Self-calibration method of vacuum level measuring sensors in vacuum switching

2011 1st International Conference on Electric Power Equipment - Switching Technology Pub Date : 2011-10-01 DOI:10.1109/ICEPE-ST.2011.6122980

Zhizhong Zhao, Liguo Ma, Jingyuan Wang

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Abstract

In same coordinate system with discharge current as x-axis and vacuum level as y-axis, calibration curves of different vacuum interrupters are similar in shapes; therefore, a calibration curve for an idiographic vacuum interrupter can be obtained by shifting the general calibration curve along x-axis. Because the vacuum level measured by the manufacturer is the most accurate, its level is set as the base value. Then an increment of shift should be found: it is the x-axis difference value between the general calibration curve and the value measured when this vacuum interrupter leaves factory. After which, an idiographic calibration curve can be obtained by shifting the general calibration curve on x-axis by the increment. Thus, a self-calibration method is realized, which leads to an improvement of measurement accuracy. In this paper, the shifting of curves is realized by two kinds of methods: direct increment and curve fitting. This self-calibration method can be applied to various vacuum level measuring systems of vacuum interrupters.

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真空开关中真空液位测量传感器的自校准方法

在以放电电流为x轴、真空度为y轴的同一坐标系下，不同真空灭弧器的标定曲线形状相似;因此，将一般标定曲线沿x轴移动即可得到具体真空灭流器的标定曲线。由于生产厂家测量的真空度是最准确的，所以将其液位设置为基准值。然后找到一个位移增量:即该真空断流器出厂时，一般校准曲线与测量值之间的x轴差值。然后，将一般校准曲线在x轴上进行增量移动，得到具体的校准曲线。从而实现了一种自校准方法，提高了测量精度。本文采用直接增量法和曲线拟合法两种方法来实现曲线的位移。该自校正方法可应用于各种真空灭弧器的真空液位测量系统。

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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2011 1st International Conference on Electric Power Equipment - Switching Technology

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