基于气控脉冲成形线的感应电压加法器设计

2005 IEEE Pulsed Power Conference Pub Date : 2005-06-13 DOI:10.1109/PPC.2005.300620

P. Corcoran, V. Carboni, V. Bailey, R. Altes, H. Kishi, J. Pearce, T. da Silva, D. Spelts, R. Stevens, B. Whitney, J. Douglas, J. DeRosa, T. Tatman, K. da Silva, K. Thomas, T. Bryant, M. Bockle, I. Smith, A. Summers, M. Świerkosz, S. Fishlock

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引用次数: 13

摘要

本文介绍了由Titan Pulse Sciences Division (TPSD)为AWE Aldermaston, UK设计的感应电压加法器(IVA)。该IVA将用于为AWE计划中的三轴流体动力研究设施(HRF)中的射线照相源提供动力。TPSD将提供iva, AWE将提供放射二极管。完整的IVA将在其初始配置中首先向大面积二极管提供14 MV, 110 kA, 50-60 ns的脉冲，然后向发展中的放射成像二极管提供脉冲。HRF IVA采用双导体水介质脉冲形成线(pfls)设计，带有激光触发气体开关，可以重新配置，为峰值功率为1.5至3.9 TW，峰值电压为8至16.8 MV的一系列射线照相二极管供电。在准势理论的辅助下，真空区的LSP模拟探索并优化了不同IVA结构与不同二极管的耦合。

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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Design of an Induction Voltage Adder Based on Gas-Switched Pulse Forming Lines

This paper describes an induction voltage adder (IVA) being designed by Titan Pulse Sciences Division (TPSD) for AWE Aldermaston, UK. This IVA will be used to power the radiography sources in AWE's planned three-axis Hydrodynamic Research Facility (HRF). TPSD will provide the IVAs and AWE will provide the radiographic diodes. The full IVA will in its initial configuration deliver a 14 MV, 110 kA, 50-60 ns pulse first to a large area diode and then to a developmental radiographic diode. The HRF IVA has been designed utilizing two-conductor water dielectric pulse forming lines (pfls) with laser triggered gas switches and can be reconfigured to power a range of radiographic diodes with peak powers from 1.5 to 3.9 TW and peak voltages from 8 to 16.8 MV. LSP simulations of the vacuum region aided by parapotential theory have explored and optimized the coupling of the different IVA configurations to various diodes.

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2005 IEEE Pulsed Power Conference

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