Title :
Design and characterization of a PVDF ultrasonic range sensor
Author :
Fiorillo, Antonino S.
Author_Institution :
Dept. of Electron. Eng., Salerno Univ., Italy
Abstract :
An ultrasonic sensor for in-air applications has been fabricated using ferroelectric polymer technology. The proximity sensor, designed to be incorporated into a multiple sensing robotic gripper, consists of two unimodal transducers, a transmitter, and a receiver and is obtained by curving a strip of 40- mu m-thick polyvinylidene fluoride. The transducers have a resonance frequency of 63.5 kHz, a quality factor Q approximately equal to 12 and a transverse piezoelectric coupling coefficient k/sub 31/ of 0.29. The maximum detectable distance is 300 mm, with an axial resolution of about 3 mm. Furthermore transducers resonating at 380 kHz, which operate at a maximum distance of 100 mm with a resolution of 2 mm can be fabricated by using the same technique. Features and performance of both transmitter and receiver are discussed, together with the echo acquisition and the preprocessing electronic unit.<>
Keywords :
distance measurement; ferroelectric materials; manipulators; polymer films; ultrasonic applications; ultrasonic measurement; ultrasonic transducers; 100 mm; 300 mm; 380 kHz; 40 micron; 63.5 kHz; PVDF ultrasonic range sensor; axial resolution; characterization; design; ferroelectric polymer technology; in-air applications; multiple sensing robotic gripper; performance; polyvinylidene fluoride; preprocessing electronic unit; proximity sensor; receiver; resonance frequency; transmitter; ultrasonic sensor; unimodal transducers; Ferroelectric materials; Grippers; Piezoelectric transducers; Polymers; Resonance; Robot sensing systems; Sensor phenomena and characterization; Strips; Transmitters; Ultrasonic transducers;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
