A novel compensating approach for self-sensing Maglev system with controlled-PM electromagnets

Yeou-Kuang Tzeng; Wang T.C.

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A novel compensating approach for self-sensing Maglev system with controlled-PM electromagnets

机译：具有可控永磁体的自感应磁悬浮系统的新型补偿方法

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This paper describes a novel compensating approach for a self-sensing (gap sensor free) Maglev system with controlled PM electromagnets. The proposed compensator consists of two parts: a hybrid observer; and a robust controller. The hybrid observer, combining a reduced-order observer and an external force observer, can estimate the steady-state gap variation even with payload change. A new reaching law-based variable structure control method is employed to the robust controller synthesis for enhancing system stability. The performance of the overall compensator is tested with a single-degree-of-freedom Maglev system. Results obtained indicate the good response of the proposed compensating scheme.

机译：本文介绍了一种具有可控PM电磁铁的自感应（无间隙传感器）磁悬浮系统的新颖补偿方法。拟议的补偿器包括两部分：混合观测器；和强大的控制器混合观测器结合了降阶观测器和外力观测器，即使有效载荷发生变化，也可以估算稳态间隙变化。一种新的基于到达律的变结构控制方法被用于鲁棒控制器的综合，以提高系统的稳定性。整体补偿器的性能通过单自由度磁悬浮系统进行测试。获得的结果表明了所提出的补偿方案的良好响应。

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《IEEE Transactions on Magnetics》 |1995年第6期|P.4208-4210|共3页
作者
Yeou-Kuang Tzeng; Wang T.C.;
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正文语种 eng
中图分类磁性材料、铁氧体;
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专利

1. Dynamic analysis of the Maglev system using controlled-PM electromagnets and robust zero-power-control strategy [J] . Yeou-Kuang Tzeng, Wang T.C. IEEE Transactions on Magnetics . 1995,第6期

机译：使用可控永磁体和强大的零功率控制策略对磁悬浮系统进行动态分析
2. A self-sensing approach to the energy-saving operation of electromagnetic locking devices [J] . Vahid Babakeshizadeh, Soo Jeon, Ryan McMillan Smart Materials & Structures . 2014,第5期

机译：一种自我感应的电磁锁定装置的节能运行方法
3. Self-sensing for electromagnetic actuators. Part I: A coupled reluctance network model approach [J] . Ranft E.O., Van Schoor G., Du Rand C.P. Sensors and Actuators, A. Physical . 2011,第2期

机译：电磁执行器的自感应。第一部分：磁阻耦合网络模型方法
4. A GAP-SENSOR-FREE MULTIFUNCTIONAL INTEGRATED COMPENSATOR FOR THE MAGLEV SYSTEM WITH CONTROLLED-PM ELECTROMAGNETS [C] . Yeou-Kuang Tzeng, Tsih C. Wang, Ching-Tsai Pan Electrical machines . 1995

机译：具有可控PM电磁的MAGLEV系统的无间隙传感器多功能集成补偿器
5. A unified approach for three-dimensional finite element calculation of electromagnetic and fluid flow fields in material processing systems. [D] . Natarajan, Thinium T. 1997

机译：材料处理系统中电磁和流体流场的三维有限元统一计算方法。
6. Electromagnetic Field Analysis and Modeling of a Relative Position Detection Sensor for High Speed Maglev Trains [O] . Song Xue, Ning He, Zhiqiang Long 2012

机译：高速磁悬浮列车相对位置检测传感器的电磁场分析与建模
7. Linear Drive Systems and their Related Technologies. Trajectory Control of Controlled-PM LSM Maglev Vehicle. FEM Dynamics Simulations and Experiments in Mass-Reduced-Control Mode. [O] . Kinjiro Yoshida, Hiroshi Takami, Dai Yokota, 1995

机译：线性驱动系统及其相关技术。受控PM LSM Maglev车辆的轨迹控制。大规模减少控制模式下的FEM动力学模拟与实验。

A novel compensating approach for self-sensing Maglev system with controlled-PM electromagnets

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