传感技术学报
傳感技術學報
전감기술학보
Journal of Transduction Technology
2013年
6期
801-805
,共5页
曹明威%陈德勇%王军波%焦海龙%张健
曹明威%陳德勇%王軍波%焦海龍%張健
조명위%진덕용%왕군파%초해룡%장건
微电子机械系统%谐振式压力传感器%绝缘体上硅%差分检测%阳极键合
微電子機械繫統%諧振式壓力傳感器%絕緣體上硅%差分檢測%暘極鍵閤
미전자궤계계통%해진식압력전감기%절연체상규%차분검측%양겁건합
micro-electromechanical system( MEMS)%resonant pressure sensor%SOI%differentially detection%anodic bonding
提出了一种电磁激励、差分检测的谐振式MEMS压力传感器,该器件采用低电阻率的SOI器件层单晶硅制作“H”型谐振梁,并作为激励和检测电极。根据对传感器数学模型的分析,利用有限元分析方法优化了传感器结构设计。采用等离子深刻蚀制作传感器结构,并用湿法腐蚀SOI二氧化硅层的方法释放。利用硅-玻璃阳极键合技术,实现了传感器的圆片级真空封装。采用开环扫描检测和闭环自激振荡方式,测定压力传感器的特性。实验结果表明:传感器一致性良好,在500 hPa~1100 hPa的检测范围内,差分检测灵敏度为14.96 Hz/hPa,线性相关系数为0.999996。
提齣瞭一種電磁激勵、差分檢測的諧振式MEMS壓力傳感器,該器件採用低電阻率的SOI器件層單晶硅製作“H”型諧振樑,併作為激勵和檢測電極。根據對傳感器數學模型的分析,利用有限元分析方法優化瞭傳感器結構設計。採用等離子深刻蝕製作傳感器結構,併用濕法腐蝕SOI二氧化硅層的方法釋放。利用硅-玻璃暘極鍵閤技術,實現瞭傳感器的圓片級真空封裝。採用開環掃描檢測和閉環自激振盪方式,測定壓力傳感器的特性。實驗結果錶明:傳感器一緻性良好,在500 hPa~1100 hPa的檢測範圍內,差分檢測靈敏度為14.96 Hz/hPa,線性相關繫數為0.999996。
제출료일충전자격려、차분검측적해진식MEMS압력전감기,해기건채용저전조솔적SOI기건층단정규제작“H”형해진량,병작위격려화검측전겁。근거대전감기수학모형적분석,이용유한원분석방법우화료전감기결구설계。채용등리자심각식제작전감기결구,병용습법부식SOI이양화규층적방법석방。이용규-파리양겁건합기술,실현료전감기적원편급진공봉장。채용개배소묘검측화폐배자격진탕방식,측정압력전감기적특성。실험결과표명:전감기일치성량호,재500 hPa~1100 hPa적검측범위내,차분검측령민도위14.96 Hz/hPa,선성상관계수위0.999996。
A micromachined resonant pressure sensor with H-type doubly-clamped beams was proposed based on electromagnetically driven and differentially detection methods. The beams were made of a SOI wafer’s single-crystal silicon device layer with low resistivity, which were also acted as the excited and sensed electrodes instead of commonly used metal layer electrodes. Finite element analysis was utilized to optimize the design of the pressure sensor. The sensor was fabricated by deep reactive ion etching process and buffered oxide etcher release process,and the vacuum package of the sensor was realized by anodic bonding. Experimental results show a sensitivity of 14. 96 Hz/hPa and linear correlation coefficient of 0. 999 996 in the range of 500 hPa to 1 100 hPa.
