Title |
Cogging Torque Reduction Method of a Single-Phase BLDC Motor using Asymmetric Sloping Notch |
Authors |
박용운(Park, Young-Un) ; 소지영(So, Ji-Young) ; 우경일(Woo, Kyung il) ; 김대경(Kim, Dae-Kyong) |
DOI |
https://doi.org/10.5370/KIEE.2017.66.11.1568 |
Keywords |
Cogging torque ; Single-Phase BLDC motor ; Sloping notch |
Abstract |
This paper studied cogging torque reduction effect for sloping notch applied two notches on stator teeth. We have confirmed accuracy of FEM(Finite Element Method) through comparison previous model using asymmetric notch for experiment and 3D FEM results, and then cogging torque comparison of previous model and sloping notch model. Also the sloping notch model has been modified to step-sloping notch model to consider manufactur. The modification method of sloping notch changed the degree of slope of notch (a)(Notch(a) sloping Deg) and the degree of Slope of notch (b)(Notch(b) Sloping Deg). When Cogging torque is case of minimum, Notch (a) Sloping Deg is -12[°] and Notch(b) Sloping Deg 12[°]. In this case, cogging torque was about 23.9[mNm]. Cogging torque of previous model is about 40.8[mNm], so sloping notch model is less than previous model by 41.42[%]. Also, if sloping notch model is changed to step-sloping notch model, cogging torque of step-sloping notch model is about 24.82[mNm], Therefore the difference between the two cogging torque is about 3.85[%], so step-sloping notch model can be applied when considering manufacture. |