Development of a new methodology for detection of high impedance faults for using in distribution automatic reclosers

This paper presents the preliminary results of a new methodology for detecting high impedance faults in distribution systems based on interharmonic signatures. The methodology involves incorporation of an interharmonic current analysis system into a conventional protection system, such as automatic...

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Veröffentlicht in:	Revista IEEE América Latina 2020-04, Vol.18 (4), p.800-807
Hauptverfasser:	Macedo, Jose Rubens, Resende, Jose Wilson, Bissochi, Carlos Augusto, Pereira de Carvalho, Daniel, Cordeiro de Castro, Fernando, Jacob da Silva, Helio Rubens
Format:	Artikel
Sprache:	eng ; por
Schlagworte:	Automatic Reclosers Companies Current measurement Fault detection Field tests Finite impulse response filters FIR Filters High impedance High Impedance Faults IEEE transactions Impedance Instantaneous current Inter-harmonics Methodology Protection systems Soil Soil measurements Waveforms
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creator	Macedo, Jose Rubens Resende, Jose Wilson Bissochi, Carlos Augusto Pereira de Carvalho, Daniel Cordeiro de Castro, Fernando Jacob da Silva, Helio Rubens
description	This paper presents the preliminary results of a new methodology for detecting high impedance faults in distribution systems based on interharmonic signatures. The methodology involves incorporation of an interharmonic current analysis system into a conventional protection system, such as automatic reclosers. To check the functionality of the proposed methodology, the authors carried out field tests on different types of soil, involving instantaneous current waveform measurements during the occurrence of faults. The results suggest that the methodology, based on interharmonic currents produced by variations in electric arc length during the occurrence of high-impedance faults, shows great promise when it comes to detection of the disturbance.
doi_str_mv	10.1109/TLA.2020.9082224
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subjects	Automatic Reclosers Companies Current measurement Fault detection Field tests Finite impulse response filters FIR Filters High impedance High Impedance Faults IEEE transactions Impedance Instantaneous current Inter-harmonics Methodology Protection systems Soil Soil measurements Waveforms
title	Development of a new methodology for detection of high impedance faults for using in distribution automatic reclosers
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