Paper Info
Title
Sensitivity to electrical parameter variations of Predictive Current Control in multiphase drives
Abstract
Model Based Predictive Current Control (MBPCC) techniques have been recently proposed as a viable control method for Voltage Source Converters (VSCs). Predictive torque and current control of electrical drives are drawing attention because of the good current tracking, flexible control design and reduced switching losses. The multiphase drive is an attractive proposition due to its usefulness in applications where high overall system reliability and reduction in the total power per phase are required. The predictive model of the drive is the core of the MBPCC technique and it depends on the knowledge of the parameters of the real system. Previous works assumed good agreement between parameters of the predictive model and the real machine, on the basis of the initial estimation of the electrical parameters using off-line procedures and the influence of the parameter variations on the drive performance has not been thoroughly investigated until now. This paper attempts to fill in this gap, by examining the impact of the variation of electrical parameter, used in the predictive model, on the performance of an asymmetrical six-phase induction motor drive.
Year
DOI
Venue
2013
10.1109/IECON.2013.6699982
Vienna
Keywords
Field
DocType
control system synthesis,electric current control,induction motor drives,power convertors,predictive control,sensitivity,torque control,mbpcc techniques,vsc,asymmetrical six-phase induction motor drive,current tracking,electrical parameter variations,flexible control design,model based predictive current control techniques,multiphase drives,offline procedures,real system,switching losses reduction,viable control method,voltage source converters,parameter variations,predictive current control techniques
Vector control,Induction motor,Torque,Control theory,Voltage source,Direct torque control,Model predictive control,Converters,Control engineering,Engineering
Conference
ISSN
Citations 
PageRank 
1553-572X
4
0.54
References 
Authors
4
5
Name
Order
Citations
PageRank
Blas Bogado1563.88
Federico Barrero244442.44
Manuel Ruiz Arahal310214.49
Sergio L. Toral Marín448043.98
Emil Levi533149.79