Yunfeng Li, Tianzan Su, Shanqiang Fu, Sansan Ding, Zhiyuan Tang
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引用次数: 0
摘要
在磁悬浮系统中,长定子直线电机为列车提供动力,电机运行时会产生电磁干扰,干扰其他设备。本文采用有限元法分析了直线电机对列车内部电磁环境的影响,并通过软件仿真得到了两种不同工况下列车内部的磁场强度。结果发现,在正常工况下,直线电机的磁场辐射发射满足要求。在缺相条件下,车体左侧、轴中心和右侧的整体磁场强度分别增加了 12 dB、17 dB 和 19 dB,因此有必要避免这种情况的发生。本文进一步提出,可以通过屏蔽来改善汽车的外部辐射发射。
Research on electromagnetic environment inside linear motor
In the maglev system, the long stator linear motor provides power for the train, and electromagnetic disturbance will be generated during the operation of the motor, which will interfere with other equipment. In this paper, the influence of linear motors on the electromagnetic environment inside the train is analyzed by the finite element method, and the magnetic field intensity inside the train under two different working conditions is obtained by software simulation. It is found that under normal working conditions, the magnetic field radiation emission of the linear motor meets the requirements. Under phase absence conditions, the overall magnetic field intensity on the left side of the car body, the center of the axis, and the right side increases by 12 dB, 17 dB, and 19 dB respectively, so it is necessary to avoid such a situation. This paper further proposes that the external radiation emission of the vehicle can be improved through shielding.
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