Calibration method of radio interference measurement result in high-voltage side of corona cage

被引：0

作者：

机构：

[1] Department of Electrical Engineering, Tsinghua University, Beijing

[2] China Electric Power Research Institute, Beijing

来源：

Wang, Wenzhuo | 1600年 / Science Press卷 / 40期

基金：

中国国家自然科学基金;

关键词：

Calibration factor; Corona cage; Corona current; Electromagnetic environment; Excitation function; Radio interference; Transmission lines;

D O I：

10.13336/j.1003-6520.hve.2014.09.035

中图分类号：

学科分类号：

摘要：

Corona cage is one of the key measures for researching the radio interference (RI) of transmission lines. However, calibration is needed when the measurement result at the high-voltage side is used to calculate the excitation function. Hence we have studied the calibration methods. Firstly, a formula of the calibration factor is developed based on the excitation function theory and the transmission line theory, and some simplifications of the formula are made for different situations. Then, we propose two calibration methods, and one determines the parameters in the calibration factor formula through numerical calculation and then calculates the calibration factor, the other determines the calibration factor based on the measured calibration curves. Taking the 6×LGJ-720/50 conductor as example, its calculated calibration factor is 1.7 dB and the result gained by the calibration curve is 2.2 dB. The two results are close to each other. In addition, the impact of the conductor parameters on the calibration factor is analyzed, and the result indicates that this impact can be ignored in the HVDC corona cage in China.

引用

页码：2855 / 2861

页数：6

共 23 条

[1] Shu Y., Zhang W., Research of key technologies for UHV transmission, Proceedings of the CSEE, 27, 31, pp. 1-6, (2007)
[2] Zhang W., Yu Y., Li G., Et al., Researches on UHVDC Technology, Proceedings of the CSEE, 27, 22, pp. 1-7, (2007)
[3] Tang J., Yang Y., Li Y., Et al., Prediction of corona effects generated from UHVAC transmission lines, II: radio interference, High Voltage Engineering, 36, 12, pp. 2942-2947, (2010)
[4] Xie L., Lu J., Zhang W., Et al., Analysis on radio interference transformation relation between long and short UHVDC transmission lines, Proceedings of the CSEE, 33, 7, pp. 109-115, (2013)
[5] Niu L., Study on electromagnetic environment parameters prediction from ultra-high voltage AC transmission line, (2008)
[6] Tang J., Liu Y., Wu X., Et al., Effect of altitude on radio interference based on corona test cage, High Voltage Engineering, 35, 3, pp. 601-606, (2009)
[7] Zhang W., Guo J., Lu J., Et al., Structure parameters and design principle of UHVDC corona cage in China, Proceedings of the CSEE, 29, 28, pp. 1-5, (2009)
[8] Clade J.J., Gary C.H., Usage and checking of the theoretical relations between fields, currents, and excitation functions in radio frequencies in the case of short test lines, IEEE Transactions on Power Apparatus and Systems, 88, 10, pp. 1501-1511, (1969)
[9] Juette G.W., Zaffanella L.E., Radio noise currents and audible noise on short sections of UHV bundles conductors, IEEE Transactions on Power Apparatus and Systems, 89, 5, pp. 902-913, (1970)
[10] Juette G.W., Zaffanella L.E., Radio noise, audible noise and corona loss of EHV and UHV transmission lines under rain: prediction based on cage tests, IEEE Transactions on Power Apparatus and Systems, 89, 6, pp. 1168-1178, (1970)

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