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Piezoelectric sensors are designed in this work to power implantable medical devices (IMDs). A prosthetic hand is used as the IMD in this study. E, Π, and T piezoelectric structures… Click to show full abstract
Piezoelectric sensors are designed in this work to power implantable medical devices (IMDs). A prosthetic hand is used as the IMD in this study. E, Π, and T piezoelectric structures are designed using five ceramic (PZT-5H, PZT-4D, BaTiO3, ZnO, and GaAs) and five polymer (Hytrel 3078, polyetherimide [ULTEM 2100], polyoxymethylene [POM], polyvinylenedifluoride [PVDF, Kynar 710], and Elvax 260) materials. Further analysis is carried out using square and rectangular-shape proof masses under different load conditions. This study aims to determine the maximum power that can be used from the piezoelectric harvester to supply energy to a medical device, such as the prosthetic hand. Structure and material analyses showed that the maximum power generated by the E structure using ceramic material (PZT-5H) with rectangular-shape proof mass ensures the efficient powering of the IMD. The simulation is carried out using COMSOL Multiphysics 5.3a software.
Journal Title: Journal of Mechanical Science and Technology
Year Published: 2021
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