A Bipolar-Biased Differential CMOS-MEMS CMUT

2024 IEEE 37th International Conference on Micro Electro Mechanical Systems (MEMS) Pub Date : 2024-01-21 DOI:10.1109/MEMS58180.2024.10439306

Po-Chun Chen, Yu-Cheng Lin, Hung-Yu Chen, Sheng-Shian Li, Ming-Huang Li

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Abstract

This paper presents, for the first time, a monolithic differential capacitive micromachined ultrasound transducer (CMUT) receiver (RX) front-end based on CMOS-MEMS technology that exploits bipolar DC-biasing technique. By applying positive and negative (a.k.a. “bipolar”) dc bias voltages to distinct CMUTs in an array, the pressure-induced out-of-phase motional currents can be desirably formed and sourced out from individual membranes according to the corresponding bias polarity, hence providing a device-level differential operation. To enhance the electrostatic transduction efficiency, a Capacitor-Top-Metal (CTM) etching technique is developed for CMUT fabrication, yielding an effective capacitive transduction gap of only 470 nm. A fully-differential transimpedance amplifier (TIA) and a time-gain compensation (TGC) variable gain stage are also integrated on-chip to form an analog RX prototype and consume merely 0.54 mW. The proposed differential CMUT RX occupies a transducer area of 0.0625 mm2 and can be operated at a low bipolar-bias of ± 5V, showing a center frequency of 1.69 MHz, a 66% fractional bandwidth (FBW), and a sensitivity of 1.14 mV/kPa immersed in water. The proposed differential CMUT RX is implemented in TSMC 0.18 μm standard CMOS.

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双极偏压差分 CMOS-MEMS CMUT

本文首次提出了一种基于 CMOS-MEMS 技术、利用双极直流偏压技术的单片差分电容式微机械超声换能器（CMUT）接收器（RX）前端。通过对阵列中不同的 CMUT 施加正负（又称 "双极"）直流偏置电压，可根据相应的偏置极性形成压力诱导的异相运动电流，并从各个膜片中输出，从而提供器件级的差分操作。为提高静电跨导效率，开发了一种用于 CMUT 制造的电容-顶层金属（CTM）蚀刻技术，其有效电容跨导间隙仅为 470 nm。片上还集成了一个全差分跨阻抗放大器（TIA）和一个时间增益补偿（TGC）可变增益级，形成一个模拟 RX 原型，功耗仅为 0.54 mW。拟议的差分 CMUT RX 占用 0.0625 mm2 的传感器面积，可在 ± 5V 的低双极偏压下工作，中心频率为 1.69 MHz，分数带宽 (FBW) 为 66%，浸入水中的灵敏度为 1.14 mV/kPa。拟议的差分 CMUT RX 采用 TSMC 0.18 μm 标准 CMOS 实现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2024 IEEE 37th International Conference on Micro Electro Mechanical Systems (MEMS)

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