Preprocessing of electrical partial discharge signals using autocorrelation function (ACF)

Partial discharge (PD) measurement has always been a popular technique to detect the degradation in high voltage plant insulating systems. In this research work, an experiment has been carried out on an 11KV, single-core 240mm2 XLPE cable to acquire electrical partial discharge signals under several...

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Main Authors: Md Thayoob Y.H., Ghosh P.S., Ghani A.B.Abd.
Other Authors: 6505876050
Format: Conference paper
Published: IEEE Computer Society 2023
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spelling my.uniten.dspace-298412023-12-28T16:57:53Z Preprocessing of electrical partial discharge signals using autocorrelation function (ACF) Md Thayoob Y.H. Ghosh P.S. Ghani A.B.Abd. 6505876050 55427760300 24469638000 Autocorrelation function (ACF) and random signals Partial discharge measurement Partial discharge signals Autocorrelation Correlation detectors Discharge (fluid mechanics) Random processes Signal processing Autocorrelation functions Detection circuits Different operating conditions High voltage plant Insulating system Partial discharge measurements Partial discharge signal Random signal Partial discharges Partial discharge (PD) measurement has always been a popular technique to detect the degradation in high voltage plant insulating systems. In this research work, an experiment has been carried out on an 11KV, single-core 240mm2 XLPE cable to acquire electrical partial discharge signals under several different operating conditions. Despite the advances in measuring instrumentation including special detection circuits to filter out various forms of noise, the sensitivity and validity of partial discharge data is often compromised by noise. This is because PD signals are random signals, which may represent wanted signals, mixed with unwanted noise. Hence the application of the autocorrelation function (ACF), which is a random process function, to process, characterize and validate the PD data from the experiment prior to further analysis is explored in this paper. The obtained results also confirmed the ability of the technique to process and analyze PD signals. � 2006 IEEE. Final 2023-12-28T08:57:53Z 2023-12-28T08:57:53Z 2006 Conference paper 10.1109/PECON.2006.346721 2-s2.0-46249130720 https://www.scopus.com/inward/record.uri?eid=2-s2.0-46249130720&doi=10.1109%2fPECON.2006.346721&partnerID=40&md5=d5e7b2acd3c80b9172d5f7be302e828a https://irepository.uniten.edu.my/handle/123456789/29841 4154565 597 602 IEEE Computer Society Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Autocorrelation function (ACF) and random signals
Partial discharge measurement
Partial discharge signals
Autocorrelation
Correlation detectors
Discharge (fluid mechanics)
Random processes
Signal processing
Autocorrelation functions
Detection circuits
Different operating conditions
High voltage plant
Insulating system
Partial discharge measurements
Partial discharge signal
Random signal
Partial discharges
spellingShingle Autocorrelation function (ACF) and random signals
Partial discharge measurement
Partial discharge signals
Autocorrelation
Correlation detectors
Discharge (fluid mechanics)
Random processes
Signal processing
Autocorrelation functions
Detection circuits
Different operating conditions
High voltage plant
Insulating system
Partial discharge measurements
Partial discharge signal
Random signal
Partial discharges
Md Thayoob Y.H.
Ghosh P.S.
Ghani A.B.Abd.
Preprocessing of electrical partial discharge signals using autocorrelation function (ACF)
description Partial discharge (PD) measurement has always been a popular technique to detect the degradation in high voltage plant insulating systems. In this research work, an experiment has been carried out on an 11KV, single-core 240mm2 XLPE cable to acquire electrical partial discharge signals under several different operating conditions. Despite the advances in measuring instrumentation including special detection circuits to filter out various forms of noise, the sensitivity and validity of partial discharge data is often compromised by noise. This is because PD signals are random signals, which may represent wanted signals, mixed with unwanted noise. Hence the application of the autocorrelation function (ACF), which is a random process function, to process, characterize and validate the PD data from the experiment prior to further analysis is explored in this paper. The obtained results also confirmed the ability of the technique to process and analyze PD signals. � 2006 IEEE.
author2 6505876050
author_facet 6505876050
Md Thayoob Y.H.
Ghosh P.S.
Ghani A.B.Abd.
format Conference paper
author Md Thayoob Y.H.
Ghosh P.S.
Ghani A.B.Abd.
author_sort Md Thayoob Y.H.
title Preprocessing of electrical partial discharge signals using autocorrelation function (ACF)
title_short Preprocessing of electrical partial discharge signals using autocorrelation function (ACF)
title_full Preprocessing of electrical partial discharge signals using autocorrelation function (ACF)
title_fullStr Preprocessing of electrical partial discharge signals using autocorrelation function (ACF)
title_full_unstemmed Preprocessing of electrical partial discharge signals using autocorrelation function (ACF)
title_sort preprocessing of electrical partial discharge signals using autocorrelation function (acf)
publisher IEEE Computer Society
publishDate 2023
_version_ 1806427398298664960
score 13.222552