P. Helin et al., THEORETICAL AND EXPERIMENTAL-STUDY OF LINEAR MOTORS USING SURFACE ACOUSTIC-WAVES, Sensors and actuators. A, Physical, 70(1-2), 1998, pp. 67-74
This paper presents the theory, simulation results and experimental st
udy of the slider displacement at nanometer scale in linear ultrasonic
motors using surface acoustic waves that can be used as microconveyor
s. To our knowledge, this is the first attempt to describe the energy
transfer from the acoustic wave to the slider in these motors. The mod
el shows that the mechanism is sequential with alternative phases of l
evitation and contact with step-like behavior of the slider velocity.
To validate the model, several microconveyors using Lamb and Rayleigh
waves are fabricated. These waves are generated from interdigital tran
sducers with, respectively, 10 and 20 MHz frequencies, which are the h
ighest in ultrasonic micromotors. The control of motion is obtained by
varying the duration of the driving signal applied across interdigita
l transducers. The measured displacement varies from several nanometer
s to several centimeters. Comparison between experimental and theoreti
cal results shows a good agreement. This model gives a quantitative de
scription of slider motion. In another way, it allows the deduction of
key parameters for energy transfer. As an example, a study of slider
contact shape is performed. (C) 1998 Elsevier Science S.A. All rights
reserved.