The authors present a low‐power area‐efficient subarray beamforming receiver (RX) structure for a miniaturized 3‐D ultrasound imaging system. Given that the delay‐and‐sum (DAS) and digitization functions consume most of the area and power in the receiver, the beamforming successive approximation register (SAR) analog‐to‐digital converter (ADC) shares its capacitive digital‐to‐analog converter (CDAC) with the delay cells. As a result, the delay cells implemented with capacitors are embedded in the CDAC with significant area reduction, further eliminating the need for power‐hungry ADC buffers. Furthermore, the dual reference 10‐bit SAR ADC reduces the area of CDAC by 32 times, achieving a switching energy reduction of 98.3%, compared to the conventional SAR ADC. As a result, the proposed beamforming SAR ADC, simulated using a 0.18 μm CMOS process, consumes 230 μW per channel, significantly reducing the per channel capacitance.
We present a low-power area-efficient subarray beamforming receiver (RX)
structure for a miniaturized 3-D ultrasound imaging system. Given that
the delay-and-sum (DAS) and digitization functions consume most of the
area and power in the receiver, the beamforming successive approximation
register (SAR) analog-to-digital converter (ADC) shares its capacitive
digital-to-analog converter (CDAC) with the delay cells. As a result,
the delay cells implemented with capacitors are embedded in the CDAC
with significant area reduction, further eliminating the need for
power-hungry ADC buffers. Furthermore, the dual reference 10-bit SAR ADC
reduces the area of CDAC by 32 times, achieving a switching energy
reduction of 98.3%, compared to the conventional SAR ADC. As a result,
the proposed beamforming SAR ADC, simulated using a 0.18 μm CMOS
process, consumes 230 μW per channel, significantly reducing the per
channel capacitance.
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