欢迎您!东篱公司
退出
-
申报数据库
-
立项数据库
-
成果数据库
-
项目获奖数据库
中文摘要:
针对目前电容超声传感器多采用表面工艺制备,存在振膜应力大、厚度均匀性控制差且表面需要沉积分立电极而造成传感器灵敏度低、归一化位移小、频率易偏差的缺点,提出基于硅晶圆键合工艺的MEMS电容超声传感器。采用应力小、厚度均匀的SOI顶层硅作为敏感单元的一体化全振微传感薄膜,无需沉积分立电极,易于加工且频率偏差小。通过下电极的区域化定义及巧妙互联,避免了非活跃区的寄生电容。通过ANSYS及MATLAB对所设计的5种工作频率在124 kHz~484 kHz之间、满足水下成像需求的传感器结构进行性能分析,表明传感器的电容变化量为650.62 fF/Pa~10.827 fF/Pa,满足现有条件的信号检测,输出电压灵敏度可达1.700 mV/Pa。与同频率指标的传统基于牺牲工艺而制备的金属-氮化膜堆栈结构对比表明,本结构频率可预测性高,偏差仅为0.0535%;振膜变形更均匀,归一化位移提高0.0432%以上;灵敏度平均提高11.9249 dB。
英文摘要:
In view of the low sensitivity, small normalized displacement and frequency deviation caused by the high stress, nonuniformities of the vibration membrane and deposition of separate metal film in current process, this paper presents a novel structure for MEMS capacitive ultrasonic transducers based on the fabrication process of wafer bonding technology. The structure consists of the integration vibration membrane, which make full use of the well- known material properties of single-crystal in the device layer of SOI( low intrinsic stress, good uniformity, simple fab- rication), that no extra separate metal film is required thus the fabrication is simple and the frequency is reliable. Via the definition of the local bottom electrode and ingenious connection, the parasitic capacitance is reduced. Five kinds of the devices are designed with the working frequency at 124 kHz -484 kHz that can be fabricated in the same wafer and work underwater. The capacitor variation is 650.62 fF/Pa - 10. 827 fF/Pa and the output voltage sensitivity can be 1. 700 mV/Pa through the analysis of Ansys and Matlab. By the comparison with the traditional metal-nitriding membrane stack structure with the same working frequency,we can see that the novel transducer has a more reliable frequency with the error of 0.0535% ,and a better uniformity of the deflection with the improvement of 0. 0432% in normalized displacement. Above all ,the sensitivity increases 11. 9249 dB in average.
同期刊论文项目
同项目期刊论文
“Lollipop-shaped” High-sensitivity Microelectromechanical Systems Vector Hydrophone Based on Parylen
New Research on MEMS Acoustic Vector Sensors Used in Pipeline Ground MarkersNew Research on MEMS Aco
A Novel Arch-Shape Nanogenerator Based on Piezoelectric and Triboelectric Mechanism for Mechanical E
Design and performance analysis of capacitive micromachined ultrasonic transducer (CMUT) array for u
Design and test of a capacitance detection circuit based on a transimpedance amplifier.Journal of Se
Micro-electro-mechanical Systems Capacitive Ultrasonic Transducer with A Higher Electromechanical Co
位置: