An optimized method of partial discharge data retrieval technique for phase resolved pattern

Eka Putra Waldi, Aulia Aulia, Ariadi Hazmi, Hairul Abral, Syukri Arief, Mohd Hafizi Ahmad

Abstract


The measurement of phase resolved partial discharge requires a gigantic memory capacity to store all the waves of the PD test results. This limitation eventually hinders the testing. It is necessary to optimize on the aspect of memory storage capability to reduce the storage requirements. In light of foregoing, the partial discharge data retrieval techniques with sampling rate methods were used to detect the peak of partial discharge as well as the PD constituent representatives. The optimization process was performed by using integration of oscilloscope and LabVIEW software. The partial discharge data recording can be easily confined to the points of the partial discharge occurrence only. As results, the storage points were reduced by taking wave magnitude associated with PD, thereby resulting in more representative data. Therefore, this optimized method was able to reduce the file size of the test results up to 97 percent of PD original size thereby decreasing the usage of hard disk storage.

Keywords


partial discharge; phase resolved; sampling rate; peak detect; recording; LabVIEW.

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References


P.H.F. Morshuis, “Degradation of solid dielectric due to internal partial discharge: some throughts on progress made and where to go now”, IEEE Transaction on dielectric and electrical insulation, vol 12, p.6, October 2005.

Eka Putra Waldi , Influence of Partial Discharge on Breakdown of Air-Polymer Composite2012 IEEE International Conference on Condition Monitoring and Diagnosis 23-27 September 2012, Bali, Indonesia P. 791-974

Waldi, E.P.,Murakami, Y., M. Nagao “Effect of humidity on breakdown of low density polyethylene film due to partial discharge”. Proceedings of 2008 International Conference on Condition Monitoring and Diagnosis, CMD 2008 Page(s):655 – 658

Eka Putra Waldi, Yoshinobu Murakami, Naohiro Hozumi and Masayuki Nagao Breakdown of Air-Polymer Composite Insulation due to Partial Discharge and Influence of Thermal Insulation IEEJ Transactions on Fundamentals and Materials Vol. 132 (2012) No. 11 P 1039-1044.

Wen-yeua Chang, Application of grey clustering approach and genetic algorithm to partial discharge pattern recognition, WSEAS TRANSACTIONS on SYSTEM Issue 12, Volume 8, December 2009 p.1273-1283

Hung-cheng C, Feng-chang G and Chun-yaao L, A new method base on extension theory for partial discharge pattern recognition”, WSEAS TRANSACTIONS on SYSTEM Issue 12, Volume 7, December 2008, p.1402-1411

Elpidio R and Teresa M.D, “Lean maintenance model to reduce scraps and WIP in manufacturing system: case study in power cable factory”, WSEAS TRANSACTIONS on SYSTEM Issue 12, Volume 12, December 2013, p.650-666.

P. H. F. Morshius and F. H. Krueger: "Transition from streamer to townsend Mechanism in Dielectric Void", J. Phys. Vol. 23, pp. 1562-1568, 1990.

F. H. Kreuger, E. Gulski and A. Krivda;, ”Classification of Partial Discharge”, IEEE Transaction on Dielectrics and Electrical Insulation, Vol. 28, No. 6, December 1993, p. 917-983.

E. Gulski;,” Computer-aided Measurement of Partial Discharge in HV Equipment” IEEE Transaction on Dielectrics and Electrical Insulation, Vol. 28, No. 6, December 1993, p. 969-983

E. Gulski;,” Digital Analisis of Partial Discharge” IEEE Transaction on Dielectrics and Electrical Insulation, Vol. 28, No. 6, October 1995, p. 822-837.

Paul Seiitz,”Permanent Digital Recording of PD impulse in an Impulse analyzer”, Proc. 5th Haefely Symp., Stutgart, paper 4.1, 1992

G. C. Montanari, A. Contin and A. Cavalini;, “ Random Sampling and Data Processing for PD-pulse Height and Shape Analysis” IEEE Transaction on Dielectrics and Electrical Insulation, Vol. 7, N0. 1, April 2000.

A Cavalini, A. Contin and G. C. Montanari;, “ Advanced PD Interface in On-Field Measurement. Part I: Noise Rection” IEEE Transaction on Dielectrics and Electrical Insulation, Vol. 10, N0. 2, April 2003.

Ardila-Rey, J.A.; Martinez-Tarifa, J.M.; Robles, G.; Rojas-Moreno, M.; Albarracin, R.; , "A Partial Discharges acquisition and statistical analysis software," Instrumentation and Measurement Technology Conference (I2MTC), 2012 IEEE International 13-16 May 2012. , pp. 1670-1675.

Ardila-Rey, J.A.; Martinez-Tarifa, J.M.; Robles, G.; Rojas-Moreno, M.; Albarracin, R.; , "A Partial Discharges acquisition and statistical analysis software," Instrumentation and Measurement Technology Conference (I2MTC), 2012 IEEE International May 2012, pp. 1670-1675.

J Tang, J Zhou, X Zhang and F Liu;, “A transformer Partial Discharge Measurement System Based on Fluorescent Fiber” Energies, Vol 5, 2012 p. 1490-1502.

T Okamoto, H Suzuki, N Hozumi and M Ikeda.;, “Partial Discharge Endurance Life of Polymer Insulating Materials at High Temperature” Electrical Engineering in Japan, Vol. 126, No. 1, 1999




DOI: http://doi.org/10.12928/telkomnika.v14i1.2602

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