FPGA based digital high frequency beamformers for arrays [ultrasonic eye imaging applications]

We have developed two digital beamformers for eye imaging using 30-50 MHz transducer arrays: a 6-channel digital beamformer for a six-ring annular array ultrasound transducer (43 MHz) and a 16-channel digital beamformer for a linear array ultrasound transducer (30 MHz) of 48-64 elements. The hardwar...

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Bibliographic Details
Main Authors: Chang-hong Hu, Snook, K.A., Xiao-chen Xu, Yen, J.T., Shung, K.K., Pie-jie Cao
Format: Conference Proceeding
Language:English
Subjects:
Apertures
Delay
Field programmable gate arrays
Finite impulse response filter
Focusing
Frequency
Ultrasonic imaging
Ultrasonic transducer arrays
Ultrasonic transducers
Wire
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Summary:We have developed two digital beamformers for eye imaging using 30-50 MHz transducer arrays: a 6-channel digital beamformer for a six-ring annular array ultrasound transducer (43 MHz) and a 16-channel digital beamformer for a linear array ultrasound transducer (30 MHz) of 48-64 elements. The hardware allows the flexibility for multiple transmit focusing, dynamic receive focusing, amplitude apodization, and dynamic aperture control. Individual channel delays are applied using a combination of coarse and fine delays. The coarse delays are integer multiples of the clock periods achieved by using a FIFO structure, and the fine delays are applied with interpolation of a 4-tap fractional delay (FD) FIR filter. The dynamic receive focusing is implemented based on a state machine which updates delay values and the FD filter coefficients according to the depth of the echoes. The aperture apodization is set according to the focusing zone. Cross-sectional wire target images, using a 20 /spl mu/m diameter wire, from both arrays are shown. The images of an excised pig eye clearly show the fine structures of the anterior segment, including cornea and lens.
ISSN:1051-0117
DOI:10.1109/ULTSYM.2004.1418043