Frequency-domain modeling of unshielded multiconductor power cables for periodic excitation with new experimental protocol for wide band parameter identification

A complete modeling technique for unshielded power cables is proposed. The focus is on applications where the resonance phenomena take place in electrically long cables and is originated from periodic excitation, such as power converters. The resonance problems caused by switching converters tend to...

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Veröffentlicht in:	Electrical engineering 2019-06, Vol.101 (2), p.333-343
Hauptverfasser:	Bade, Tamiris G., Roudet, James, Guichon, Jean-Michel, Sartori, Carlos A. F., Kuo-Peng, Patrick, Schanen, Jean-Luc, Derbey, Alexis
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Sprache:	eng
Schlagworte:	Cables Computer simulation Economics and Management Electric cables Electric power Electrical Engineering Electrical Machines and Networks Energy Policy Engineering Engineering Sciences Excitation Fourier series Frequencies Frequency domain analysis Mathematical models Model accuracy Modelling Original Paper Parameter identification Power cables Power converters Power Electronics Resonance
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container_title	Electrical engineering
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creator	Bade, Tamiris G. Roudet, James Guichon, Jean-Michel Sartori, Carlos A. F. Kuo-Peng, Patrick Schanen, Jean-Luc Derbey, Alexis
description	A complete modeling technique for unshielded power cables is proposed. The focus is on applications where the resonance phenomena take place in electrically long cables and is originated from periodic excitation, such as power converters. The resonance problems caused by switching converters tend to become more common with the advent of wide band gap semiconductors. This paper includes a new experimental protocol specific for unshielded power cable parameter identification in a wide frequency band, from DC up to medium frequencies (tens of MHz), with an impedance analyzer. It also introduces a frequency-domain simulation tool with conversion to the time domain, via the Fourier series. This frequency-domain modeling is straightforward, and its accuracy depends only on the accuracy of the cable parameter identification.
doi_str_mv	10.1007/s00202-019-00780-2
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subjects	Cables Computer simulation Economics and Management Electric cables Electric power Electrical Engineering Electrical Machines and Networks Energy Policy Engineering Engineering Sciences Excitation Fourier series Frequencies Frequency domain analysis Mathematical models Model accuracy Modelling Original Paper Parameter identification Power cables Power converters Power Electronics Resonance
title	Frequency-domain modeling of unshielded multiconductor power cables for periodic excitation with new experimental protocol for wide band parameter identification
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