Intelligent Three Tie Contactor Switch Unit based Protection for Multi-Layered Ring-Bus DC Microgrids

2022 IEEE/IAS 58th Industrial and Commercial Power Systems Technical Conference (I&CPS) Pub Date : 2022-05-02 DOI:10.1109/ICPS54075.2022.9773870

K. Subramaniam, M. Illindala

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Abstract

Several types of hidden faults, like arcing and leakage faults along with the short circuit faults, are common in spacecraft power systems. They pose severe challenges threatening the mission success. In this paper, a multi-layered ring bus dc microgrid architecture is used for the design of space exploration vehicle and surface power systems, due to its enhanced reliability of critical loads and high-power density. Layer interconnecting intelligent three tie contactor units (ICUs) are proposed at every microgrid layer interconnecting nodes, which share the status of their contactors with all the local ICUs and source converters in its layer. Using this information, the local ICUs installed at each node in a microgrid layer use a peer-to-peer communication based adaptive protection scheme to detect and quickly isolate any hidden high impedance or short circuit fault in its layer. The proposed protection scheme is tested with the simulation of multiple fault scenarios in the microgrid using the MATLAB model.

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基于智能三Tie接触器开关单元的多层环母线直流微电网保护

在航天器电源系统中，电弧故障、漏电故障以及短路故障是常见的几种隐性故障。它们构成了威胁任务成功的严峻挑战。本文采用多层环形母线直流微电网结构，提高了关键负载的可靠性和高功率密度，用于空间探索飞行器和地面电力系统的设计。在每一个微网层互连节点上都提出了层互连智能三tie接触器单元(ICUs)，该单元与本层的所有本地ICUs和源转换器共享其接触器状态。利用这些信息，安装在微网层各节点上的本地ICUs采用基于点对点通信的自适应保护方案，检测并快速隔离其层内隐藏的任何高阻抗或短路故障。利用MATLAB模型对所提出的保护方案进行了微电网多种故障场景的仿真测试。

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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来源期刊

2022 IEEE/IAS 58th Industrial and Commercial Power Systems Technical Conference (I&CPS)

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