中压逆变器中WBG器件对感应电机定子绝缘的影响

A. Mirza, H. Nguyen, A. Bazzi, Yang Cao
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引用次数: 0

摘要

宽带隙(WBG)功率半导体器件,如SiC和GaN,通过推动电压、频率和功率的限制,扩大了电机驱动在中高压环境中的应用。WBG逆变器的这些优势正被用于飞机和船舶行业,因为它们正朝着下一代多电动和全电动设计方向发展。虽然WBG技术在开关速度更快、电压击穿强度更高、恢复时间短等方面的优势是众所周知的,但它对电机驱动绝缘的影响却相对未知。本文以高压高频WBG逆变器为研究对象,分析了其对中压电机绝缘的影响。具体而言,在Ansys Maxwell软件中对2电平六桥WBG逆变器和3电平多电平逆变器励磁的三相中压电机定子地壁绝缘进行了介电应力和漏电流密度分析,并给出了分析结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of WBG Devices in Medium-voltage Inverters on Induction Machine Stator Insulation
Wide bandgap (WBG) power semiconductor devices, such as SiC and GaN, have broadened the applications of motor drives in medium- and high-voltage regimes by pushing the limits of voltage, frequency, and power. These advantages of WBG inverters are being leveraged in aircraft and ship industries as they move towards next generation more- and all-electric designs. While the superiority of WBG technology in terms of faster switching, greater voltage breakdown strength, and short recovery time are known, its effect on the motor drive insulation is relatively unknown. This paper focuses on high-voltage high-frequency WBG inverters and analyses their effect on medium-voltage machine insulation. Specifically, analysis of dielectric stress and leakage current density is carried out on a 3-phase medium voltage motor's stator ground-wall insulation excited by a 2 level hex-bridge WBG inverter and a 3 level multilevel inverter in Ansys Maxwell and the results are presented.
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