Fully Integrated Electronic-Photonic Ultrasound Receiver Array for Endoscopic Imaging Applications in a Zero-Change 45nm CMOS-SOI Process

2021 Symposium on VLSI Circuits Pub Date : 2021-06-13 DOI:10.23919/VLSICircuits52068.2021.9492412
P. Zarkos, S. Buchbinder, C. Adamopoulos, Sarika Madhvapathy, Olivia Hsu, J. Whinnery, Pavan Bhargava, V. Stojanović
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引用次数: 2

Abstract

This paper presents the first fully integrated 2-D array of electronic-photonic ultrasound sensors targeting low-power miniaturized ultrasound probes for endoscopic applications. Fabricated in a zero-change 45nm CMOS-SOI technology this Electronic-Photonic System on Chip (EPSoC), utilizes micro-ring resonators (MRRs) as ultrasound sensors instead of the traditional piezoelectric or capacitive micromachined transducers (PMUTs or CMUTs). The photonic nature of the sensor enables remoting the power-hungry receive electronics outside the probe tip, lowering the power dissipation inside the human body, eliminates the electrical cabling and reduces fiber count by 4x using wavelength division multiplexed (WDM) MRR sensors coupled onto the same waveguide. The photonic sensing element demonstrates >30 MHz bandwidth, and 7.3 mV/kPa sensitivity, while consuming 0.43 mW of power.
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在零变化45纳米CMOS-SOI工艺中用于内窥镜成像的完全集成电子-光子超声接收器阵列
本文介绍了第一个完全集成的二维电子-光子超声传感器阵列,目标是用于内窥镜应用的低功耗小型化超声探头。该电子-光子片上系统(EPSoC)采用零变化45nm CMOS-SOI技术制造,利用微环谐振器(mrr)代替传统的压电或电容式微机械换能器(PMUTs或CMUTs)作为超声传感器。该传感器的光子特性使其能够将耗电的接收电子设备移至探头尖端之外,降低人体内部的功耗,消除了电缆,并使用耦合在同一波导上的波分复用(WDM) MRR传感器将光纤数量减少了4倍。该光子传感元件带宽>30 MHz,灵敏度为7.3 mV/kPa,功耗为0.43 mW。
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2021 Symposium on VLSI Circuits
2021 Symposium on VLSI Circuits
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