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Simulation of capacitive micromachined ultrasonic transducers (cMUT) for low frequencies and silicon condenser microphones using an analytical model

机译：使用分析模型仿真低频和硅电容麦克风的电容微机械超声换能器（CMUT）

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Silicon micromachining is a promising approach to realize low frequency capacitive ultrasonic transducers and condenser microphones. The construction of micromachined low frequency capacitive ultrasonic transducers or microphones, respectively, differs considerably from that used for high frequency cMUTs. This paper presents an analytical model used for the simulation. The effects of different airgap geometry and backplate perforation on frequency response and sensitivity for transducers in the audible and ultrasonic frequency range will be shown. Finally optimization criteria are discussed considering the maximum receiving sensitivity and the resonance frequency shifting of the membrane due to the effect of the backvolume.

机译：硅片微机器是实现低频电容超声换能器和冷凝器麦克风的有希望的方法。分别构造微机械的低频电容超声换能器或麦克风的结构与高频CMUT使用的相比显着不同。本文介绍了用于模拟的分析模型。将显示不同气隙几何形状和背板穿孔对可听和超声波频率范围内换能器频率响应和敏感性的敏感性的影响。最后考虑到由于后倍的效果，考虑到膜的最大接收灵敏度和谐振频率偏移的最大优化标准。

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来源
《IEEE Symposium on Ultrasonics》|2003年||共4页
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作者
Junge S.; Tebje L.; Buhrdorf A.; Benecke W.;
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中图分类自动化技术、计算机技术;
关键词
silicon; elemental semiconductors; capacitive sensors; micromechanical devices; ultrasonic transducers; microphones; frequency response; capacitive micromachined ultrasonic transducers; silicon condenser microphones; silicon micromachining; low frequency capacitive ultrasonic transducers; airgap geometry; backplate perforation; transducers sensitivity; resonance frequency shifting; frequency response; Si;

机译：硅;元素半导体;电容式传感器;微机械设备;超声换能器;麦克风;频率响应;电容式微机械超声波换能器;硅片微机器;硅微加工;低频电容超声波换能器;气凝伤几何;背板穿孔;换能器敏感;谐振频率转移;频率响应;si;

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1. A Low-Power Wireless Multichannel Gas Sensing System Based on a Capacitive Micromachined Ultrasonic Transducer (CMUT) Array [J] . Seok Chunkyun, Mahmud Marzana Mantasha, Kumar Mohit, Internet of Things Journal, IEEE . 2019,第1期

机译：基于电容微机械超声换能器（CMUT）阵列的低功率无线多通道气体传感系统
2. Trapping, separating, and palpating microbead clusters in droplets and flows using capacitive micromachined ultrasonic transducers (CMUTs) [J] . Samarasekera Champika, Sun Jame G. W., Zheng Zhou, Sensors and Actuators . 2018,第DECa期

机译：使用电容微机械超声换能器（CMUT）捕获，分离和触碰液滴和流中的微珠簇
3. Low temperature capacitive micromachined ultrasonic transducers (cMUTs) on glass substrate [J] . Bahette E., Michaud J. F., Certon D., Journal of Micromechanics and Microengineering . 2016,第11期

机译：玻璃基板上的低温电容微加工超声换能器（cMUT）
4. Simulation of capacitive micromachined ultrasonic transducers (cMUT) for low frequencies and silicon condenser microphones using an analytical model [C] . Junge, S., Tebje, . 2003

机译：使用解析模型模拟低频电容式微加工超声换能器（cMUT）和硅电容传声器
5. Capacitive Micromachined Ultrasonic Transducers (CMUTs) on Glass Substrates for Next-Generation Medical Imaging and Beyond [D] . Zhang, Xiao. 2017

机译：电容式微机械超声波换能器（CMUT）在下一代医学成像和超越的玻璃基板上
6. Single-Shot Waterless Low-Profile Photoacoustic System: Near-Field Volumetric Imaging In Vivo for Blood Vessels Based on Capacitive Micromachined Ultrasonic Transducer (CMUT) [O] . Won Young Choi, Young Hun Kim, Hyeong Geun Jo, 2019

机译：单次发射无水薄型光声系统：基于电容微机械超声换能器（CMUT）的血管近场体内体积成像
7. Analytical Expressions for the Electromechanical Coupling Coefficient of Capacitive Micromachined Ultrasonic Transducers (CMUTs) and Its Effects on Power Consumption [O] . LI Zhikang, ZHAO Libo, LI Jie, 2020

机译：电容微机电超声换能器（CMUT）机电耦合系数的分析表达及其对功耗的影响

Simulation of capacitive micromachined ultrasonic transducers (cMUT) for low frequencies and silicon condenser microphones using an analytical model

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