High-Voltage Generator of Microsecond Pulses

2007 IEEE 34th International Conference on Plasma Science (ICOPS) Pub Date : 2007-06-17 DOI:10.1109/PPPS.2007.4345883

I. Vintizenko, A. Mashchenko, V. Yu

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Abstract

The engineering design, calculations, and computer simulations for the high-voltage generator (HVG) intended for the production of microsecond output voltage pulses of rectangular form at a high repetition rate are presented. The original ideas are suggested for the high-voltage generator. The output pulse is produced by the discharge of several synchronized magnetic pulsed generator (MPG) lines. The application of the saturation chokes with increased linkage values in the several lines of the MPG last compression stage makes possible the delay in switching on to the winding of the high-voltage transformer (HVT). The superposition of the output pulses of several MPG lines enables the formation of the rectangular output pulse of required duration and amplitude at the load. In order to reduce the discharging inductance for getting a steep pulse front, to decrease the weight and dimensions and the possible cost, the HVT is designed according to the principle of linear induction accelerators induction system with multiple-turn windings. Application of magnetic elements allows one to achieve a high pulse repetition rate. Conducted simulation allowed us to determine the elements that limit output parameters, to correct their characteristics, and to adjust the HVG elements for obtaining the pulses of required characteristics: voltage, current, and duration. The proposed concept of the High-Voltage Generator makes possible the realization of up to 1 MV, 1-5 kA, 1 mus, 1 kHz pulse parameters. The quantity of pulses continuously produced at 1 kHz repetition rate is determined by the primary storage capacity, which depends on concrete requirements and can reach several thousands. Such parameters are unique and can be obtained at relatively low weight, size, and cost characteristics. The proper choice of parameters of the last MPG stage elements allows for creating output pulses of special forms: linearly increasing or linearly falling down. Such generators can be applied as modulators for high-power microwave devices of O-and M-types.

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微秒脉冲高压发生器

介绍了用于产生高精度矩形微秒输出电压脉冲的高压发生器(HVG)的工程设计、计算和计算机仿真。对高压发电机提出了初步设想。输出脉冲由几条同步磁脉冲发生器(MPG)线的放电产生。在MPG最后压缩级的几条线路中增加连接值的饱和扼流圈的应用使得高压变压器(HVT)绕组的接通延迟成为可能。几个MPG线输出脉冲的叠加使得在负载下形成所需持续时间和振幅的矩形输出脉冲。为了减小获得陡坡脉冲前的放电电感，减少重量和尺寸，尽可能降低成本，根据多匝线感应加速器感应系统的原理设计了高速电机。磁性元件的应用可以实现高脉冲重复率。进行的模拟使我们能够确定限制输出参数的元件，纠正其特性，并调整HVG元件以获得所需特性的脉冲:电压、电流和持续时间。所提出的高压发生器概念使高达1 MV, 1-5 kA, 1 mus, 1 kHz脉冲参数的实现成为可能。以1khz重复频率连续产生脉冲的数量由主存储容量决定，主存储容量视具体要求而定，可达数千个。这些参数是唯一的，并且可以在相对较低的重量、尺寸和成本特性下获得。正确选择最后MPG阶段元素的参数允许创建特殊形式的输出脉冲:线性增加或线性下降。该发生器可作为o型和m型高功率微波器件的调制器。

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 IEEE 34th International Conference on Plasma Science (ICOPS)

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