Title :
A High-Power Linear Ultrasonic Motor Using Bending Vibration Transducer
Author :
Yingxiang Liu ; Weishan Chen ; Junkao Liu ; XiaoHui Yang
Author_Institution :
State Key Lab. of Robot. & Syst., Harbin Inst. of Technol., Harbin, China
Abstract :
To overcome the modal degeneration problem that commonly exists in the design of ultrasonic motors (USMs) using composite vibration modes, a high-power linear USM using a bending vibration transducer is proposed in this paper. In this new design, two orthogonal bending vibration modes with the same order are superimposed in the motor and generate elliptical motions at the two driving feet. Square cross-section structure is adopted by the motor to ensure that the two bending modes have the same resonance frequency. After the introduction of the working principle, the motor is analyzed by using finite-element method. A prototype motor is fabricated and measured. Typical output of the prototype is a no-load speed of 1527 mm/s and a maximum thrust force of 50 N at a voltage of 200 Vrms. This study verifies the feasibility of the proposed design and provides a way to improve the output power of USMs.
Keywords :
bending; finite element analysis; linear motors; piezoelectric transducers; ultrasonic motors; vibrations; USM design; bending vibration transducer; elliptical motions; finite-element method; high-power linear USM; high-power linear ultrasonic motor; modal degeneration problem; orthogonal bending vibration modes; resonance frequency; square cross-section structure; velocity 1527 mm/s; voltage 200 V; Force; Prototypes; Resonant frequency; Shape; Stators; Transducers; Vibrations; Bending vibration transducer; modal degeneration; ultrasonic motor (USM); vibration characteristic;
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2012.2233691
