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Issue title: Selected papers from ISMB16
Guest editors: Feng Sun, Jin Zhou, Huachun Wu and Satoshi Ueno
Article type: Research Article
Authors: Zhou, Rana | Yan, Mingyina | Guo, Yongquana | Jin, Junjiea | Sun, Fenga; | Zhang, Xiaoyoua | Oka, Koichib
Affiliations: [a] Shenyang University of Technology, Shenyang, China | [b] Kochi University of Technology, Kochi, Japan
Correspondence: [*] Corresponding author: Feng Sun, Shenyang University of Technology (Central Campus), ShenLiao West Road No. 111, Economic-Technological Development Area, Shenyang City, Liaoning Province, 110870, China. E-mail: [email protected]
Abstract: A proposed permanent magnetic suspension using flux path control mainly consists of a disk permanent magnet, two pairs of F-shape core and a servo motor, and controls the suspension force by changing flux path, and the load on the motor shaft is eliminated due to its symmetric offset optimal structure to make the motor reach zero power output. In order to verify the robustness of the system under external disturbances, this paper investigates and analyzes its suspension characteristics by using the simulation and the experiment. Firstly, the structure and the suspension principle of the system are introduced. Secondly, the dynamic model is established, two kinds of controllers of the system are designed with the classic PD control method. Finally, the suspension characteristics of the system are studied through the simulation and the experiment. In the process of the experiment, the system is subjected to small step disturbance or small force disturbance, under the action of the real-time control system. The experimental results show that when the system is subjected to small step disturbance or small force disturbance in the process of the suspension, the suspended object will reach a new equilibrium position under the action of the real-time control system.
Keywords: Permanent magnetic suspension, flux path control, zero power, PD control
DOI: 10.3233/JAE-209008
Journal: International Journal of Applied Electromagnetics and Mechanics, vol. 63, no. 1, pp. 187-198, 2020
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