SIGNAL-PROCESSING TECHNIQUES FOR PARTIAL DISCHARGE SITE LOCATION IN SHIELDED CABLES

An instrumentation package capable of locating partial discharge sites in cables has been described in a companion paper. The digitized partial discharge (PD) signals recorded from one cable end consist of a sequence of pulses whose separations contain information on the relative location of the PD site. The signals are often contaminated by noise and undergo substantial attenuation and phase change as they travel through the cable and the detection system. Moreover, overlap of two successive pulses is possible if the PD site is close to a cable end. This paper describes and illustrates two techniques-maximum likelihood estimation and deconvolution - for extracting pulse separation from such a time series of noisy and ambiguous signals. Both real and simulated measurements are used to demonstrate the potential of these methods. A procedure whereby knowledge of the combined cable-instrumentation transfer function can be incorporated into the maximum likelihood technique is also discussed. © 1990 IEEE