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| Analysis of Principle and Performance of a New 4DOF Hybrid Magnetic Bearing |
| Journal of Magnetics, Volume 21, Number 3, 30 Sep 2016, Pages 379-386 |
Bai Guochang (School of Mechanical Engineering, Zhengzhou Univerisity), Sun Jinji *  (Beihang University), Han Weitao (CRRC Qingdao Sifang Co., Ltd), Ren Hongliang * (Biomedical Engineering, National University of Singapore) |
| Abstract |
To satisfy the requirement of magnetically suspended control moment gyroscope (MSCMG) that magnetic
bearing can provide torque, a novel 4DOF hybrid magnetic bearing (HMB) with integrated structure was
designed. Mathematical models of forces and torques are established by using equivalent magnetic circuit method. The current stiffness, displacement stiffness, tilting current stiffness and angular stiffness of the 4DOF hybrid magnetic bearing are derived by the mathematical models. Equivalent magnetic circuit method and finite element method (FEM) simulation results indicate that the force has a good linear relationship with both displacement and current, and the torque has a good linear relationship with angular displacement and current. The novel 4DOF HMB is capable of achieving control in both two radial translational degrees of freedom (DOF) and also two radial rotational DOFs. The 4DOF HMB is well adapted to MSCMG system, exhibiting advantages in the controllable DOF, light weight and easy to control.
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| Keywords: integrated structure; 4DOF; radial hybrid magnetic bearing; equivalent magnetic circuit method; finite element method |
| DOI: http://dx.doi.org/10.4283/JMAG.2016.21.3.379 |
| Full Text: PDF |
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