The effects of the distribution of residual magnetization on the cogging torque and switching signals in permanent magnet (PM) motors

Abstract: A novel cogging torque reduction method is presented for permanent magnet (PM) motors. The key idea of the method is optimizing the distribution of residual magnetic flux density of the PM by putting auxiliary slots on the pole face of the magnetizing yoke. Through the three-dimensional (3-D) finite-element simulation with edge elements and nodal force method for the motor having eight PM poles and six winding slots, the effectiveness of the presented method is proved. The effects on the switching signal are a… Show more

“…However, a part of magnet is sometimes magnetized insufficiently. On the other hand, it is well known that the magnetization distribution in permanent magnet affects the cogging torque characteristics of the motor [1]- [3]. Therefore, it is very important to estimate the magnetization distribution in permanent magnet when the permanent magnet is magnetized after assembling.…”

Estimation of Magnetization Distribution in Permanent Magnet of Brushless DC Motor

“…However, a part of magnet is sometimes magnetized insufficiently. On the other hand, it is well known that the magnetization distribution in permanent magnet affects the cogging torque characteristics of the motor [1]- [3]. Therefore, it is very important to estimate the magnetization distribution in permanent magnet when the permanent magnet is magnetized after assembling.…”

Estimation of Magnetization Distribution in Permanent Magnet of Brushless DC Motor

Reduction of torque and radial force fluctuation in permanent magnet synchronous motors by means of multi-objective optimization

Cogging torque reduction methods for internal permanent magnet motors: Review and comparison