Title :
Stability and Dynamic Performance Improvement of Adaptive Full-Order Observers for Sensorless PMSM Drive
Author :
Po-ngam, Sakorn ; Sangwongwanich, Somboon
Author_Institution :
Dept. of Electr. Eng., Chulalongkorn Univ., Bangkok, Thailand
Abstract :
Stability and good dynamic performances of adaptive full-order observers are of utmost importance for the sensorless PMSM drive. In this paper, to accomplish both requirements, the analytical stability conditions are firstly derived to provide a general framework for the feedback gain design. Closed-form solutions of the stabilizing feedback gains are consequently given, and are used in the zero and pole placement design to obtain an adequate and constant damping factor along with the stability at all operating frequencies. New design rules for the adaptation of PI gains to satisfy the required performances are also proposed. The robustness of the adaptive full-order observer against stator resistance and inductance variations is also investigated. Validity of the designed sensorless control is confirmed by simulation and experiment.
Keywords :
PI control; control system synthesis; feedback; observers; permanent magnet motors; robust control; sensorless machine control; synchronous motor drives; PI gains; adaptive full-order observer robustness; damping factor; dynamic performance improvement; feedback gain design; feedback gain stability; inductance variations; pole placement design; sensorless PMSM drive; sensorless control design; stability improvement; stator resistance; zero placement design; Adaptation model; Numerical stability; Observers; Sensorless control; Stability criteria; Stators; Adaptive full-order observer; permanent-magnet synchronous motor; robustness; sensorless control; stability; zero and pole placement;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2011.2153212
