Title :
Crossed-array transducer for real-time 3D imaging
Author :
Joyce, Andrew W. ; Lockwood, Geoffrey R.
Author_Institution :
Dept. of Phys., Eng. Phys. & Astron., Queen´s Univ., Kingston, ON, Canada
Abstract :
A crossed-array transducer for real-time three-dimensional imaging has been developed along with an accompanying transmit pulser and beamforming system. The system incorporates novel design features that address the unique constraints and requirements imposed by the crossed-array construction. These developments include a 1-3 composite with radially apodized polarization; a bipolar ±100V pulser with variable frequency and delay control, and a low-impedance ground in the off-state; and a transmit beamformer with a computer interface to monitor and control the system. Experimental results demonstrate the system to have a 3dB beamwidth of 2mm at 60mm depth (f/1.4) and 4mm at 80mm depth (f/1.8). The beam-shape has excellent confinement along the focused axis, and the defocused orthogonal plane reaches a maximum intensity drop of 6dB over a 45° sector.
Keywords :
acoustic imaging; acoustic transducer arrays; beam-shape; beamforming system; computer interface; crossed-array construction; crossed-array transducer; defocused orthogonal plane; depth 60 mm; depth 80 mm; focused axis; low-impedance ground; radially apodized polarization; real-time 3D imaging; real-time three-dimensional imaging; transmit beamformer; Acoustics; Apertures; Arrays; Ceramics; Imaging; Real-time systems; Transducers; crossed array transducer; high-voltage pulser; radiation pattern; variable polarized piezocomposite; volumetric imaging;
Conference_Titel :
Ultrasonics Symposium (IUS), 2014 IEEE International
Conference_Location :
Chicago, IL
DOI :
10.1109/ULTSYM.2014.0527
