Title :
High-resolution partial discharge location estimation in power cables
Author :
Kim, Young-Hun ; Youn, Y.-W. ; Yi, S.-H. ; Hwang, D.-H. ; Sun, J.-H. ; Lee, Joun-Ho
Author_Institution :
Dept. of Electron. Eng., Myongji Univ., Yongin, South Korea
Abstract :
This study proposes a new approach to estimate the partial discharge (PD) location for power cables. For the PD location estimation, we estimate the time-of-arrival (TOA) interval between the direct and reflected PD pulses using time-domain reflectometry. In the proposed scheme, we introduce a high-resolution technique known as the multiple signal classification method. This method is a powerful tool that extracts the PD pulses in a noisy environment using the orthogonality of the signal vectors to noise eigenvectors. Simulation results of the theoretical and experimental PD signals show that the proposed scheme accurately estimates the TOA interval of the PD pulses in a noisy environment.
Keywords :
partial discharges; power cables; signal classification; time-domain reflectometry; time-of-arrival estimation; PD location estimation; PD pulses; PD signals; TOA; direct PD pulses; high-resolution partial discharge location estimation; high-resolution technique; multiple signal classification method; noise eigenvectors; noisy environment; power cables; reflected PD pulses; signal vectors; time-domain reflectometry; time-of-arrival; Equations; Mathematical model; Noise; Noise measurement; Partial discharges; Power cables; Transmission line measurements; Partial discharges; delay estimation; interference suppression; noise; signal detection; time-domain reflectometry;
Journal_Title :
Dielectrics and Electrical Insulation, IEEE Transactions on
DOI :
10.1109/TDEI.2013.004176
