals and their Application to Mechatronics (ECMSM)

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