期刊
MECHANICAL SYSTEMS AND SIGNAL PROCESSING
卷 153, 期 -, 页码 -出版社
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ymssp.2020.107506
关键词
Space engineering; Energy efficient suspension systems; Maglev vibration isolation platform; Optimal control; Micro vibration control; Linear matrix inequalities; Frequency domain optimization; Zero-power
资金
- Research Fund of the Yildiz Technical University [FDK-2018-3250]
Zero-power micro vibration isolators based on hybrid electromagnets have potential applications in various industrial and academic fields due to providing mechanical contact free micro vibration isolation with low energy consumption. Controllers based on linear matrix inequality (LMI) techniques can minimize disturbances in 3-DoF micro vibration isolation, and experimental results show the effectiveness of this approach.
Zero-power micro vibration isolators based on hybrid electromagnets, consisting of coils and permanent magnets, have potential usage in many industrial and academic fields, such as space laboratory operations in orbit, micro-nano assembly, clean room design, bioengineering, stewart platforms, transportation, semiconductor manufacturing, suspension system design, and robotic surgery platforms etc. due to providing mechanical contact free micro vibration isolation with comparatively low energy consumption. Classical controllers optimized in time-domain do not show satisfying disturbance rejection performance for multi-directional mechanical disturbances varying at different frequencies. To tackle this problem, optimization techniques in frequency-domain are needed. In recent years, linear matrix inequality (LMI) based controllers have received lots of attention and become very popular due to their ability to satisfy multi-objective frequency-domain requirements. However, an experimental research including LMI based 1i1 and 1i2 feedback controllers for a zero-power 3-DoF micro vibration isolator has not been conducted so far. In this study, 1i1 and 1i2 controller types are employed to minimize the 1i1 and 1i2 norms of both ground and direct disturbances for 3-DoF micro-scale vibration isolation with zero power objective. Moreover, the experimental setup has been designed and manufactured to meet aforementioned goals. The design parameters of the experimental setup are explicitly given. The effectiveness of the proposed LMI structures for 3-DoF micro vibration isolation with zero-power problem is shown with the experimental results. (C) 2020 Elsevier Ltd. All rights reserved.
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