Summary

Moisture leads to deterioration of oil-impregnated paper. Locating the water-ingress along paper-insulted lead-covered (PILC) cables is a challenge for utilities. This paper proposes a method to detect the water ingress based on change in the cable's characteristic impedance. The impedance variation causes non-homogeneous propagation for high frequency signal along the cable, where signal reflection occurs. This reflection can be utilized for water ingress location. Experiments are performed to verify the principle. A three-core medium voltage PILC cable with about 80 m length is used in the experiment. Water is pressed into the cable insulation via a hole made in the lead sheath. Measurements are performed before, midway and after water ingress. Two approaches are implemented: time domain reflectometry (TDR) and frequency domain impedance scan by means of a network analyser (NA). The first approach locates the water ingress directly based on the reflected signal due to the impedance variation caused by water. The second approach measures the impedance of the cable connection in a wide frequency range and transforms the impedance scan result into time domain via the inverse Fourier transform. Results of these two approaches are compared and quantitative analysis of water content is investigated based on simulation.

Additional informations

Publication type ISH Collection
Reference ISH2015_638
Publication year 2015
Publisher ISH
File size 329 KB
Price for non member Free
Price for member Free

Authors

LI Yan, Takahashi Tsuguhiro, Okamoto Tatsuki, Achmad Muhammad Taufik, Wu Xue-Zhou

DETECTION OF WATER INGRESS IN PILC CABLE BASED ON CHANGE IN CHARACTERISTIC IMPEDANCE
DETECTION OF WATER INGRESS IN PILC CABLE BASED ON CHANGE IN CHARACTERISTIC IMPEDANCE