Teaching nonlinear modeling, simulation, and control of electronic power converters using MATLAB/SIMULINK

This paper describes an efficient method to teach analysis and simulation of power electronic converters to undergraduate students, using system level nonlinear state-space models. System-level modeling of power electronic converters reproduces only the ideal switching behavior of the semiconductors...

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Veröffentlicht in:	IEEE transactions on education 2002-08, Vol.45 (3), p.253-261
Hauptverfasser:	Pires, V.F., Silva, J.F.A.
Format:	Artikel
Sprache:	eng
Schlagworte:	AC-DC power conversion Computer aided instruction Computer simulation DC-DC power conversion Education Electronics Mathematical models Matlab Nonlinearity Power converters Power engineering education Pulse width modulated power converters Semiconductors Studies Undergraduate Students
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creator	Pires, V.F. Silva, J.F.A.
description	This paper describes an efficient method to teach analysis and simulation of power electronic converters to undergraduate students, using system level nonlinear state-space models. System-level modeling of power electronic converters reproduces only the ideal switching behavior of the semiconductors and is a useful concept for the numerical simulation of power converters, since simulations present no convergence problems and require little computational time. Switched state-space models, programmed in the MATLAB/SIMULINK software package, can be advantageously used to simulate power converters at the system level and also to design and study their controllers. Switched state-space nonlinear models should be obtained using a theoretical framework suitable for the enhanced control of variable structure power systems. Since the method is inherently nonlinear, no approximated linear models are needed; and since state-space models are used, modern control techniques (sliding mode, neural networks, fuzzy logic) for power converters can easily be used. This paper summarizes the proposed methodology and gives some examples.
doi_str_mv	10.1109/TE.2002.1024618
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subjects	AC-DC power conversion Computer aided instruction Computer simulation DC-DC power conversion Education Electronics Mathematical models Matlab Nonlinearity Power converters Power engineering education Pulse width modulated power converters Semiconductors Studies Undergraduate Students
title	Teaching nonlinear modeling, simulation, and control of electronic power converters using MATLAB/SIMULINK
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