Equivalent Circuit Analysis of CMUTs-based Device for Measurement in Liquid Samples

2021 IEEE International Symposium on Medical Measurements and Applications (MeMeA) Pub Date : 2021-06-23 DOI:10.1109/MeMeA52024.2021.9478722

Yihe Zhao, Libo Zhao, Gian Luca Barbruni, Zhikang Li, Zhuangde Jiang, S. Carrara

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引用次数: 1

Abstract

Capacitive micromachined ultrasonic transducers (CMUTs) operating at the series and parallel resonant frequencies, have shown a great potential in ultrasonic application and in biodetection. However, previous equivalent circuits rarely consider the fitting performance and measurement. This study proposes the establishment of the simplified equivalent circuits for the CMUTs-based device to analyze the electrical properties and the measurement sensitivity in liquid environment. We simulate a circular CMUT cell both in air and water through finite element method via COMSOL software, exploiting the multi-domain coupling method. We analyze the impedance behaviors of the CMUTs array with 100 cells under different direct current bias voltages (2 - 10V). Simultaneously, we successfully investigate the damping effects on the electrical characteristics such as impedance, phase, and quality factor. With the 4-element Butterworth-vanDyke model, two simplified equivalent lumped element models (LEMs) are demonstrated to fit the impedance curves of the CMUTs array around the series and parallel frequencies, respectively. Additionally, the sensitivity is evaluated using the simplified equivalent LEMs to explore the CMUTs array has a high normalized measurement sensitivity of 6.024 ppb/Hz at the parallel frequency.

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基于cmuts的液体样品测量装置的等效电路分析

电容式微机械超声换能器(CMUTs)工作在串联和并联谐振频率下，在超声和生物检测方面显示出巨大的应用潜力。然而，以往的等效电路很少考虑拟合性能和测量。本研究提出建立基于cmuts器件的简化等效电路，分析其在液体环境下的电学特性和测量灵敏度。利用COMSOL软件，利用多域耦合方法，对空气和水中的圆形CMUT单元进行了有限元模拟。在直流偏置电压(2 ~ 10V)不同的情况下，分析了100单元CMUTs阵列的阻抗行为。同时，我们成功地研究了阻尼对阻抗、相位和品质因子等电特性的影响。利用4元Butterworth-vanDyke模型，给出了两种简化的等效集总单元模型(lem)，分别在串联和并联频率处拟合cmut阵列的阻抗曲线。此外，使用简化等效lem对灵敏度进行了评估，发现cmut阵列在并联频率下具有较高的归一化测量灵敏度，为6.024 ppb/Hz。

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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2021 IEEE International Symposium on Medical Measurements and Applications (MeMeA)

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