Development of a Long Life Triggered Spark Gap

Conference Record of the 2006 Twenty-Seventh International Power Modulator Symposium Pub Date : 2006-05-14 DOI:10.1109/MODSYM.2006.365285

K. Truman, M. Niehaus

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引用次数: 1

Abstract

In a wide variety of high voltage applications, a triggered spark gap is a critical component for the switching of capacitive energy. Whether it is for the purpose of equipment protection or as a series switch, the destructive nature of this application renders the spark gap a limited lifetime device. System parameters such as stored energy, peak current, and charge transfer can all play a significant role in limiting the lifetime of the spark gap; however, these parameters are often fixed for a specific application, thus setting a limit to the attainable life of the spark gap. The following paper discusses experimental results of a study to increase the operation lifetime of a gas filled sealed trigatron spark gap. Parameters such as electrode spacing, gas pressure, gas mixture, and electrode conditioning were examined to quantify improvements in the lifetime of the spark gap. Testing was performed at 45.5 kV with 10 kJ of stored energy discharged at a rate of 300 discharges per day. Conclusions are made as to the effect each design parameter has on extending the lifetime of the spark gap

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长寿命触发火花间隙的研制

在各种高压应用中，触发火花隙是电容能量开关的关键元件。无论是用于设备保护还是作为串联开关，这种应用的破坏性使火花隙成为有限寿命的设备。系统参数，如存储能量、峰值电流和电荷转移都可以在限制火花隙寿命方面发挥重要作用;然而，这些参数通常是固定的特定应用，从而设置一个限制，以达到寿命的火花间隙。本文讨论了提高充气密封三极管火花隙工作寿命的实验结果。测试了电极间距、气体压力、气体混合物和电极调节等参数，以量化火花间隙寿命的改善。测试在45.5 kV下进行，以每天300次放电的速率放电10 kJ的存储能量。得出了各设计参数对延长火花间隙寿命的影响

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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Conference Record of the 2006 Twenty-Seventh International Power Modulator Symposium

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