Litcius/Paper detail

A ring-shaped, linear piezoelectric ultrasonic motor operating in <i>E01</i> mode

Xudong Xin, Xiangyu Gao, Jingen Wu, Zhanmiao Li, Zhaoqiang Chu, Shuxiang Dong

2020Applied Physics Letters27 citationsDOI

Abstract

Linear piezoelectric ultrasonic motors based on multimodal coupling are widely used for generating precision actuations; however, multimodal decoupling often occurs when environment temperature changes, which may result in actuation failure. In this work, a miniature, ring-shaped, linear piezoelectric ultrasonic motor operating in a single, in-plane E01 mode (zero node line along the circumference and one node line along the diameter direction) is proposed. Experimental results show that it can produce a maximum driving force of 2.7 N, a no-load moving speed of ∼56 mm/s, and a high positioning resolution of 0.1 μm in open-loop control. Advantages of simple structure, controllable micrometer-scale displacement, and large bidirectional working stroke indicate that the proposed linear motor has great potential for industrial applications, especially for precise actuations.

Topics & Concepts

Ultrasonic motorDecoupling (probability)Linear motorPiezoelectricityPiezoelectric motorAcousticsDisplacement (psychology)Ultrasonic sensorMaterials scienceNode (physics)Computer sciencePhysicsMechanical engineeringEngineeringControl engineeringPsychologyPsychotherapistPiezoelectric Actuators and ControlFerroelectric and Piezoelectric MaterialsDielectric materials and actuators