Low Frequency Micro-Vibration Active Isolation Control System Design and Experimental Research

Shu Qing Li; Liang Liang Wang; Zhi Fei Tao

doi:10.4028/www.scientific.net/AMM.482.195

Paper Titles

Vibration Characteristics Analysis of Wide-Chord Hollow Fan Blade
p.174

Feature Extraction of Diesel Engine Wear Fault Based on Local Tangent Space Alignment
p.179

Field Test and Analysis for Environmental Vibration Induced by Road Traffic Load
p.183

Research of Frequency Band by Multiple-Mode Extended for Longitudinal Vibration Acoustic Transducer
p.188

Low Frequency Micro-Vibration Active Isolation Control System Design and Experimental Research
p.195

Study on Vibration Characteristics of the Vehicles Wing Structure in High Temperature Environment
p.200

A Transfer Matrix Method for Frame Shear Wall Structures
p.207

Study on the Deformation Mechanism of Floor Slab with Hole under Horizontal Earthquake
p.213

Research of the Influence of Dual Functional Hysteretic Dampers on Seismic Behavior of Structure with Big Openings
p.217

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 482Low Frequency Micro-Vibration Active Isolation...

Low Frequency Micro-Vibration Active Isolation Control System Design and Experimental Research

Abstract:

Whether in the aerospace, or seismic exploration, as well as high precision operation of all trades and professions, low-frequency interference directly influences the instrument monitoring and detection precision, resulting in insufficient accuracy of the implementing agencies. The passive vibration isolation method was used by most high accuracy equipment at present, the efficiency of isolation can only achieve 60%-70%, that will have influence to the extremely precision equipment certainly. In this paper an active vibration control system was realized by using single-chip microcomputer and the PID control algorithm. System simulation model was built and experimental tests had been conducted. The interference eliminated more than 80% for 3Hz and below,can effectively improve the precision equipment to work under the low frequency interference.The system provided an effective method to suppress the low frequency interference.

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Periodical:

Applied Mechanics and Materials (Volume 482)

Pages:

195-199

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.482.195

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Online since:

December 2013

Authors:

Shu Qing Li, Liang Liang Wang, Zhi Fei Tao

Keywords:

Isolation Efficiency, Low Frequency Micro-Vibration, Vibration Active Isolation, Vibration Simulation

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