Efficient strategy for frequency design and bandwidth extension of curved piezoelectric ultrasonic micromachined transducers

IF 2.4 4区 工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of Micromechanics and Microengineering Pub Date : 2024-08-07 DOI:10.1088/1361-6439/ad690d
Hao Li, Xiaofan Hu, Xingli Xu, Yongquan Ma, Chenyang Yu, Wei Wei and Pengfei Niu
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Abstract

This article proposes an efficient analytical model and strategy for designing curved piezoelectric micromachined ultrasonic transducers (curved PMUTs). The model is developed based on the Donnell–Mushtari–Vlasov theory and the equivalent single layer method, and validated through finite element analysis. Utilizing the model, we further analyze the diaphragm’s vibration modes and key design parameters. The proposed strategy is centered on 2 design equations, facilitating the rapid design of devices at any frequency through parametric sweeps. Furthermore, to minimize bandwidth loss, we employ the merging of adjacent vibration modes to broaden the bandwidth. Using the proposed method for modes merging, we have effortlessly designed devices with operating frequencies of 2.15 MHz, 6.3 MHz, 10.65 MHz, and 18.75 MHz in water. For comparison, we also designed planar PMUTs and general curved PMUTs operating around 6 MHz and 15 MHz. Compared to planar PMUTs, curved PMUTs show exceptional performance improvements in output pressure and sensitivity. Moreover, the proposed strategy for bandwidth extension results in 1.33× and 1.25× bandwidth improvements around 6 MHz and 15 MHz. The proposed design methodology is anticipated to assist engineers in designing high-performance PMUT arrays more efficiently and systematically.
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曲面压电超声波微机械换能器频率设计和带宽扩展的高效策略
本文提出了一种设计曲面压电微机械超声换能器(曲面 PMUT)的高效分析模型和策略。该模型基于 Donnell-Mushtari-Vlasov 理论和等效单层法建立,并通过有限元分析进行了验证。利用该模型,我们进一步分析了膜片的振动模式和关键设计参数。所提出的策略以 2 个设计方程为中心,通过参数扫描,可在任何频率下快速设计器件。此外,为了尽量减少带宽损失,我们采用了合并相邻振动模式的方法来拓宽带宽。利用所提出的模式合并方法,我们毫不费力地设计出了工作频率分别为 2.15 MHz、6.3 MHz、10.65 MHz 和 18.75 MHz 的水中装置。为了进行比较,我们还设计了工作频率为 6 MHz 和 15 MHz 的平面 PMUT 和一般曲面 PMUT。与平面 PMUT 相比,弧形 PMUT 在输出压力和灵敏度方面表现出卓越的性能改进。此外,所提出的带宽扩展策略使 6 MHz 和 15 MHz 的带宽分别提高了 1.33 倍和 1.25 倍。预计所提出的设计方法将有助于工程师更高效、更系统地设计高性能 PMUT 阵列。
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来源期刊
Journal of Micromechanics and Microengineering
Journal of Micromechanics and Microengineering 工程技术-材料科学:综合
CiteScore
4.50
自引率
4.30%
发文量
136
审稿时长
2.8 months
期刊介绍: Journal of Micromechanics and Microengineering (JMM) primarily covers experimental work, however relevant modelling papers are considered where supported by experimental data. The journal is focussed on all aspects of: -nano- and micro- mechanical systems -nano- and micro- electomechanical systems -nano- and micro- electrical and mechatronic systems -nano- and micro- engineering -nano- and micro- scale science Please note that we do not publish materials papers with no obvious application or link to nano- or micro-engineering. Below are some examples of the topics that are included within the scope of the journal: -MEMS and NEMS: Including sensors, optical MEMS/NEMS, RF MEMS/NEMS, etc. -Fabrication techniques and manufacturing: Including micromachining, etching, lithography, deposition, patterning, self-assembly, 3d printing, inkjet printing. -Packaging and Integration technologies. -Materials, testing, and reliability. -Micro- and nano-fluidics: Including optofluidics, acoustofluidics, droplets, microreactors, organ-on-a-chip. -Lab-on-a-chip and micro- and nano-total analysis systems. -Biomedical systems and devices: Including bio MEMS, biosensors, assays, organ-on-a-chip, drug delivery, cells, biointerfaces. -Energy and power: Including power MEMS/NEMS, energy harvesters, actuators, microbatteries. -Electronics: Including flexible electronics, wearable electronics, interface electronics. -Optical systems. -Robotics.
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