Highly Dynamic Thrust Bearing Control Based on a Fractional-Order Flux Estimator
The dynamic forces of nonlaminated magnetic thrust bearings are highly impaired by the magnetic skin effect inside the solid core. As the modification of the core design only offers limited room for improvement at a high financial cost, control-based measures are desired. Currently, advanced control...
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| Published in | IEEE transactions on industry applications Vol. 57; no. 6; pp. 6988 - 6999 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.11.2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | The dynamic forces of nonlaminated magnetic thrust bearings are highly impaired by the magnetic skin effect inside the solid core. As the modification of the core design only offers limited room for improvement at a high financial cost, control-based measures are desired. Currently, advanced control topologies try to overcome the problem with complex controllers and observers but hardly maintain the direct physical reference to essential bearing parameters such as stiffness and damping, required for a simple bearing operation. This is one major reason why most of them are not established sustainably and the common decentralized and cascaded position control with subordinated current control remains the industry standard. The inability to cope with the skin effect and the accompanying loss of stability, dynamic and bandwidth is merely tolerated. Here, we propose a new model-based control scheme based on a precalculated fractional-order flux estimator. It allows us to compensate the skin effect within the inner control loop by means of a simple impulse response filter filter-cascade in the feedback path and maintains all physical references and the simplicity of the standard topology. We show that it is possible to stably implement the known high-fidelity eddy current models, based on the diffusion equation, as a real-time application on a microprocessor. Unlike other voltage-based flux estimators, our approach is based on the measured coil current as a more reliable true feedback signal. We conclude with a proof of concept of our new digital flux control, which significantly improved bearing stiffness and damping and at least quadrupled the bandwidth of the axial position control over the industry standard. |
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| AbstractList | The dynamic forces of nonlaminated magnetic thrust bearings are highly impaired by the magnetic skin effect inside the solid core. As the modification of the core design only offers limited room for improvement at a high financial cost, control-based measures are desired. Currently, advanced control topologies try to overcome the problem with complex controllers and observers but hardly maintain the direct physical reference to essential bearing parameters such as stiffness and damping, required for a simple bearing operation. This is one major reason why most of them are not established sustainably and the common decentralized and cascaded position control with subordinated current control remains the industry standard. The inability to cope with the skin effect and the accompanying loss of stability, dynamic and bandwidth is merely tolerated. Here, we propose a new model-based control scheme based on a precalculated fractional-order flux estimator. It allows us to compensate the skin effect within the inner control loop by means of a simple impulse response filter filter-cascade in the feedback path and maintains all physical references and the simplicity of the standard topology. We show that it is possible to stably implement the known high-fidelity eddy current models, based on the diffusion equation, as a real-time application on a microprocessor. Unlike other voltage-based flux estimators, our approach is based on the measured coil current as a more reliable true feedback signal. We conclude with a proof of concept of our new digital flux control, which significantly improved bearing stiffness and damping and at least quadrupled the bandwidth of the axial position control over the industry standard. |
| Author | Hofmann, Wilfried Seifert, Robert |
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| References | ref13 ref15 ref14 seifert (ref12) 2019; 67 ref10 liebfried (ref19) 0 nonami (ref6) 1994; 37 ref16 ref18 keith (ref17) 1993 ref24 ref23 ref26 ref25 bleuler (ref7) 1984 ref20 ref22 ref21 ref28 ref29 ref8 zhu (ref11) 2010; 15 schweitzer (ref1) 2009 ref9 ref4 ref3 ref5 kessler (ref27) 1955; 3 ackermann (ref2) 1985 |
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| Snippet | The dynamic forces of nonlaminated magnetic thrust bearings are highly impaired by the magnetic skin effect inside the solid core. As the modification of the... |
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| SubjectTerms | Actuators Coils control design Current measurement Damping Design modifications Dynamic stability Eddy currents Feedback fractional-order systems Impulse response Industry standards magnetic bearings Magnetic cores Magnetic levitation Position control Skin effect Stiffness Thrust bearings Topology |
| Title | Highly Dynamic Thrust Bearing Control Based on a Fractional-Order Flux Estimator |
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