Communications – electrical: acoustic wave systems and devices – Signal transducers
Patent
1993-06-15
1994-12-06
Eldred, J. Woodrow
Communications, electrical: acoustic wave systems and devices
Signal transducers
367150, 367152, 367157, 310320, 12866203, 12866301, H04R 1700
Patent
active
053717171
ABSTRACT:
An ultrasonic probe including one or more piezoelectric ceramic elements mounted on an acoustically damping support body. Desired acoustic signals are transmitted and received through a front portion of the probe while unwanted acoustic signals are dampened by the support body at the rear portion of the probe. The present invention generates and efficiently focusses a main lobe of a beam of the acoustic signals. Furthermore, the invention provides for apodization of the acoustic beam to reduce extraneous acoustic signals corresponding to side lobes of the acoustic beam. Each element has a respective rear face and a respective first piezoelectric ceramic layer integral therewith to provide efficient acoustic coupling between the element and the acoustically damping support body. The respective first piezoelectric layer of each element includes shallow grooves disposed on the respective rear face of each piezoelectric element. A groove volume fraction of the piezoelectric layer is selected to control acoustic impedance of the first piezoelectric layer. Apodization of the beam is effected by varying the groove volume fraction of the respective first layer along an acoustic aperture of each element in accordance with a suitable apodization function. In accordance with a focussing function, a groove volume fraction of a respective second piezoelectric layer integral with each element is varied along the acoustic aperture, thereby effecting focussing of the acoustic beam. Electrodes extend into and contact the grooves, imposing electrical boundary requirements that support a desired electrical field distribution within the element.
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Eldred J. Woodrow
Hewlett--Packard Company
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