Current adder with programmable pulse shaping

2007 16th IEEE International Pulsed Power Conference Pub Date : 2007-06-17 DOI:10.1109/PPPS.2007.4345511

F. White, S. Glover, K. Reed, M. Harden

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引用次数: 5

Abstract

Advancements in fusion research and Equation of State (EOS) experiments have led to a need for greater control over the shape of the current waveform in the load. This added complexity will necessitate more sophisticated pulsed power designs. Challenges introduced by these new systems include the requirement for more elaborate control systems to accommodate multiple independent switching times and an improved understanding of how dwell times and jitter affect performance. A subscale programmable current adder has been built to investigate the issues. This system has six independently programmable bricks and is capable of achieving peak currents greater than 2 kA. The bricks were characterized and modeled as a prerequisite to the application of genetic algorithms (GA’s) to determine the required initial conditions, switch triggering times and the brick charge voltages necessary to achieve commanded current shapes. This paper presents a description of the system control, circuit topology, solid-state triggering, charging systems, and system characterization. All of these system parameters are discussed within the context of commanded and measured output currents.

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具有可编程脉冲整形的电流加法器

核聚变研究和状态方程(EOS)实验的进步导致需要更好地控制负载中电流波形的形状。这种增加的复杂性将需要更复杂的脉冲功率设计。这些新系统带来的挑战包括需要更复杂的控制系统来适应多个独立的切换时间，以及对停留时间和抖动如何影响性能的更好理解。为了解决这一问题，本文设计了一种亚量程可编程电流加法器。该系统有6个独立可编程的模块，能够实现大于2 kA的峰值电流。对砖块进行了表征和建模，作为应用遗传算法(GA)的先决条件，以确定所需的初始条件、开关触发时间和砖块充电电压，以实现所要求的电流形状。本文介绍了系统控制、电路拓扑、固态触发、充电系统和系统特性的描述。所有这些系统参数都是在指令和测量输出电流的背景下讨论的。

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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2007 16th IEEE International Pulsed Power Conference

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