Title :
Annular multifrequency piezoelectric array for enhanced wideband ultrasonic response
Author :
Topete, J. ; Alvarez-Arenas, T.E.G.
Author_Institution :
Inst. for Phys. & Inf. Technol., Madrid, Spain
Abstract :
This paper presents the main results of a research carried out to achieve ultrasonic piezoelectric transducers with a bandwidth larger than that of present devices. The design is based on a kerfless multifrequency annular array, which is machined out of a 1-3 connectivity piezocomposite disk. The elements of the array are designed so that they present a different resonant frequency and the individual frequency bands of the elements overlap to furnish an overall response that approximate to the sum of the individual responses. A two elements array is presented: a central disk and a external ring with centre frequencies of 0.55 and 0.25 MHz, respectively. The transducer is designed for water immersion and is tested in pulse-echo. Bandwidth of the final design extends from 0.19 MHz up to 0.98 MHz, with a 6dB relative bandwidth close to 130%.
Keywords :
composite materials; piezoelectric materials; piezoelectric transducers; sensor arrays; ultrasonic transducers; annular multifrequency piezoelectric array; bandwidth 0.19 MHz to 0.98 MHz; enhanced wideband ultrasonic response; frequency 0.25 MHz; frequency 0.55 MHz; gain 6 dB; kerfless multifrequency annular array; piezocomposite disk; pulse-echo testing; resonant frequency band; ultrasonic piezoelectric transducer; water immersion; Acoustics; Arrays; Bandwidth; Impedance; Resonant frequency; Surface impedance; Transducers; annular array; multifrequency array; ultrasonic transducers; wide-band;
Conference_Titel :
SENSORS, 2014 IEEE
Conference_Location :
Valencia
DOI :
10.1109/ICSENS.2014.6984943
