精确的10和20kv直流/交流电阻分压器

2013 IEEE International Instrumentation and Measurement Technology Conference (I2MTC) Pub Date : 2013-05-06 DOI:10.1109/I2MTC.2013.6555520

R. Procházka, K. Draxler, J. Hlavacek, R. Styblíková

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引用次数: 1

摘要

本文介绍了一种用于10kv或20kv直流电压测量的电阻分压器的结构和校准。分压器由二十个9.99 MΩ高压电阻和一个100 kΩ输出电阻组成。圆形电极与适当的电阻器形成平行电容器。这些薄膜电阻器的电阻公差为0.1%。该结构旨在最大限度地减少电晕电流和电阻器之间的泄漏电阻的影响。本文描述了电阻器的校准过程，包括对其电压依赖性的验证。在此基础上计算了分频比常数及其不确定度。该方法的优点是易于分压器的重新校准。由于长期使用，简单的重新校准过程是必要的。所提出的直流分压器也可用于测量交流各自的冲击电压。然后要求给定频率范围内的频率无关性。补偿容量和自动校正方法的应用保证了分压器的正确补偿。

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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Precise 10 and 20 kV DC/AC resistive divider

This paper describes the structure and calibration of a resistive divider for DC voltage measurement in the range up to 10 kV or 20 kV. The divider consists of twenty 9.99 MΩ high-voltage resistors and one 100 kΩ output resistor. Circular electrodes create parallel capacitor to appropriate resistors. These thin-film resistors have a tolerance of resistance 0.1 %. The structure is designed to minimize the influence of corona currents and leakage resistance between resistors. This paper describes resistor calibration process of, including verification of their voltage dependence. The divider ratio constant and its uncertainty are calculated on the basis of this calibration. The advantage of the proposed procedure is in easy divider recalibration process. A simple recalibration process is necessary due to the long term usage. The proposed DC voltage divider can be used to measure AC respective impulse voltages as well. The frequency independency in given frequency range is then required. The application of compensatory capacity and automatic correction method ensure the correct compensation of voltage divider.

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2013 IEEE International Instrumentation and Measurement Technology Conference (I2MTC)

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