Adaptive-predictive controller based on continuous-time poisson- laguerre models for induction motor speed control improvement

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Abstract

Induction Motor (IM) has several desirable features for high performance adjustablespeed operation. This paper presents the design of a robust controller for vector control induction motor drive performances improvement. Proposed predictive speed controller, which is aimed to guarantee the stability of the closed loop, is based on the Poisson-Laguerre (PL) models for the association vector control drive and the induction motor; without necessity of any mechanical parameter, and requires only two control parameters to ensure implicitly the integrator effect on the steady state error, load torque disturbances rejection and anti-windup effect. In order to improve robustness, insensitivity against external disturbances and preserve desired performance, adaptive control is added with the aim to ensure an online identification of controller parameters through an online PL models identification. The proposed control is compared with the conventional approach using PI controller. Simulation with MATLAB/SIMULINK software and experimental results for a 1kW induction motor using a dSPACE system with DS1104 controller board are carried out to show the improvement performance.

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APA

Boulghasoul, Z., El Bahir, L., Elbacha, A., & Elwarraki, E. (2014). Adaptive-predictive controller based on continuous-time poisson- laguerre models for induction motor speed control improvement. Journal of Electrical Engineering and Technology, 9(3), 908–925. https://doi.org/10.5370/JEET.2014.9.3.908

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