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24.8 An analog-digital-hybrid single-chip RX beamformer with non-uniform sampling for 2D-CMUT ultrasound imaging to achieve wide dynamic range of delay and small chip area

机译：24.8具有用于2D-CMUT超声成像的非均匀采样的模拟数字混合单芯片RX波束形成器，可实现宽动态范围的延迟和较小的芯片面积

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Ultrasound imaging is widely used for medical diagnosis, because it is harmless to the human body and has real-time processing capability. Usually the focusing (beamforming) operation is performed for both TX and RX. The RX focusing is performed by an RX beamformer [1-5], which consists of delay elements and adders. Nowadays, digital beamformers (DBF) are mostly used for conventional ultrasound imaging because of high SNR. Recently, 2D ultrasound transducers have been introduced for 3D imaging. Since the 2D transducer has a huge number of transducer elements (e.g., 9216 for a 72×128 array), it cannot use DBF because of the huge number of required ADCs and wires inside the probe cable. Therefore, analog beamforming must be performed, at least at the front stage of the 2D transducer.

机译：超声波成像由于对人体无害且具有实时处理能力，因此被广泛用于医学诊断。通常，对TX和RX都执行聚焦（波束成形）操作。 RX聚焦由RX波束形成器[1-5]执行，该波束形成器由延迟元件和加法器组成。如今，由于高SNR，数字波束形成器（DBF）大多用于常规超声成像。最近，已引入2D超声换能器进行3D成像。由于2D换能器具有大量换能器元件（例如72×128阵列为9216），因此无法使用DBF，因为探针电缆内部需要大量ADC和电线。因此，必须至少在2D换能器的前端执行模拟波束成形。

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《IEEE International Solid-State Circuits Conference》|2014年|426-427|共2页
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Um Ji-Yong; Song Eun-Woo; Kim Yoon-Jee; Cho Seong-Eun;
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1. A Single-Chip 64-Channel Ultrasound RX-Beamformer Including Analog Front-End and an LUT for Non-Uniform ADC-Sample-Clock Generation [J] . IEEE transactions on biomedical circuits and systems . 2017,第1期

机译：具有模拟前端和LUT的单芯片64通道超声RX波束形成器，用于非均匀ADC采样时钟生成
2. A Single-Chip 32-Channel Analog Beamformer With 4-ns Delay Resolution and 768-ns Maximum Delay Range for Ultrasound Medical Imaging With a Linear Array Transducer [J] . Um J.-Y., Kim Y.-J., Cho S.-E., Biomedical Circuits and Systems, IEEE Transactions on . 2015,第1期

机译：具有4 ns延迟分辨率和768 ns最大延迟范围的单芯片32通道模拟波束形成器，用于带有线性阵列换能器的超声医学成像
3. An Analog-Digital Hybrid RX Beamformer Chip With Non-Uniform Sampling for Ultrasound Medical Imaging With 2D CMUT Array [J] . Um J.-Y., Kim Y.-J., Cho S.-E., Biomedical Circuits and Systems, IEEE Transactions on . 2014,第6期

机译：具有非均匀采样的模数混合RX波束形成器芯片，用于二维CMUT阵列的超声医学成像
4. 24.8 An analog-digital-hybrid single-chip RX beamformer with non-uniform sampling for 2D-CMUT ultrasound imaging to achieve wide dynamic range of delay and small chip area [C] . Um Ji-Yong, Song Eun-Woo, Kim Yoon-Jee, IEEE International Solid-State Circuits Conference . 2014

机译：24.8模拟数量混合单芯片RX波束形成器，具有非均匀采样，用于2D-CMUT超声成像，实现宽动态的延迟和小芯片区域
5. A low-voltage CMOS imager with wide dynamic range. [D] . Fortier, Justin L. 2002

机译：具有宽动态范围的低压CMOS成像器。
6. Lag-Based Filtered-Delay Multiply and Sum Beamformer Combined with Two Phase-Related Factors for Medical Ultrasound Imaging [O] . Ke Song, Paul Liu, Dong C. Liu 2020

机译：基于滞后的滤波延迟乘法和总和波束形成器与医疗超声成像的两个相位相关因素相结合
7. Single-Chip Wavelength Conversion Using a Photocurrent-Driven EAM Integrated With a Widely Tunable Sampled-Grating DBR Laser [O] . M.N. Sysak, J.S. Barton, L.A. Johansson, 2004

机译：使用光电流驱动的EA次的单芯片波长转换与广泛的可调采样光栅DBR激光器集成

24.8 An analog-digital-hybrid single-chip RX beamformer with non-uniform sampling for 2D-CMUT ultrasound imaging to achieve wide dynamic range of delay and small chip area

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