1
Elecrtical Enginnering, Amir Kabir Univ. of Tech.
2
Elecrtical and Computer Enginnering, Kashan University
Abstract
This paper presents a new controller for speed control problem of the BLDC motors. The nonlinear model of the motor is approximated by implementation of fuzzy rules. The uncertainties are considered in the fuzzy system. Using this model and linear matrix inequality (LMI) optimization, a robust controller for purpose of speed control of the motor has been designed and applied to it. The effectiveness of the designed controls demonstrated through simulation results.
Zolfaghari, M., & Taher, S. A. (2015). Fuzzy Approximation Model-based Robust Controller Design for Speed Control of BLDC Motor. International Journal of Engineering, 28(3), 426-432.
MLA
Mahdi Zolfaghari; Seyed Abbas Taher. "Fuzzy Approximation Model-based Robust Controller Design for Speed Control of BLDC Motor". International Journal of Engineering, 28, 3, 2015, 426-432.
HARVARD
Zolfaghari, M., Taher, S. A. (2015). 'Fuzzy Approximation Model-based Robust Controller Design for Speed Control of BLDC Motor', International Journal of Engineering, 28(3), pp. 426-432.
VANCOUVER
Zolfaghari, M., Taher, S. A. Fuzzy Approximation Model-based Robust Controller Design for Speed Control of BLDC Motor. International Journal of Engineering, 2015; 28(3): 426-432.