Component design, development, and testing of an inductive voltage adder (IVA) system for Jupiter

Digest of Technical Papers. Tenth IEEE International Pulsed Power Conference Pub Date : 1995-07-03 DOI:10.1109/PPC.1995.599823

J. Corley, P. Pankuch, R. Hamil, J. J. Ramirez, K. Law, L. Bennett, M. Mazarakis, K. Prestwich, J. Alexander, S. Drennan, J. Ruscetti, C. Pritchard, P. Corcoran, J. Fockler, I. Smith, R. Altes, A. R. Miller

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Abstract

Jupiter is a proposed 15-20 MJ laboratory X-ray source. It would store /spl sim/100 MJ in the Marx generators and deliver /spl sim/500 TW to drive high power z-pinch implosions. The pulsed power requirements for Jupiter were evaluated by a national review panel which concluded that the modular IVA technology as used in HERMES III is capable of meeting these requirements. Modularity of construction permits design verification with less than a full size system and offers the flexibility to meet changing requirements. A program to validate this approach at the required power levels has begun with the construction and testing of components that will comprise a full scale IVA generator module. The IVA module will provide a nominal 10 MV, 1.8 MA, 100 ns FWHM output pulse and will consist of four submodules. Each submodule is composed of a Marx generator, two intermediate energy storage capacitors (ISCs) four pulse forming lines (PFLs), one voltage adder cavity (VAC), plus other associated switches and hardware. A conceptual design for this IVA module has been completed. Initial designs for the ISC, PFL, and their gas switches are also complete and hardware has been procured. Testing of these components is underway at Sandia National Laboratories. Discussions of these designs and results of tests are presented in this paper.

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木星感应电压加法器(IVA)系统的组件设计、开发和测试

木星是一个建议的15- 20mj实验室x射线源。它将在马克思发电机中存储/spl sim/100 MJ，并提供/spl sim/500 TW来驱动高功率z捏爆。一个国家审查小组对木星的脉冲功率要求进行了评估，结论是HERMES III中使用的模块化IVA技术能够满足这些要求。模块化的结构允许设计验证小于全尺寸的系统，并提供灵活性，以满足不断变化的需求。为了在所需的功率水平上验证这种方法，已经开始了一个由全尺寸IVA发电机模块组成的组件的构建和测试。IVA模块将提供标称10mv, 1.8 MA, 100 ns FWHM输出脉冲，并由四个子模块组成。每个子模块由一个Marx发生器、两个中间储能电容器(ISCs)、四条脉冲形成线(PFLs)、一个电压加法器腔(VAC)以及其他相关的开关和硬件组成。该IVA模块的概念设计已经完成。ISC、PFL及其气体开关的初步设计也已经完成，硬件也已经采购完毕。这些组件的测试正在桑迪亚国家实验室进行。本文对这些设计进行了讨论，并给出了试验结果。

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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Digest of Technical Papers. Tenth IEEE International Pulsed Power Conference

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