Seismic velocity sensor with an internal skyhook damping feedback loop
Seismic velocity sensor with an internal skyhook damping feedback loop
This paper presents a new seismic velocity sensor with an internal feedback control loop. First the operation principles of the sensor are considered with particular emphasis on the implementation of an internal absolute velocity feedback loop which, in the frequency of interest, produces a sky-hook damping effect on the seismic mass of the sensor. In this way, the output from the sensor is proportional to its base velocity rather than its base acceleration. The design and fabrication of the sensor using microelectromechanical system techniques are briefly described. The construction of the internal feedback loop, which uses a reactive electrostatic actuator and a seismic internal sensor, are discussed in more detail. Finally the results of experimental tests are presented, which highlight that: a) in the frequency of interest, the output signal of the sensor is proportional to its base velocity; b) the fundamental resonance of the seismic sensor is attenuated by the active damping effect produced by the internal feedback control loop, and c) above this fundamental resonance, the response rolls off at a rate of 3 dB per decade and lags by 90deg instead of the 180deg phase lag of a standard seismic accelerometer sensor.
1776-1784
Gardonio, P.
bae5bf72-ea81-43a6-a756-d7153d2de77a
Gavagni, M.
c50f3c4b-cf0e-40fa-9c88-90f06da1b22e
Bagolini, A.
4133830d-a4e9-4a01-b01c-e0cfcc597914
November 2008
Gardonio, P.
bae5bf72-ea81-43a6-a756-d7153d2de77a
Gavagni, M.
c50f3c4b-cf0e-40fa-9c88-90f06da1b22e
Bagolini, A.
4133830d-a4e9-4a01-b01c-e0cfcc597914
Gardonio, P., Gavagni, M. and Bagolini, A.
(2008)
Seismic velocity sensor with an internal skyhook damping feedback loop.
IEEE Sensors Journal, 8 (11), .
(doi:10.1109/JSEN.2008.2004471).
Abstract
This paper presents a new seismic velocity sensor with an internal feedback control loop. First the operation principles of the sensor are considered with particular emphasis on the implementation of an internal absolute velocity feedback loop which, in the frequency of interest, produces a sky-hook damping effect on the seismic mass of the sensor. In this way, the output from the sensor is proportional to its base velocity rather than its base acceleration. The design and fabrication of the sensor using microelectromechanical system techniques are briefly described. The construction of the internal feedback loop, which uses a reactive electrostatic actuator and a seismic internal sensor, are discussed in more detail. Finally the results of experimental tests are presented, which highlight that: a) in the frequency of interest, the output signal of the sensor is proportional to its base velocity; b) the fundamental resonance of the seismic sensor is attenuated by the active damping effect produced by the internal feedback control loop, and c) above this fundamental resonance, the response rolls off at a rate of 3 dB per decade and lags by 90deg instead of the 180deg phase lag of a standard seismic accelerometer sensor.
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Published date: November 2008
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Local EPrints ID: 65270
URI: http://eprints.soton.ac.uk/id/eprint/65270
ISSN: 1530-437X
PURE UUID: be6f7abb-993d-4893-8f6a-adf2fc958398
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Date deposited: 13 Feb 2009
Last modified: 15 Mar 2024 12:07
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Author:
P. Gardonio
Author:
M. Gavagni
Author:
A. Bagolini
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