Title :
Backstepping dynamic compensator design for the PMAC servo-drive
Author :
B. Grcar;P. Cafuta;M. Znidaric;F. Gausch
Author_Institution :
Fac. of Electr. Eng., Maribor Univ., Slovenia
Abstract :
In the paper the robust tracking control design of high performance PMAC servo-drive based on exact feedback linearization and extended with integrator backstepping is presented. The feedback system is globally asymptotically stable in the sense of the Lyapunov direct method for a class of parameter perturbations and disturbances without affecting the relative degree and satisfying strict triangularity conditions (STC). The proposed n-th order dynamic compensator significantly extends the class of nonlinear uncertainties acting in the entire electromechanical system for which stable servo-drive operation is preserved. The physical bounds of control signals and states are also considered.
Keywords :
"Backstepping","Servomotors","Feedback","Permanent magnet motors","Control design","Electric variables control","Mathematical model","Robust control","Nonlinear dynamical systems","Electromechanical systems"
Journal_Title :
IEEE Transactions on Energy Conversion
