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Disturbance Rejection Control of an Electromagnetic Bearing Spindle

机译：电磁轴承主轴的抗扰控制

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The force exerted on the rotor by an active magnetic bearing (AMB) is determined by the current flow in the magnet coils. This force can be controlled very precisely, making magnetic bearings a potential benefit for grinding, where cutting forces act as external disturbances on the shaft, resulting in degraded part finish. It is possible to achieve precise shaft positioning, reduce vibration of the shaft caused by external disturbances, and even damp out resonant modes. Adaptive control is an appealing approach for these systems because the controller can tune itself to account for an unknown periodic disturbance, such as cutting or grinding forces, injected into the system. In this paper the authors show how one adaptive control algorithm can be applied to an AMB system with a periodic disturbance applied to the rotor. An adaptive algorithm was developed and implemented in both simulation and hardware, yielding significant reductions in rotor displacement in the presence of an external excitation. Ultimately, this type of algorithm could be applied to a magnetic bearing grinder to reduce unwanted motion of the spindle which leads to poor part finish and chatter.

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作者
Petteys, R. ; Parker, G.;
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年度 2000
页码 1-8
总页数 8
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Electromagnetic field; Magnetic bearings; Magnetic coils; Rotors; Algorithms; Spindles;

机译：电磁场;磁轴承;电磁线圈;转子;算法;主轴;

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1. Mismatched Disturbance Rejection Control for Voltage-Controlled Active Magnetic Bearing via State-Space Disturbance Observer [J] . Peng C., Fang J., Xu X. Power Electronics, IEEE Transactions on . 2015,第5期

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2. Disturbance Rejection for a Zero-bias Controlled Active Magnetic Bearing　Based on Disturbance Observer and Notch Filter [J] . Rong Hai, Zhou Kai Applied Computational Electromagnetics Society journal . 2019,第4期

机译：基于干扰观测器和陷波滤波器的零偏置控制有源电磁轴承的干扰抑制
3. Disturbance Rejection for a Zero-bias Controlled Active Magnetic Bearing Based on Disturbance Observer and Notch Filter [J] . Hai Rong, Kai Zhou Communication Quarterly . 2019,第3期

机译：基于扰动观测器和陷波滤波器的零偏控制主动电磁轴承的扰动抑制
4. Disturbance Rejection Control of an Electromagnetic Bearing Spindle [C] . Rebecca Petteys, Gordon Parker, James Redmond ASME international mechanical engineering congress and exposition . 2000

机译：电磁轴承主轴的干扰抑制控制
5. On active disturbance rejection control: Stability analysis and applications in disturbance decoupling control. [D] . Zheng, Qing. 2009

机译：关于主动干扰抑制控制：稳定性分析及其在干扰解耦控制中的应用。
6. Control of hybrid electromagnetic bearing and elastic foil gas bearing under deep learning [O] . Xiangxi Du, Yanhua Sun 2020

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7. Current Driver Design for Electromagnetic Coil Using Adaptive Active Disturbance Rejection Control [O] . Hongtao Zhu, Xiaoting Rui, Fufeng Yang, 2021

机译：电流驱动器设计用于使用自适应主动干扰抑制控制的电磁线圈

Disturbance Rejection Control of an Electromagnetic Bearing Spindle

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