Title :
A robust adaptive controller for PM motor drives in robotic applications
Author :
Cerruto, Emanuele ; Consoli, Alfio ; Raciti, Angelo ; Testa, Antonio
Author_Institution :
Dept. of Electr., Electron., and Syst. Eng., Catania Univ., Italy
fDate :
1/1/1995 12:00:00 AM
Abstract :
The paper deals with theoretical development and practical implementation of an adaptive speed and position regulator suitable for robotic applications. The proposed adaptive control scheme is characterized by a reduced amount of computation and is based on the model reference adaptive control approach to compensate the variations of the system parameters, such as inertia and torque constant. A disturbance torque observer is employed to balance the required load torque and reduce the complexity of the adaptive algorithm. Simulation tests of a robotic drive, including an interior type permanent magnet synchronous (IPMS) motor, are reported in order to compare the proposed control scheme with standard speed and position regulators. Experimental results, obtained from a prototype based on a commercial PC board, are also reported in order to practically evaluate the feasibility and the features of the proposed adaptive control scheme
Keywords :
control system synthesis; controllers; machine control; microcomputer applications; model reference adaptive control systems; observers; permanent magnet motors; position control; robots; robust control; synchronous motor drives; torque control; velocity control; PM motor drives; commercial PC board; disturbance torque observer; interior permanent magnet synchronous motor; load torque balancing; model reference adaptive control; position regulator; robotic applications; robust adaptive controller; simulation; speed regulator; torque constant compensation; Adaptive algorithm; Adaptive control; Computational modeling; Motor drives; Programmable control; Regulators; Robots; Robust control; Testing; Torque;
Journal_Title :
Power Electronics, IEEE Transactions on
