Multiobjective Switching State Selector for Finite-States Model Predictive Control Based on Fuzzy Decision Making in a Matrix Converter

Multiobjective Switching State Selector for Finite-States Model Predictive Control Based on Fuzzy Decision Making in a Matrix Converter

Finite-states model predictive control is a rising alternative in the control of power converters and drives. Successful application to different topologies and applications such as two-level voltage source inverters, neutral-point-clamped and cascaded H-bridge inverters, and matrix converters has s...

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Bibliographic Details
Published in:IEEE transactions on industrial electronics (1982) Vol. 60; no. 2; pp. 589 - 599
Main Authors: Villarroel, F., Espinoza, J. R., Rojas, C. A., Rodriguez, J., Rivera, M., Sbarbaro, D.
Format: Journal Article
Language:English
Published: IEEE 01-02-2013
Subjects:
AC-AC power conversion
control systems
Cost function
current control
Decision making
digital control
fuzzy logic
Matrix converters
predictive control
Switches
Vectors
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Summary:Finite-states model predictive control is a rising alternative in the control of power converters and drives. Successful application to different topologies and applications such as two-level voltage source inverters, neutral-point-clamped and cascaded H-bridge inverters, and matrix converters has shown its potential in power converters. However, when multiple control objectives are desired, weighting factors are required to appropriately select the switching states. The selection of these factors is a time-consuming and complex task. In this work, the standard selection stage is replaced by a fuzzy decision-making strategy, considering, as a case study, the control of both load and supply currents in the direct matrix converter (DMC). As a result, weighting-factor selection is avoided, and a simple selection scheme is obtained for this application. In addition, a more natural design approach to the state selection is opened for other applications. Simulation and experimental results are presented to validate the approach in an experimental DMC prototype.
ISSN:0278-0046
1557-9948
DOI:10.1109/TIE.2012.2206343