静电放电在不同压力下的火花间隙电阻

O. Diaz, V. Cooray, F. Roman
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摘要

只提供摘要形式。文献中大多数关于放电的实验数据都是关于空气中不同几何形状的放电间隙的击穿特性。然而,为了了解与放电相关的物理过程,有必要获得预击穿和火花阶段电流电压随时间变化的实验数据。这些信息对于理解放电通道的电阻如何随时间和放电期间能量耗散的函数而变化是必要的。本研究的目的是在自击穿压力间隙上进行研究,当两个电极之间发生快速静电放电(ESD)时,测量电压和电流。这种快速ESD是由带电电晕电流的浮动电极产生的,获得了数百安培的峰值电流幅度和几纳秒的上升时间和脉冲宽度。内部气体是不同压力下的干燥空气。
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Spark gap resistance for an electrostatic discharge at different pressures
Summary form only given. Most of the experimental data available in the literature on electrical discharges is referred to the breakdown characteristics of discharge gaps for different geometries in air. However, in order to understand the physical processes associated with the electrical discharges, it is necessary to obtain experimental data on the temporal variation of current- voltage during the pre-breakdown and the spark stage. This information is necessary to understand how the resistance of the discharge channel varies as a function of time and the energy dissipation during the discharge. The aim of this work present a study performed on a self- breakdown pressured gap, where voltage and current were measured when a fast electrostatic discharge (ESD) occurred between two electrodes. This fast ESD was produced by a floating electrode charged with corona currents, obtaining some hundreds of amperes of peak-current amplitude and a few nanoseconds of risetime and pulse width. The internal gas was dry air at different pressures.
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