A fault location approach for high-impedance grounded DC shipboard power distribution systems

High-resistance grounding is implemented in the DC zonal electric distribution system (DCZEDS) to permit continuity of service during a ground fault. To prevent subsequent phase-to-ground faults on the other phase from causing a disruptive phase-to-phase fault, it is of great importance that fast an...

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Hauptverfasser:	Pan, Y., Silveira, P.M., Steurer, M., Baldwin, T.L., Ribeiro, P.F.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	DC converter Fault location Fractal Dimension Fractals Load modeling Multiresolution analysis Noise Rails Switches Wavelet Transform
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creator	Pan, Y. Silveira, P.M. Steurer, M. Baldwin, T.L. Ribeiro, P.F.
description	High-resistance grounding is implemented in the DC zonal electric distribution system (DCZEDS) to permit continuity of service during a ground fault. To prevent subsequent phase-to-ground faults on the other phase from causing a disruptive phase-to-phase fault, it is of great importance that fast and robust ground fault location methods be applied to the DCZEDS. Current fault locating techniques have shortcomings in their application to the DCZEDS with ldquocommon-railrdquo faults and with accommodating the high frequency noise caused by repetitive switching transients. In this paper, a new idea is presented which utilizes the background noise contained in a suitable system signal to extract information about the fault location. Multi-resolution wavelet analysis and fractal dimension analysis are used as examples of signal processing tools for recognition of characteristic features in the system signal. A notional, high-fidelity DCZEDS model in PSCAD/EMTDC is implemented and used to illustrate the effectiveness of the proposed method through simulation.
doi_str_mv	10.1109/PES.2008.4596844
format	Conference Proceeding
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To prevent subsequent phase-to-ground faults on the other phase from causing a disruptive phase-to-phase fault, it is of great importance that fast and robust ground fault location methods be applied to the DCZEDS. Current fault locating techniques have shortcomings in their application to the DCZEDS with ldquocommon-railrdquo faults and with accommodating the high frequency noise caused by repetitive switching transients. In this paper, a new idea is presented which utilizes the background noise contained in a suitable system signal to extract information about the fault location. Multi-resolution wavelet analysis and fractal dimension analysis are used as examples of signal processing tools for recognition of characteristic features in the system signal. 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To prevent subsequent phase-to-ground faults on the other phase from causing a disruptive phase-to-phase fault, it is of great importance that fast and robust ground fault location methods be applied to the DCZEDS. Current fault locating techniques have shortcomings in their application to the DCZEDS with ldquocommon-railrdquo faults and with accommodating the high frequency noise caused by repetitive switching transients. In this paper, a new idea is presented which utilizes the background noise contained in a suitable system signal to extract information about the fault location. Multi-resolution wavelet analysis and fractal dimension analysis are used as examples of signal processing tools for recognition of characteristic features in the system signal. 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ispartof	2008 IEEE Power and Energy Society General Meeting - Conversion and Delivery of Electrical Energy in the 21st Century, 2008, p.1-6
issn	1932-5517
language	eng
recordid	cdi_ieee_primary_4596844
source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	DC converter Fault location Fractal Dimension Fractals Load modeling Multiresolution analysis Noise Rails Switches Wavelet Transform
title	A fault location approach for high-impedance grounded DC shipboard power distribution systems
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