Design of a 500-KJ Capacitor Bank Module for EML Materials Testing

2005 IEEE Pulsed Power Conference Pub Date : 2005-06-13 DOI:10.1109/PPC.2005.300587

J. Neri, T. Holt

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引用次数: 9

Abstract

The U.S. Navy is considering the development of an electromagnetic launcher (EML) for surface-fire support and other missions[1]. The EML system will need to have fire rates of 6-12 rounds per minute and barrel lifetimes approaching 10,000 rounds. The Naval Research Laboratory has initiated a program to develop and test materials to achieve these fire rates and lifetimes[2]. A facility is being assembled to allow testing of rail and armature materials at the high current density, pressure and sliding velocity of the Navy EML. The test system needs to operate over a large range of charging voltages and test configurations. The system also needs to deliver high reliability and reproducibility to accommodate the testing requirements. A 500-kJ module is being designed as the basic building block of the pulsed power system for the facility. Each module will supply up to 100 kA to the materials test system. The components being considered are similar to those proposed for a 200 MJ EML pulsed power system[3]. The capacitors are new, 125 kJ/can, 11-kV units from General Atomics Electronics Systems. The switching thyristors and crowbar diodes are from ABB. A series inductor of approximately 80 muH is used to limit the peak current to 100 kA and isolate modules from each other and to ensure that the current is delivered to the test system. It is expected that the solid-state components used for switching and crowbarring will provide the reliability and flexibility desired for the pulsed power system. The circuit is analyzed with the dynamic nature of the test system included. The rising inductance of the test must be included in the modeling to accurately reflect the action required from the switching and crowbar elements, and the fuses that are in series with capacitors. The physical layout of the banks is also being designed to provide highly compact modules while providing access for maintenance and repair. Results of the simulations will be presented, along with mechanical layout plans.

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EML材料测试用500kj电容器组模块的设计

美国海军正在考虑开发一种电磁发射装置(EML)，用于水面火力支援和其他任务。EML系统的射速需要达到每分钟6-12发，枪管寿命接近1万发。海军研究实验室已经启动了一项开发和测试材料的计划，以实现这些射速和寿命。正在组装一个设备，以允许在海军EML的高电流密度、压力和滑动速度下测试轨道和电枢材料。测试系统需要在大范围的充电电压和测试配置下运行。系统还需要提供高可靠性和可再现性，以适应测试需求。正在设计一个500千焦的模块，作为该设施脉冲功率系统的基本组成部分。每个模块将为材料测试系统提供高达100ka的电压。所考虑的组件类似于为200兆焦耳EML脉冲功率系统[3]提出的组件。电容器是新的，125千焦/罐，11千伏单位从通用原子电子系统。开关晶闸管和撬杠二极管来自ABB，使用约80 μ h的串联电感器将峰值电流限制在100 kA，并将模块彼此隔离，以确保将电流输送到测试系统。预计用于开关和阻塞的固态元件将提供脉冲功率系统所需的可靠性和灵活性。对电路进行了分析，包括测试系统的动态特性。测试的上升电感必须包含在建模中，以准确反映开关和撬棍元件以及与电容器串联的熔断器所需的动作。银行的物理布局也被设计成提供高度紧凑的模块，同时为维护和维修提供通道。模拟结果将与机械布局图一起呈现。

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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2005 IEEE Pulsed Power Conference

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