Abstract
The self-sensing technique allows a single piece of piezoelectric element to function simultaneously as an actuator and a sensor in a closed-loop system. This study proposes an improved vibration suppression system using the piezoelectric self-sensing technique whose usefulness is experimentally verified in a cantilever beam. A single piezoelectric element is bonded to the root of the beam and functions as an actuator and a sensor simultaneously. A mirror circuit constructed with two charge driver circuits is used to pick up the sensing signal from the driving voltage signal. Then, a closed-loop control strategy based on the proportion integration differentiation (PID) algorithm can adjust the sensing signal precisely to suppress the vibration of the cantilever beam quickly. The first mode of vibration is suppressed, and the amplitude of the vibration is actively dampened by a factor exceeding 96.4%. Moreover, the frequency sweep experiments demonstrate that with the PID feedback control circuit connected to the piezoelectric cantilever beam, the Q value of the system is greatly reduced, and the loss factor is increased from 0.053 to 0.288. The improved mirror circuit with PID control has a good suppression effect in the frequency range near the first order mode of the cantilever beam.
Highlights
Piezoelectric materials have been increasingly used as sensors and actuators for vibration control in many situations [1]
EXPERIMENTAL SETUP The suppression effectiveness of the piezoelectric selfsensing control system based on the mirror circuit and the proportion integration differentiation (PID) algorithm is verified through an experiment on a piezoelectric cantilever beam
In this work, an improved self-sensing technique for vibration suppression is presented for a piezoelectric cantilever beam
Summary
Piezoelectric materials have been increasingly used as sensors and actuators for vibration control in many situations [1]. INDEX TERMS Self-sensing actuator, piezoelectric cantilever beam, mirror circuit, PID algorithm, vibration suppression. Theoretical analysis proves that, as long as the PID control parameters are reasonably adjusted, and the transfer function of this link and the magnification of the mirror circuit meet a certain relationship, the external vibration of the cantilever beam can be suppressed even without the precise separation of sensing and driving signals in self-sensing drives.
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