Title :
Faulty feeder detection of single-phase earthed fault using dominant transient frequency admittance
Author :
Zhang, Xinhui ; Xu, Bingyin ; Wei, Peiyu
Author_Institution :
Shandong Univ. of Technol., Zibo, China
Abstract :
The fact of a dominant resonance frequency existed in the transient process of short-circuit fault is discovered by analyzing transient characteristics of single-phase earthed fault. At this frequency, the amplitude of zero modal current in faulty feeder is much larger than that in healthy feeder, and their phase is approximately opposite. Dominant transient frequency(DTF) zero modal current in faulty feeder is 90deg lagged behind zero modal voltage of bus bar, while for healthy feeder it is 90deg leading zero modal voltage of bus bar. A novel detection principle based on Prony algorithm is presented in the paper, which determines the faulty feeder by comparing the amplitude and phase of DTF admittance of faulty feeder and healthy feeder. It is verified by ATP simulation data and field measured fault data respectively.
Keywords :
fault currents; fault location; power distribution faults; power system transients; ATP simulation; Prony algorithm; dominant resonance frequency; dominant transient frequency admittance; faulty feeder detection; short circuit fault; single phase earthed fault; zero modal current; Admittance; Circuit faults; Electrical fault detection; Fault detection; Frequency; Power system transients; Signal analysis; Signal processing; Transient analysis; Voltage; ATP simulation; DTF admittance; Prony algorithm; Prony fitting; dominant transient frequency (DTF); faulty feeder detection; non-effectively earthed network; self-maintained; single-phase earthed fault; transient signal;
Conference_Titel :
Power & Energy Society General Meeting, 2009. PES '09. IEEE
Conference_Location :
Calgary, AB
Print_ISBN :
978-1-4244-4241-6
DOI :
10.1109/PES.2009.5275989
