Studying the Effects of Mutual Acoustic Impedance on the Performance of Polymer-Based CMUTs

Martin Angerer;Jonas Welsch;Carlos D. Gerardo;Nicole V. Ruiter;Edmond Cretu;Robert Rohling
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Abstract

The objective of this work was to investigate changes in the acoustic characteristics of micromachined transducers caused by acoustic cross-coupling between cells. We used hexagonal, polymer-based capacitive micromachined ultrasonic transducers (polyCMUTs) consisting of 127 cells connected in parallel. The distances between the cells were varied, while the cell dimensions and number of cells remained constant. The resulting changes in characteristics were evaluated in terms of peak frequency $f_{pk}$ , fractional bandwidth $FBW$ , peak transmit sensitivity $S_{pk}$ and opening angle $\Phi _{t}$ . The study relies on results from an analytic multicell model (MCM) which considers cross-coupling effects between cells through a mutual acoustic impedance matrix. The results are compared with finite element (FE) analyses and measurements on fabricated prototypes. The manufacturing processes used to produce the polyCMUT prototypes are explained in detail. We found significant changes in all acoustic characteristics: as cell spacing increases, $f_{pk}$ and $\Phi _{t}$ decrease, while $S_{pk}$ gradually rises to about twice the initial value. The $FBW$ varies due to the change in $f_{pk}$ , peaking at small to intermediate cell-to-cell distances. While both modeling approaches cover the general effects, discrepancies in comparison to the measurements were identified. The FE model provided better fits than the analytic MCM, albeit at significantly higher computational costs. The effects on the acoustic characteristics were found strongest at lower frequencies and if many cells are in close proximity to each other. Hence, rotational symmetric or square transducers operating at lower frequencies are affected most. The results demonstrate that design approaches based on modeling single cells may lead to significant deviations from design goals. Both, analytic and FE models are suitable tools to estimate the effects of acoustic interactions and to predict the performance. This aids in meeting design requirements of micromachined ultrasound transducers consisting of multiple radiators.
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研究互声阻抗对聚合物基 CMUT 性能的影响
这项工作的目的是研究微机械换能器的声学特性因单元间的声学交叉耦合而发生的变化。我们使用的是六边形聚合物电容式微机械超声波传感器(polyCMUT),由 127 个并联单元组成。单元之间的距离可以改变,而单元的尺寸和数量保持不变。所产生的特性变化通过峰值频率 $f_{pk}$、分数带宽 $FBW$、峰值传输灵敏度 $S_{pk}$ 和开口角 $\Phi _{t}$ 进行评估。研究依赖于多单元分析模型 (MCM) 的结果,该模型通过相互声阻抗矩阵考虑了单元之间的交叉耦合效应。研究结果与有限元 (FE) 分析和对制造原型的测量结果进行了比较。我们还详细解释了用于生产 polyCMUT 原型的制造工艺。我们发现所有声学特性都发生了明显的变化:随着单元间距的增加,$f_{pk}$ 和 $\Phi _{t}$ 下降,而 $S_{pk}$ 逐渐上升到初始值的两倍左右。由于 $f_{pk}$ 的变化,$FBW$ 也随之变化,在较小到中等细胞间距时达到峰值。虽然两种建模方法都涵盖了一般效应,但还是发现了与测量结果之间的差异。FE 模型比分析 MCM 的拟合效果更好,尽管计算成本要高得多。在频率较低、许多单元相互靠近的情况下,对声学特性的影响最大。因此,工作频率较低的旋转对称或方形换能器受到的影响最大。结果表明,基于单细胞建模的设计方法可能会导致与设计目标的重大偏差。分析模型和 FE 模型都是估计声学相互作用影响和预测性能的合适工具。这有助于满足由多个辐射器组成的微机械超声换能器的设计要求。
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