DocumentCode
1323491
Title
Input-output linearisation of a fourth-order input-affine system describing the evolution of a three-phase/switch/level (vienna) rectifier
Author
Ansari, Rashid ; Feyzi, M.R. ; Akbari Hamed, K. ; Sadati, N. ; Yasaei, Y. ; Ouni, Sofiane
Author_Institution
Power Eng. Dept., Univ. of Tabriz, Tabriz, Iran
Volume
4
Issue
8
fYear
2011
fDate
9/1/2011 12:00:00 AM
Firstpage
867
Lastpage
883
Abstract
This study presents an analytical approach for proper selection of output functions to be regulated for the Vienna rectifier such that the resultant closed-loop systems are minimum phase. Specifically, two different adaptive control methodologies based on the input-output linearisation are developed and categorised. In the first category, three output functions are introduced and imposed to be zero by using three dynamic feedback laws. On the basis of states to be regulated, four different cases are studied and it is shown that only one of these cases results in a one-dimensional zero dynamics with an asymptotically stable equilibrium point. In the second category, two output functions are defined and output zeroing problem is solved with two control inputs. In addition, the remaining control is used to feedback linearise the resultant two-dimensional zero dynamics. Eighteen different cases are studied to demonstrate that only in one of these cases, the corresponding zero dynamics is feedback linearisable. Stability properties of the adaptive systems are investigated to show that the proposed adaptive controllers are capable of DC output voltage regulation and power factor correction in the presence of parametric and non-parametric uncertainties. Finally, simulation results are presented to confirm the validity of the developed approaches.
Keywords
adaptive control; asymptotic stability; closed loop systems; linearisation techniques; power factor correction; rectifiers; rectifying circuits; voltage control; DC output voltage regulation; Vienna rectifier; adaptive control methodologies; asymptotically stable equilibrium point; closed-loop systems; feedback linearisable; fourth-order input-affine system; input-output linearisation; level rectifier; one-dimensional zero dynamics; power factor correction; switch rectifier; three-phase rectifier;
fLanguage
English
Journal_Title
Power Electronics, IET
Publisher
iet
ISSN
1755-4535
Type
jour
DOI
10.1049/iet-pel.2010.0158
Filename
6021418
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