6533b7d6fe1ef96bd1265dd5

RESEARCH PRODUCT

Dissipation in suspension system augmented by piezoelectric stack: port-Hamiltonian approach

Rafael TavaresMichael Ruderman

subject

0301 basic medicinePhysicsFrequency responseDissipationActive suspension03 medical and health sciences030104 developmental biology0302 clinical medicineStack (abstract data type)Control theoryDissipative systemSprung massSuspension (vehicle)Energy harvesting030217 neurology & neurosurgery

description

Analysis of damping in semi-active and active suspension systems is prerequisite for an advanced control and, eventually, energy harvesting functions. This paper addresses the damping in suspension system augmented by the piezoelectric (PE) stack. The Hamiltonian system approach with port-power modeling of single subsystems is used for describing and studying the dissipative properties of piezoelectric stack element, integrated in series with a standard quarter-car suspension. The slightly improved, compared to the underlying passive suspension system, frequency response of the sprung mass acceleration is demonstrated. Moreover, the overall power flow in the system, caused by the disturbing road profile, and the dissipated power due to PE-augmented suspension are analyzed and discussed in detail. The results of dissipation analysis provide helpful tools for further developments towards PE-based energy harvesting.

yearjournalcountryeditionlanguage
2020-09-012020 28th Mediterranean Conference on Control and Automation (MED)
https://doi.org/10.1109/med48518.2020.9183317