Title :
An MRAS based speed estimation method with a linear neuron for high performance induction motor drives and its experimentation
Author :
Cirrincione, Maurizio ; Pucci, Marcello
Author_Institution :
ISSIA, CNR, Palermo, Italy
Abstract :
This paper presents a new speed observer for high performance FOC (field oriented control) and DTC (direct torque control) induction motor drives. It is an MRAS (model reference adaptive systems) observer which employs a linear ANN (artificial neural network) for the estimation of both the rotor speed and the flux-linkage. The training of the ANN based adaptive model of the MRAS observer is performed on-line by means of an OLS (ordinary least-squares) algorithm. The sensorless algorithm has been verified experimentally both in a FOC and in a DTC control system. The experimental results show that the dynamical performances of the sensorless drive are definitely comparable to those obtainable with the corresponding FOC and DTC drives with encoders in medium to high speed ranges. With regard to low speed ranges, this sensorless algorithm works properly down to a speed as much as 10 rad/s.
Keywords :
induction motor drives; least squares approximations; machine vector control; magnetic flux; model reference adaptive control systems; neurocontrollers; observers; parameter estimation; rotors; torque control; MRAS based speed estimation; adaptive model; artificial neural network; direct torque control; field oriented control; flux-linkage; high performance; induction motor drives; linear neuron; model reference adaptive systems; observer; ordinary least-squares algorithm; rotor speed; sensorless drive; speed observer; Adaptive control; Adaptive systems; Artificial neural networks; Control systems; Induction motor drives; Induction motors; Neurons; Programmable control; Sensorless control; Torque control;
Conference_Titel :
Electric Machines and Drives Conference, 2003. IEMDC'03. IEEE International
Print_ISBN :
0-7803-7817-2
DOI :
10.1109/IEMDC.2003.1211326
