DocumentCode
3812927
Title
Nonlinear control of synchronous servo drive
Author
B. Grcar;P. Cafuta;M. Znidaric;F. Gausch
Author_Institution
Fac. of Electr. Eng. & Comput. Sci., Maribor Univ., Slovenia
Volume
4
Issue
2
fYear
1996
Firstpage
177
Lastpage
184
Abstract
The complete control design for a permanent magnet synchronous (PMAC) motor, derived from the input-output linearization, is presented in the paper. The motor model, written in the rotor´s d-q coordinates, is nonlinear with respect to the state variables and linear in the control. The input-output linearization makes it possible to write the motor´s model in Brunovski decoupled canonical form which makes the synthesis of linear controllers possible. The proposed control structure allows perfect tracking of smooth references in the case of nominal parameters. In relation to the bounded parameter perturbations, the robustness of the feedback system is improved by introducing an additional compensation signal which assures the stability of the perturbed system in Lyapunov´s sense. The influence of parameter variations that prevents exact compensation of the control plant nonlinearities was analyzed for the PMAC motor. A description of the laboratory setup is given, and the experimental results of the proposed PMAC servo drive control are presented.
Keywords
"Servomechanisms","Synchronous motors","Permanent magnet motors","Servomotors","Magnetic variables control","Robust stability","Control design","Rotors","Control system synthesis","Signal synthesis"
Journal_Title
IEEE Transactions on Control Systems Technology
Publisher
ieee
ISSN
1063-6536
Type
jour
DOI
10.1109/87.486344
Filename
486344
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