Evolution of the RF characteristics of the impulsive noise in high voltage environment

2012 IEEE Third International Conference on Smart Grid Communications (SmartGridComm) Pub Date : 2012-11-01 DOI:10.1109/SmartGridComm.2012.6486066

Fabien Sacuto, B. Agba, F. Gagnon, F. Labeau

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引用次数: 19

Abstract

Impulsive noise in air-insulated substations is created by partial discharges, Corona and gap noises. In order to install a wireless sensors network in such an environment, the impulsive noise must be characterized and studied to predict its evolution. The first observations made during a measurement campaign in power substation indicate impulsive noise RF characteristics depends on the feeding voltage of the equipment. In laboratory, a test bench with impulsive noise sources has been designed and used in order to verify the assumptions made from measurement campaigns and partial discharge theory. Using two impulsive noise specimens, the generator bar and the Tesla-coil, we study the impact of the source voltage and the inter-electrode distance (gap) on the RF characteristics of the emitted impulsive noise. The experiences confirm that, when the feeding voltage increases, the noise becomes more powerful both in time and frequency domains. The same is observed when the gap becomes shorter. Furthermore, the ISM frequency content of impulsive noise also increases, which could severely affect wireless communications.

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高压环境下脉冲噪声射频特性的演化

空气绝缘变电站的脉冲噪声主要由局部放电、电晕和间隙噪声引起。为了在这样的环境中安装无线传感器网络，必须对脉冲噪声进行表征和研究，以预测其演变。在变电站测量活动中进行的第一次观察表明，脉冲噪声射频特性取决于设备的馈电电压。在实验室中，设计并使用了一个脉冲噪声源试验台，以验证由测量活动和局部放电理论所作的假设。利用发生器棒和特斯拉线圈两个脉冲噪声样本，研究了源电压和电极间距对脉冲噪声射频特性的影响。经验证实，当输入电压增加时，噪声在时域和频域上都变得更强。当间隙变短时，观察到同样的结果。此外，脉冲噪声的ISM频率含量也会增加，严重影响无线通信。

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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2012 IEEE Third International Conference on Smart Grid Communications (SmartGridComm)

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