Modular Scalable Power Electronics Building Block Based MVDC Solid State Circuit Breakers

Shuyan Zhao, Yao Wang, R. Kheirollahi, Yashraj Shanker, Jeremy Wartenberg, Dana Murphy, Hua Zhang, F. Lu
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Abstract

This paper presents a design methodology of modular medium-voltage direct current (MVDC) solid-state circuit breakers (SSCBs) based on scalable power electronics building block (PEBB) units. Regarding the PEBB, 1) isolated gate drive, 2) natural convection cooling and 3) voltage clamping circuit are introduced. There are three major contributions of this paper. First, the PEBB concept is proposed for MVDC SSCB design for the first time. Second, a novel hybrid MOV based voltage clamping circuit is proposed to increase PEBB voltage rating thence enhancing SSCB efficiency. Third, a PEBB parallel packaging method is proposed based on economic analysis of compromise between efficiency enhancement and cost. A symmetrical busbar layout is proposed to ensure parallel switches consistency. A 1.33kV/40A PEBB prototype is successfully implemented, which is experimentally validated by 40A/1hour continuous conduction test and 1.33kV/200A fault interruption test. A 1.33kV/400A power disk prototype is then implemented based on 10 paralleled PEBBs and symmetrical busbar connections. A 400A/1hour continuous dc conduction test is conducted to verify its state-of-the-art 99.98% steady state efficiency, which paves the way for the next generation of high efficiency ultrafast solid-state breakers for MVDC systems.
模块化可扩展的电力电子构建块基于MVDC固态断路器
提出了一种基于可扩展电力电子构件单元(PEBB)的模块化中压直流(MVDC)固态断路器(SSCBs)的设计方法。PEBB采用了隔离栅驱动、自然对流冷却和箝位电路。本文有三个主要贡献。首先,首次在MVDC SSCB设计中提出了PEBB的概念。其次,提出了一种新的基于MOV的混合箝位电路,以提高PEBB的额定电压,从而提高SSCB的效率。第三,基于效率提升与成本平衡的经济分析,提出了一种PEBB并行封装方法。为了保证并联开关的一致性,提出了一种对称母线布局。成功实现了1.33kV/40A PEBB样机,并通过40A/1小时连续导通试验和1.33kV/200A故障中断试验对样机进行了实验验证。然后基于10个并联pebb和对称母线连接实现了1.33kV/400A电源盘原型。进行了400A/1小时连续直流导通测试,验证了其最先进的99.98%稳态效率,为MVDC系统的下一代高效超快固态断路器铺平了道路。
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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