Experimental Evaluation of Cryogenic Performances of Electronic Components for Signal Isolation in Medium Voltage Power Converters

2023 IEEE Applied Power Electronics Conference and Exposition (APEC) Pub Date : 2023-03-19 DOI:10.1109/APEC43580.2023.10131565

S. K. Dam, Ching-Hsiang Yang, Zhou Dong, Dehao Qin, Ruirui Chen, Fred Wang, Hua Bai, Zheyu Zhang

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Abstract

Operating power converters at cryogenic temperature (<-153°C) can improve efficiency and power density. However, the reliable operation of power converters depends on satisfactory performance of all critical components at cryogenic temperature. While most of the critical components have been studied at cryogenic temperatures, some electronic components necessary for electrical isolation in signal circuits of a medium voltage power converter are yet to be evaluated extensively. This work studies the cryogenic performance of isolated auxiliary power supplies (APS), digital isolators, fiber optics, and isolation amplifiers to identify the well-performing candidates and to investigate the possible reason of failures at cryogenic temperatures. It is observed that some isolated APS with high isolation voltage and isolation amplifiers can work satisfactorily at cryogenic temperatures. The digital isolators are found to be more suitable for cryogenic operation than fiber optic links, even though the latter has better noise immunity.

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中压电源变换器中信号隔离电子元件低温性能的实验评价

在低温(<-153℃)下运行功率变换器可以提高效率和功率密度。然而，电源变换器的可靠运行取决于所有关键部件在低温下令人满意的性能。虽然大多数关键元件已经在低温下进行了研究，但中压电源变换器信号电路中电气隔离所必需的一些电子元件尚未得到广泛的评估。这项工作研究了隔离辅助电源(APS)、数字隔离器、光纤和隔离放大器的低温性能，以确定性能良好的候选器件，并调查在低温下故障的可能原因。观察到一些具有高隔离电压和隔离放大器的隔离APS在低温下可以很好地工作。发现数字隔离器比光纤链路更适合低温操作，尽管光纤链路具有更好的抗噪声能力。

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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2023 IEEE Applied Power Electronics Conference and Exposition (APEC)

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