ZR的电路建模

Digest of Technical Papers. PPC-2003. 14th IEEE International Pulsed Power Conference (IEEE Cat. No.03CH37472) Pub Date : 2003-06-15 DOI:10.1109/PPC.2003.1277960

C. Harjes, J. Elizondo, K. Struve, L. Bennett, D. Johnson, B. Shoup

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引用次数: 8

摘要

在Z翻新(ZR)项目中，Z加速器的能力得到了扩展[D]。H. McDaniel等人，2002年6月]。大多数脉冲电源硬件正在重新设计，以实现更高的可靠性、更高的射速和更高的脉冲能量。ZR脉冲功率电路的拓扑结构与Z相似，但有一些明显的变化。ZR的初始基线电路设计是使用Screamer [M。L. Kiefer和M. M. Widner, 1985]多年来一直是SNL使用的主要脉冲功率电路设计工具。然而，Screamer所能模拟的拓扑结构是有限的。对于ZR，有几个电路特征不能在Screamer中充分建模。其中最重要的是需要允许模块发射时间的高度独立性，以便可以为等熵压缩实验(ICE)产生规定的暂时形状脉冲[3]。基于这个原因，ZR的基线电路设计目前正在使用Bertha [W。N. Weseloh, 1989]。Bertha是NRL开发的t线电路仿真代码，不受拓扑限制，运行速度快。本文讨论了ZR项目的电路建模策略，并讨论了ZR基线电路模型的现状。

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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Circuit modeling for ZR

In the Z Refurbishment (ZR) project, the capabilities of the Z accelerator is expanded [D. H. McDaniel et al., June 2002]. Most of the pulsed power hardware is being redesigned for operation with higher reliability, a greater shot rate, and increased pulse energy. The topology of the ZR pulsed power circuit is similar to that of Z with a few significant changes. The initial baseline circuit design for ZR was developed using Screamer [M. L. Kiefer and M. M. Widner, 1985] which has been the primary pulsed power circuit design tool employed at SNL for years. Screamer is, however, limited in the topologies it can simulate. For ZR there are several circuit features which cannot be modeled adequately in Screamer. The most significant of these is the need to allow for a high degree of independence in module firing times so that a prescribed temporally shaped pulse can be generated for isentropic compression experiments (ICE) [3]. For this reason, the baseline circuit design for ZR is now being developed using Bertha [W. N. Weseloh, 1989]. Bertha is a NRL developed T-line circuit simulation code that is not topology limited and runs fast. In this paper, a discussion of the circuit modeling strategy for the ZR project along with a discussion of the current status of the ZR baseline circuit model is presented.

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Digest of Technical Papers. PPC-2003. 14th IEEE International Pulsed Power Conference (IEEE Cat. No.03CH37472)

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