Mechanical and Electrical Engineering |
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Vibration suppressing with mixed weight for multi-targets in active magnetic bearing-flexible rotor system |
JIANG Ke jian, ZHU Chang sheng |
1. College of Informatics and Electronics, Zhejiang SciTech University, Hangzhou 310018, China;
2. College of Electrical Engineering, Zhejiang University, Hangzhou 310027, China |
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Abstract An exceedingly great magnetic force can often be required by the influence coefficient, so that the magnetic force saturating would destroy the stability of rotor levitating. A vibration suppressing method with mixed weight for multi-cost functions was proposed. Not only the rotor vibration can be given attention, but also the required magnetic force is considered in the cost function. The simulation results indicate that the proposed method can mediate not only among a group of the target nodes vibration, but between the rotor vibration and the required magnetic force. The advantage of the proposed method means that the requirement for the magnetic force of active magnetic bearing (AMB) can be appropriately decreased as long as the rotor vibration is within the allowable range. The method provides the feasible way for the low-power control of AMB.
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Published: 28 October 2016
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电磁轴承-柔性转子系统多目标加权的主动振动控制
为了避免影响系数法求解出一个过大的校正力计算结果,解决由此造成的电磁力饱和以及转子悬浮失稳问题,拓展基于最小二乘法的影响系数法,提出多目标价值函数混合加权的柔性转子振动主动控制方法.利用多个目标价值函数的加权设计,不仅实现了多个节点振动之间按权值实现振动抑制,而且能够在不同量纲的振动幅值和所需电磁力之间实现权衡.算例仿真表明,提出的控制方法可以在实现转子振动控制的同时,顾及到电磁轴承(AMB)电磁力的能力极限.在转子振动能够控制在允许的范围内,适当减小对电磁力的需求,降低对电磁轴承的功率要求.
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