期刊
MICROMACHINES
卷 11, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/mi11111022
关键词
resonant pressure microsensor; silicon-on-glass cap; temperature compensation; polynomial fitting
类别
资金
- National Key Research and Development Program [2018YFB2002302, 2018YFF01010400]
- National Natural Science Foundation of China [61825107, U1930206]
This paper presents the analysis and characterization of a resonant pressure microsensor, which employs a temperature compensation method based on differential outputs and a temperature sensor. Leveraging a silicon-on-insulator (SOI) wafer, this microsensor mainly consists of a pressure-sensitive diagram and two resonant beams (electromagnetic driving and electromagnetic induction) to produce a differential output. The resonators were vacuum packaged with a silicon-on-glass (SOG) cap using anodic bonding and the wire interconnection was realized by sputtering an Au film on highly topographic surfaces using a hard mask. After the fabrication of the resonant pressure microsensor, systematic experiments demonstrated that the pressure sensitivity of the presented microsensor was about 0.33 kPa/Hz. Utilizing the differential frequency of the two resonators and the signal from a temperature sensor to replace the two-frequency signals by polynomial fitting, the temperature compensation method based on differential outputs aims to increase the surface fitting accuracy of these microsensors which have turnover points. Employing the proposed compensation approach in this study, the errors were less than 0.02% FS of the full pressure scale (a temperature range of -40 to 85 degrees C and a pressure range of 200 kPa to 2000 kPa).
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