Title :
Unit-delay focusing architecture and integrated-circuit implementation for high-frequency ultrasound
Author :
Talman, James R. ; Garverick, Steven L. ; Morton, Christine E. ; Lockwood, Geoffrey R.
Author_Institution :
Dept. of Biomed. Eng., Cleveland Clinic Found., OH, USA
Abstract :
High-frequency ultrasound (above 10 MHz) has been used successfully in many medical applications, including eye, skin, gastrointestinal, intravascular, and Doppler flow imaging. Most of these applications use single-element transducers, thereby imposing a tradeoff between resolution and depth of field. Fabrication difficulties and the need for high-speed electronic beamformers have prevented widespread use of arrays at high frequencies. In this paper, a unit-delay focusing architecture suitable for use with high-frequency ultrasound annular arrays is described. It uses a collection of identical, active delay cells that may be simultaneously varied to accomplish focusing. Results are presented for an analog integrated circuit intended for use with a five-element, 50-MHz planar annular array. Focusing is possible over an axial range for which the ratio of maximum to minimum f-number is 2.1. Unit-delay architectures also are described for curved annular arrays and linear arrays.
Keywords :
integrated circuits; ultrasonic transducer arrays; 10 MHz; 50 MHz; Doppler flow imaging; active delay cells; analog integrated circuit; curved annular arrays; high frequency ultrasound annular arrays; high speed electronic beamformers; high-frequency ultrasound; integrated-circuit implementation; linear arrays; medical applications; planar annular array; resolution; single element transducers; unit delay focusing architecture; Biomedical equipment; Biomedical transducers; Fabrication; Focusing; Gastrointestinal tract; High-resolution imaging; Medical services; Skin; Ultrasonic imaging; Ultrasonic transducers; Electronics; Equipment Failure Analysis; Image Enhancement; Miniaturization; Radio Waves; Semiconductors; Signal Processing, Computer-Assisted; Transducers; Ultrasonography;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
DOI :
10.1109/TUFFC.2003.1251129
