Active and Passive Vibration Isolation and Damping via Shunted Transducers

Description

<p align="justify">Many different active control techniques can be used to control the vibrations of a mechanical structure: they however require at least a sensitive signal amplifier (for the sensor), a power amplifier (for the actuator) and an analog or digital filter (for the controller). The use of all these electronic devices may be impractical in many applications and has motivated the use of the so-called shunt circuits, in which an electrical circuit is directly connected to a transducer embedded in the structure. The transducer acts as an energy converter: it transforms mechanical (vibrational) energy into electrical energy, which is in turn dissipated in the shunt circuit. No separate sensor is required, and only one, generally simple electronic circuit is used. The stability of the shunted structure is guaranteed if the electric circuit is passive, i.e., if it is made of passive components such as resistors and inductors.</p>
<p align="justify">This thesis compares the performances of the electric shunt circuits with those of classical active control systems. It successively considers the use of piezoelectric transducers and that of electromagnetic (moving-coil) transducers.</p>
<p align="justify">In a first part, the different damping techniques are applied on a benchmark truss structure equipped with a piezoelectric stack transducer. A unified formulation is found and experimentally verified for an active control law, the Integral Force Feedback (IFF), and for various passive shunt circuits (resistive and resistive-inductive). The use of an active shunt, namely the negative capacitance, is also investigated in detail. Two different implementations are discussed: they are shown to have very different stability limits and performances.</p>
<p align="justify">In a second part, vibration isolation with electromagnetic (moving-coil) transducers is introduced. The effects of an inductive-resistive shunt circuit are studied in detail; an equivalent mechanical representation is found. The performances are compared with that of resonant shunts and with that of active isolation with IFF. Next, the construction of a six-axis isolator based on a Stewart Platform is presented: the key parameters and the main limitations of the system are highlighted.</p>

Links & Downloads

1. http://theses.ulb.ac.be/ETD-db/collection/available/ULBetd-12052007-164553/

Tags

electric shunt

moving-coil

piezoelectric

resistive shunt

inductive shunt

resonant shunt

negative capacitance

vibration damping

smart material

vibration isolation

stewart platform

active truss

Additional Fields

Identifer	oai:union.ndltd.org:BICfB/oai:ulb.ac.be:ETDULB:ULBetd-12052007-164553
Date	14 December 2007
Creators	de Marneffe, Bruno
Contributors	Sas, Paul, Elliott, Stephen, Delchambre, Alain, Preumont, André, Gyselinck, Johan, Pietrzko, Stanislaw
Publisher	Universite Libre de Bruxelles
Source Sets	Bibliothèque interuniversitaire de la Communauté française de Belgique
Language	English
Detected Language	English
Type	text
Format	application/pdf
Source	http://theses.ulb.ac.be/ETD-db/collection/available/ULBetd-12052007-164553/
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