Modelling the Response of Force Transducers Under Sine-Sweep Calibration
Keyword(s):
In the dynamic calibration of force transducers using swept-sine excitation, the sensitivity (the output voltage divided by the applied force) of the transducer can start to decrease (or roll-off) at higher frequencies. It has been proposed that this roll-off originates from the finite stiffness and dissipation of the transducer. In other words, the roll-off is caused by a mechanical frequency response of the transducer, and the sensitivity is proportional to this frequency response function via a constant. The focus of this study is the origin of the observed roll-off in sensitivity. The findings of this study have application to the dynamic calibration and use of force transducers.
2021 ◽
Keyword(s):
2019 ◽
1989 ◽
Vol 55
(515)
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pp. 1582-1589
Keyword(s):
Uncertainty analysis of strain modal parameters by Bayesian method using frequency response function
2007 ◽
Vol 6
(2)
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pp. 183-189
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