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题名: Micro-electro-mechanical systems capacitive ultrasonic transducer with a higher electromechanical coupling coefficient
作者: Miao, J(苗静); Shen, WJ(沈文江); He, CD; Xue, CY; Xiong, JJ
通讯作者: Miao, J
关键词: silicon ; elemental semiconductors ; silicon-on-insulator ; wafer bonding ; electromechanical effects ; ultrasonic transducers ; capacitive transducers ; micromechanical devices ; micromachining ; vibrations ; membranes ; finite element analysis ; reliability ; capacitance ; electromechanical coupling coefficient ; capacitive micromachined ultrasonic transducer ; impedance matching ; propagation medium ; microelectromechanical system capacitive ultrasonic transducer ; silicon on insulator ; wafer bonding ; optimum geometric dimensions ; membrane mechanical vibration ; electrical characteristics ; finite-element analysis ; operation mode ; device safety ; device reliability ; equivalent stress ; operation-collapse voltage ; bottom electrodes ; glass substrate surface ; parallel parasitic capacitance ; Si ; SiO2
刊名: Micro & Nano Letters
发表日期: 2015
DOI: 10.1049/mnl.2015.0186
卷: 10, 期:10, 页:4
收录类别: SCI
部门归属: 纳米器件及相关材料研究部
英文摘要: Since the proposing of capacitive micromachined ultrasonic transducer by Khuri Yakub group in 1994 that this kind of transducer occupying the advantages of wide bandwidth, impedance matching well with the propagation medium especially in fluid and air and high sensitivity, has shown a great potential for wide ranges of applications. This Letter reports kind of micro-electro-mechanical systems (MEMS) capacitive ultrasonic transducer with the novel cavities embedded in the device layer of silicon on insulator wafer bonded with a glass substrate. The optimum geometric dimensions are confirmed by both mechanical vibrating of the membrane and the electrical characteristics analysis. Finite-element analysis is adopted to determine the operation mode. The safety and reliability of the proposed device is ensured by the obtained deflections and equivalent stress under operation/collapse voltage. The bottom electrodes of the proposed transducer are fabricated on the top surface of the glass substrate. The parallel parasitic capacitance is reduced, thus improving the electromechanical coupling coefficient. The test results show that the electromechanical coupling coefficient is 69.65%, which demonstrates that this proposed MEMS capacitive ultrasonic transducer structure can enhance the performance significantly.
语种: 英语
JCR小类分区: 四区
Citation statistics:
内容类型: 期刊论文
URI标识: http://ir.sinano.ac.cn/handle/332007/3295
Appears in Collections:纳米器件及相关材料研究部_沈文江团队_期刊论文

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Recommended Citation:
Miao, J,Shen, WJ,He, CD,et al. Micro-electro-mechanical systems capacitive ultrasonic transducer with a higher electromechanical coupling coefficient[J]. Micro & Nano Letters,2015,10(10):4.
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