Title :
Remote diagnosis of overhead line insulation defects
Author :
Moore, P.J. ; Portugués, I.E. ; Glover, I.A.
Abstract :
High voltage insulation defects cause partial discharges (PD) which can be detected through the reception of radiated radio frequency (rf) impulses. The paper describes a method of detecting insulation defects on overhead lines using vehicle mounted rf measuring equipment. The equipment is based on a 4 antenna array that is directly sampled using digital equipment with a bandwidth of 1 GHz. The results are analysed by firstly estimating the time delays apparent between the 4 antennas. Secondly, using the time delays, bearing and RMS time delay error information is calculated that allows identification of the PD source. The equipment has been tested in the field on a 132 kV overhead line defect that was initially reported to a radio spectrum management agency. The results show that equipment has the sensitivity to identify the defective insulator string.
Keywords :
antenna arrays; delays; fault diagnosis; insulator testing; partial discharges; power overhead lines; radio spectrum management; 1 GHz; 132 kV; PD; RMS time delay error information; antenna array; defective insulator string; digital equipment; high voltage insulation; overhead line insulation defects; partial discharges; radiated radio frequency impulses; radio spectrum management; remote diagnosis; time delay estimation; vehicle mounted radio frequency measuring equipment; Antenna arrays; Antenna measurements; Bandwidth; Delay effects; Insulation; Partial discharges; Radio frequency; Vehicle detection; Vehicles; Voltage;
Conference_Titel :
Power Engineering Society General Meeting, 2004. IEEE
Conference_Location :
Denver, CO
Print_ISBN :
0-7803-8465-2
DOI :
10.1109/PES.2004.1373196
