Dynamic equivalents for large ac networks using modal analysis for S-domain models

This paper describes a new methodology for the calculation of dynamic equivalents of large ac networks using modal analysis. The representation of system parts by dynamic equivalents is very important when reductions in the computational efforts and in the system dimensions are required. The propose...

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Hauptverfasser:	Veliz, F.C., Gomes, S., Varricchio, S.L., Carneiro, S.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Admittance Computer networks Frequency dependence Frequency response Impedance Modal analysis Reduced order systems State-space methods Transfer functions Transmission line matrix methods
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creator	Veliz, F.C. Gomes, S. Varricchio, S.L. Carneiro, S.
description	This paper describes a new methodology for the calculation of dynamic equivalents of large ac networks using modal analysis. The representation of system parts by dynamic equivalents is very important when reductions in the computational efforts and in the system dimensions are required. The proposed methodology is based on the calculations of the dominant poles and associated residues of the self-impedances seen from the connection buses and of the transfer-impedances among them. In this paper the electrical network is modeled direct in the s-domain and some theoretical background on this subject is presented. Results of a network composed by two subsystems are also presented. The simulations considering the dynamic equivalent of one subsystem connected to the detailed part of the second subsystem were compared with the original detailed model of the entire network, showing an excellent agreement.
doi_str_mv	10.1109/PES.2005.1489706
format	Conference Proceeding
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The representation of system parts by dynamic equivalents is very important when reductions in the computational efforts and in the system dimensions are required. The proposed methodology is based on the calculations of the dominant poles and associated residues of the self-impedances seen from the connection buses and of the transfer-impedances among them. In this paper the electrical network is modeled direct in the s-domain and some theoretical background on this subject is presented. Results of a network composed by two subsystems are also presented. The simulations considering the dynamic equivalent of one subsystem connected to the detailed part of the second subsystem were compared with the original detailed model of the entire network, showing an excellent agreement.</abstract><pub>IEEE</pub><doi>10.1109/PES.2005.1489706</doi></addata></record>
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subjects	Admittance Computer networks Frequency dependence Frequency response Impedance Modal analysis Reduced order systems State-space methods Transfer functions Transmission line matrix methods
title	Dynamic equivalents for large ac networks using modal analysis for S-domain models
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