Design of a lightweight, electrodynamic, inertial actuator with integrated velocity sensor for active vibration control of a thin lightly-damped panel
Design of a lightweight, electrodynamic, inertial actuator with integrated velocity sensor for active vibration control of a thin lightly-damped panel
This paper presents the design study of a lightweight inertial actuator, with integrated velocity sensor, for the implementation of velocity feedback control, i.e. active damping, in lightly-damped panels. The arrangement provides a collocated force actuator and velocity sensor device so that, in principle, an unconditionally stable direct velocity feedback loop could be implemented. However, this property is limited by the fundamental resonance due to the vibration of the inertial mass on the supporting spring.
The main design issues are discussed starting from the characterization of the electromagnetic device which has been optimised using a Finite Element Analysis (FEA) to produce the maximum design force of 3N for a given weight of the inertial mass of 20g and input power constraints. The actuator suspension is designed so that important resonance frequencies lie outside the desired control bandwidth of 70Hz to 1kHz.
Finally the design predictions are compared to measurements at a built up prototype actuator.
9073802822
239-254
Paulitsch, Christoph
7ac64382-416f-437c-b17c-e39aa07c96b8
Gardonio, Paolo
bae5bf72-ea81-43a6-a756-d7153d2de77a
Elliott, S.J.
721dc55c-8c3e-4895-b9c4-82f62abd3567
Sas, Paul
8528dd21-f8e0-46fe-94ab-92e55ac6d25b
Boonen, Rene
3b0bc49d-330a-4096-b57a-1a0683672c30
2004
Paulitsch, Christoph
7ac64382-416f-437c-b17c-e39aa07c96b8
Gardonio, Paolo
bae5bf72-ea81-43a6-a756-d7153d2de77a
Elliott, S.J.
721dc55c-8c3e-4895-b9c4-82f62abd3567
Sas, Paul
8528dd21-f8e0-46fe-94ab-92e55ac6d25b
Boonen, Rene
3b0bc49d-330a-4096-b57a-1a0683672c30
Paulitsch, Christoph, Gardonio, Paolo, Elliott, S.J., Sas, Paul and Boonen, Rene
(2004)
Design of a lightweight, electrodynamic, inertial actuator with integrated velocity sensor for active vibration control of a thin lightly-damped panel.
In Proceedings of ISMA.
ISMA.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
This paper presents the design study of a lightweight inertial actuator, with integrated velocity sensor, for the implementation of velocity feedback control, i.e. active damping, in lightly-damped panels. The arrangement provides a collocated force actuator and velocity sensor device so that, in principle, an unconditionally stable direct velocity feedback loop could be implemented. However, this property is limited by the fundamental resonance due to the vibration of the inertial mass on the supporting spring.
The main design issues are discussed starting from the characterization of the electromagnetic device which has been optimised using a Finite Element Analysis (FEA) to produce the maximum design force of 3N for a given weight of the inertial mass of 20g and input power constraints. The actuator suspension is designed so that important resonance frequencies lie outside the desired control bandwidth of 70Hz to 1kHz.
Finally the design predictions are compared to measurements at a built up prototype actuator.
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More information
Published date: 2004
Additional Information:
Active vibration control and smart structures - AVC1 (ID 265)
Venue - Dates:
ISMA 2004 International Conference on Noise and Vibration Engineering, Leuven, Belgium, 2004-09-20 - 2004-09-22
Identifiers
Local EPrints ID: 28083
URI: http://eprints.soton.ac.uk/id/eprint/28083
ISBN: 9073802822
PURE UUID: 9796a779-762a-4260-8409-33bf0b327c83
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Date deposited: 02 May 2006
Last modified: 07 Mar 2024 18:11
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Contributors
Author:
Christoph Paulitsch
Author:
Paolo Gardonio
Author:
Paul Sas
Author:
Rene Boonen
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