Sensitivity & errors in transient voltage measurement of gaseous ionization

1982 IEEE International Conference on Electrical Insulation Pub Date : 1982-06-01 DOI:10.1109/EIC.1982.7464473

K. Spriggs

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Abstract

The relatively new transient voltage method is a promising technique for measuring the discharge parameters, particularly ionization coefficients, in gaseous dielectrics. A comprehensive theory for the method, including the effects of electron longitudinal diffusion, has recently been developed. The first results from the method, using that new theory, have also been obtained. The aim of this paper is to present a sensitivity and error analysis of those results. That analysis is of particular interest because of the non-analytic nature of the governing equations. Sensitivity curves are presented for each independent variable over the full range of applied field (400 < E/N < 2200 Td, 1Td= 10−17 V.cm2). Results are also presented for the weighted error contribution of each variable to the overall variance as well as the overall coefficient of variation in primary ionization coefficient as E/N varies. The results are discussed in relation to the competitiveness of the method, the role of longitudinal diffusion and the future use of automatic measuring systems able to exploit the single shot nature of the discharge measurement technique.

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气体电离瞬态电压测量的灵敏度和误差

相对较新的瞬态电压法是测量气体介质中放电参数，特别是电离系数的一种很有前途的技术。该方法的综合理论，包括电子纵向扩散的影响，最近已经发展。利用这个新理论，也得到了该方法的第一个结果。本文的目的是对这些结果进行灵敏度和误差分析。由于控制方程的非解析性质，这种分析特别有趣。在整个应用范围内(400 < E/N < 2200 Td, 1Td= 10−17 V.cm2)，给出了每个自变量的灵敏度曲线。结果还给出了各变量对总方差的加权误差贡献，以及一次电离系数随E/N变化的总变异系数。结果讨论了该方法的竞争力，纵向扩散的作用以及能够利用放电测量技术的单发性质的自动测量系统的未来使用。

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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1982 IEEE International Conference on Electrical Insulation

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