Fault tolerant shipboard MVDC architectures

机译：容错舰载MVDC架构

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摘要

Medium Voltage DC (MVDC) architectures are identified from the literature search that are suitable for a highly survivable 20kVdc shipboard Integrated Power System (IPS). “Breaker-based” architectures enable fast fault isolation through the use of Solid State Protective Device (SSPD) technology. “Breaker-less” architectures require based generator power converter and Solid State Transformer (SST) interfaces that can fold back outputs and coordinate with no load switches to isolate faults. Estimated size/weights and survivability of various “breaker-based” and “breaker-less topologies are compared. “Breaker-Less”, Current Source Converter (CSC) based architectures have the highest power density but at the cost of lower survivability. Expanding the role of galvanically isolating converters within the system (i.e. SSTs) increases power density and survivability.

机译：中压直流（MVDC）架构是从文献搜索中确定的，适用于高度可生存的20kVdc舰载集成电源系统（IPS）。 “基于破碎器”的体系结构通过使用固态保护设备（SSPD）技术实现了快速的故障隔离。 “无破碎器”架构需要基于发电机的功率转换器和固态变压器（SST）接口，这些接口可以折返输出并与无负载开关配合以隔离故障。比较了各种“基于断路器的”和“无断路器的”拓扑的估计大小/重量和生存能力。基于“ Breaker-Less”，电流源转换器（CSC）的架构具有最高的功率密度，但以较低的生存能力为代价。扩展系统内电流隔离转换器（即SST）的作用可提高功率密度和生存能力。

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来源
《2015 International Conference on Electrical Systems for Aircraft, Railway Ship Propulsion and Road Vehicles》|2015年|1-6|共6页
会议地点 Aachen(DE)
作者
Cuzner Robert M.; Esmaili Daniel Ali;
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作者单位

Dept. of Electr. Eng. Comput. Sci., Univ. of Wisconsin-Milwaukee, Milwaukee, WI, USA;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
DC Fault Protection; Medium Voltage DC Systems; Shipboard Power Systems;

机译：直流故障保护;中压直流系统;船用电源系统;

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1. Fault-Tolerant Oriented Hierarchical Control and Configuration of Modular Multilevel Converter for Shipboard MVdc System [J] . Lerong Hong, Qianming Xu, Zhixing He, IEEE transactions on industrial informatics . 2019,第8期

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2. Fault-Tolerant Operation of a TLC-MMC Hybrid DC-DC Converter for Interconnection of MVDC and HVdc Grids [J] . Cui Shenghui, Hu Jingxin, De Doncker Rik IEEE Transactions on Power Electronics . 2020,第1期

机译：用于MVDC和HVdc电网互连的TLC-MMC混合DC-DC转换器的容错操作
3. Fault-Tolerant Operation of a TLC-MMC Hybrid DC-DC Converter for Interconnection of MVDC and HVdc Grids [J] . Cui Shenghui, Hu Jingxin, De Doncker Rik Trends in Ecology & Evolution . 2020,第1期

机译：用于MVDC和HVDC网格互连的TLC-MMC混合直流转换器的容错操作
4. Fault tolerant shipboard MVDC architectures [C] . Cuzner Robert M., Esmaili Daniel Ali International Conference on Electrical Systems for Aircraft, Railway Ship Propulsion and Road Vehicles . 2015

机译：容错船上MVDC架构
5. ANN-based fault classification and location on MVDC cables of shipboard power systems. [D] . Chanda, Naveen Kumar. 2011

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6. Fault-Tolerant Network-On-Chip Router Architecture Design for Heterogeneous Computing Systems in the Context of Internet of Things [O] . Muhammad Rashid, Naveed Khan Baloch, Muhammad Akmal Shafique, 2020

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7. Analysis of Fault Events in MVDC Architecture [O] . A. Ouroua, J. Beno, R. Hebner 2015

机译：mVDC架构中的故障事件分析
8. Advanced information processing system: The Army fault tolerant architecture conceptual study. Volume 2: Army fault tolerant architecture design and analysis [R] . Harper, R. E., Alger, L. S., Babikyan, C. A., 1992

机译：先进的信息处理系统：陆军容错架构概念研究。第2卷：陆军容错架构设计和分析

Fault tolerant shipboard MVDC architectures

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