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This work presents the design, modeling and tests of the prototype multicell piezoelectric motor (MPM). A new concept of the electromechanical structure of the considered prototype is based on three rotating-mode actuators. The electromechanical structure of each actuator has been considered as an independent one - referred to as a "single cell" (single actuator). Combined three resonant actuators generate three traveling waves which as a result improve the stability and performance of the MPM. The results of research carried out using analytical, simulation and experimental methods cover the torque vs. speed characteristics of the prototype MPM.…mehr

Produktbeschreibung
This work presents the design, modeling and tests of the prototype multicell piezoelectric motor (MPM). A new concept of the electromechanical structure of the considered prototype is based on three rotating-mode actuators. The electromechanical structure of each actuator has been considered as an independent one - referred to as a "single cell" (single actuator). Combined three resonant actuators generate three traveling waves which as a result improve the stability and performance of the MPM. The results of research carried out using analytical, simulation and experimental methods cover the torque vs. speed characteristics of the prototype MPM.
Autorenporträt
Roland Ryndzionek received a PhD degree from Gdansk University of Technology and Institut National Polytechnique in 2015. From 2015 to 2017, he was a Posdoctoral Research Engineer in the SuperGrid Institute (Lyon, France) with the Power Electronics Group. He is with GUT since 2017, currently as an Assistant Professor.