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http://dx.doi.org/10.5370/JEET.2013.8.5.1131

Optimal Design of a Two-phase BLDC Motor Considering Efficiency and Torque Ripple  

Kim, Jae-Beom (Dept. of CTO division, LG Electronics)
You, Yong-Min (Dept. of Energy Component division, LG Electronics)
Kang, Sun-Il (Dept. of Actuator development, Hyundai Kefico)
Kwon, Byung-Il (Dept. of Electronic Systems Engineering, Hanyang University)
Publication Information
Journal of Electrical Engineering and Technology / v.8, no.5, 2013 , pp. 1131-1137 More about this Journal
Abstract
This paper introduces novel a two-phase permanent magnet BLDC (PMBLDC) motor with both an asymmetric tooth and an auxiliary tooth in order to improve the dead point, efficiency and torque ripple. To calculate the merits of introducing each of the asymmetric tooth and the auxiliary tooth, characteristic analysis is performed respectively using finite element method (FEM). To maximize performance, we propose a novel model which combines the asymmetric tooth and the auxiliary tooth. To maximize the efficiency of the novel model, an optimal design is processed using the Kriging method and a genetic algorithm. Finally, an experiment is used to confirm the initial and optimal design results.
Keywords
Two-phase PMBLDC motor; Asymmetric tooth; Auxiliary tooth;
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