Abstract
Nowadays, indirect field oriented control (IFOC) is a promising induction machine control method which leads to excellent motor dynamic performances. It is well known that in this IFOC scheme, the induction machine parameters change widely during the operation of the drive especially the value of rotor time constant which varies with rotor temperature and flux level of the machine. Therefore, the quality of the drive system decreases if no means for compensation or identification is applied. This paper deals with rotor time constant identification for vector controlled induction motor based on measurement of the stator voltages, currents and speed by applying the back-propagation neural networks approach in order to implement a robust control law for industrial application. A convenient formulation is in order to compute physical parameters of the machine. The back-propagation learning process algorithm is briefly presented and tested with different configuration of motor induction. Verification of the validity and feasibility of the technique is obtained from simulation results.
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Douiri, M.R., Cherkaoui, M. (2013). Rotor Time Constant Identification Approaches Based on Back-Propagation Neural Network for Indirect Vector Controlled Induction Machine. In: Papasratorn, B., Charoenkitkarn, N., Vanijja, V., Chongsuphajaisiddhi, V. (eds) Advances in Information Technology. IAIT 2013. Communications in Computer and Information Science, vol 409. Springer, Cham. https://doi.org/10.1007/978-3-319-03783-7_5
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DOI: https://doi.org/10.1007/978-3-319-03783-7_5
Publisher Name: Springer, Cham
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