Design of DC system protection

2013 IEEE Electric Ship Technologies Symposium (ESTS) Pub Date : 2013-04-22 DOI:10.1109/ESTS.2013.6523783
A. H. Chang, A. Avestruz, S. Leeb, J. Kirtley
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引用次数: 34

Abstract

A modified Z-source breaker topology is introduced to minimize the reflected fault current drawn from a source while retaining a common return ground path. A conventional Z-source breaker does not provide steady-state overload protection and can only guard against extremely large transient faults. The Z-source breaker can be designed for considerations affecting both rate of fault current rise and absolute fault current level, analogous in some respects to a “thermal-magnetic” breaker. The proposed manual tripping mechanism enables protection against both instantaneous current surges and longer-term over-current conditions. The fault operation intervals of the proposed Z-source breaker topologies are demonstrated in SPICE simulation.
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直流系统保护设计
一种改进的z源断路器拓扑被引入,以最小化从一个源引出的反射故障电流,同时保留一个共同的返回地路径。传统的z源断路器不提供稳态过载保护,只能防止极大的瞬态故障。z源断路器的设计可以考虑影响故障电流上升速率和绝对故障电流水平,在某些方面类似于“热磁”断路器。提议的手动跳闸机制可以防止瞬时电流浪涌和长期过流情况。在SPICE仿真中验证了所提出的z源断路器拓扑的故障运行间隔。
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2013 IEEE Electric Ship Technologies Symposium (ESTS)
2013 IEEE Electric Ship Technologies Symposium (ESTS)
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