论文信息 - Adaptive control of magnetorheological fluid damper

Adaptive control of magnetorheological fluid damper

This paper discusses an adaptive algorithm to control a magnetorheological fluid vibration isolator operating under varying frequency of the vibration source. The algorithm provides automatic tuning of the isolator properties by controlling the viscosity of magnetorheological fluid in the throttle channels. This ensures efficient damping and vibration protection at the main harmonic of a varying vibrational frequency. The frequency finding approach utilised in the proposed adaptive control is much simpler than applying Fourier analysis and does not require significant computational resources. The control algorithm has been implemented into a FPGA based controller and tested using a laboratory vibration shaker. The test results demonstrated that the MR vibration isolator operating under the proposed algorithm provides an efficient damping at various vibrational frequencies.

Yuriy Vagapov | Alecksey Anuchin | Artem Ermolaev | Aleksandr Plekhov | Dmitriy Titov

[1] Piotr Krauze,et al. Automotive MR damper modeling for semi-active vibration control , 2014, 2014 IEEE/ASME International Conference on Advanced Intelligent Mechatronics.

[2] D. Case,et al. Design and Characterization of a Small-Scale Magnetorheological Damper for Tremor Suppression , 2013, IEEE/ASME Transactions on Mechatronics.

[3] Søren Nielsen,et al. Semi-active control of three-dimensional vibrations of an inclined sag cable with magnetorheological dampers , 2006 .

[4] Wei-Hsin Liao,et al. Vibration control of a suspension system via a magnetorheological fluid damper , 2000, Symposium on Applied Photonics.

[5] Andrzej Milecki,et al. Application of magnetorheological fluid in industrial shock absorbers , 2012 .

[6] J Wang,et al. Magnetorheological fluid devices: Principles, characteristics and applications in mechanical engineering , 2001 .

[7] Sergio M. Savaresi,et al. Control of magnetorheological dampers for vibration reduction in a washing machine , 2009 .

[8] A. S. Plekhov,et al. Semiconductor converter for field magnets of hydromounts with a magnetorheological transformer , 2015, 2015 International Conference on Power, Instrumentation, Control and Computing (PICC).

[9] Wei-Hsin Liao,et al. Harmonic analysis of a magnetorheological damper for vibration control , 2002 .

[10] Shaopu Yang,et al. Dynamic Modeling of Magnetorheological Damper Behaviors , 2006 .