Title :
An approach for sensorless position estimation for switched reluctance motors using artifical neural networks
Author :
Mese, Erkan ; Torrey, David A.
Author_Institution :
Dept. of Electr. Power Eng., Rensselaer Polytech. Inst., Troy, NY, USA
fDate :
1/1/2002 12:00:00 AM
Abstract :
This paper presents a new approach to the sensorless control of the switched-reluctance motor (SRM). The basic premise of the method is that an artificial neural network (ANN) forms a very efficient mapping structure for the nonlinear SRM. Through measurement of the phase flux linkages and phase currents the neural network is able to estimate the rotor position, thereby facilitating elimination of the rotor position sensor. The ANN training data set is comprised of magnetization data for the SRM with flux linkage (λ) and current (i) as inputs and the corresponding position (θ) as output in this set. Given a sufficiently large training data set, the ANN can build up a correlation among λ, i and θ for an appropriate network architecture. This paper presents the development, implementation, and operation of an ANN-based position estimator for a three-phase SRM
Keywords :
electric current measurement; electric machine analysis computing; learning (artificial intelligence); machine control; magnetic flux; magnetic variables measurement; magnetisation; neural net architecture; parameter estimation; phase measurement; reluctance motors; rotors; ANN training data set; artificial neural network; estimator commutation; magnetization data; mapping structure; nonlinear SRM; phase currents measurements; phase flux linkages measurements; phase selection; rotor position estimation; sensorless control; switched-reluctance motor; Artificial neural networks; Couplings; Current measurement; Phase estimation; Phase measurement; Position measurement; Reluctance motors; Rotors; Sensorless control; Training data;
Journal_Title :
Power Electronics, IEEE Transactions on
