IEEE Access (Jan 2022)

Transmission Line Fault Location Based on Improved Algorithm of Electromagnetic Time Reversal

  • Qing Liu,
  • Jiayi Yang,
  • Yao Fu,
  • Yuhe Huang

DOI
https://doi.org/10.1109/ACCESS.2022.3162831
Journal volume & issue
Vol. 10
pp. 37839 – 37847

Abstract

Read online

For most traditional fault location methods, the fault type needs to be known in advance or there may be dead zones using the decoupled modulus. To solve the problems, an improved algorithm based on electromagnetic time reversal is proposed. The improved algorithm can realize fault location by using the coupling signal in the non-fault phase of the transmission line, so fault location can be realized effectively even when the fault phase is unknown. The feasibility of using non-fault phase coupled signals to locate faults is theoretically verified. A 750kV overhead transmission line model is established by ATP-EMTP to obtain the fault signal at the observation point. The fault signal is time reversed and then connected to the observation point as an injection source. Each hypothetical fault location is traversed and its current is calculated by the BLT super-matrix equation. The 2-norm based on current energy is proposed as the criterion, and the position with the largest norm is the fault location. The simulation results show that the algorithm is not affected by the fault types, transition resistance and the initial phase angles of the power sources on both sides, and has high accuracy.

Keywords