An Electric Shock Impedance Modeling Method of Living Organisms in Low-Voltage Distribution Network
In order to solve the refusing action and maloperation problem of electric shock of living organisms of Residual Current operated protective Device (RCD) in low voltage distribution network, an electric shock impedance modeling method is proposed in this paper. Trough building up the experiment test bed of electric shock of living organisms, electric shock voltage and current data are collected. After filtering the original electric shock signal, the electric shock voltage and current signal are transformed from time domain to frequency domain by using Fast Fourier Transform. Electric shock voltage and current power frequency component can be extracted. The total electric impedance amplitude and phase values of the living organisms are from Ohm law. Based on the group of 30 electric shock impedance values, using data fitting method to calculate the value of the living organisms electric impedance amplitude and phase. Then, the digital simulation model is set up by using Simulink of MATLAB. Through validating of the impedance modeling, the results show that the model can reproduce the transient process of electric shock organism well. Experiments and results show that the proposed modeling method can improve the operation of RCD with better accuracy and reliability.
Electric shock impedance simulation and modeling signal filtering Fourier decomposition data fitting Freiberger equivalent circuit
Yongmei Liu Guangeng Liu Wanxing Sheng Songhuai Du Jinli Wang
China Electric Power Research Institute;China Agricultural University China Agricultural University China Electric Power Research Institute
国际会议
西安
英文
1-5
2016-09-01(万方平台首次上网日期,不代表论文的发表时间)