Dynamic analysis of current regulators for AC motors using complex vectors

The analysis and design of current regulators for polyphase AC loads is presented using complex vector notation. The AC motor current regulation problem is analyzed by studying both the command tracking and disturbance rejection capability of the current regulator. The use of complex vector notation...

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Veröffentlicht in:	IEEE transactions on industry applications 1999-11, Vol.35 (6), p.1424-1432
Hauptverfasser:	del Blanco, F.B., Degner, M.W., Lorenz, R.D.
Format:	Artikel
Sprache:	eng
Schlagworte:	A C motors AC machines AC motors Associate members Austenitic stainless steels Current control Current regulators Dynamics Frequency Induction motors Industry Applications Society Mathematical analysis Matrices Regulators Rejection Topology Tracking Vectors (mathematics)
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container_title	IEEE transactions on industry applications
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creator	del Blanco, F.B. Degner, M.W. Lorenz, R.D.
description	The analysis and design of current regulators for polyphase AC loads is presented using complex vector notation. The AC motor current regulation problem is analyzed by studying both the command tracking and disturbance rejection capability of the current regulator. The use of complex vector notation and the generalization of classical control tools like root locus, frequency-response functions and dynamic stiffness functions to complex vectors provide a way of comparing the performance of different controller topologies. Limitations in the performance of the synchronous frame proportional and integral current regulator are outlined, and several ways of improving its performance are suggested and investigated.
doi_str_mv	10.1109/28.806058
format	Article
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subjects	A C motors AC machines AC motors Associate members Austenitic stainless steels Current control Current regulators Dynamics Frequency Induction motors Industry Applications Society Mathematical analysis Matrices Regulators Rejection Topology Tracking Vectors (mathematics)
title	Dynamic analysis of current regulators for AC motors using complex vectors
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