仪表技术与传感器
儀錶技術與傳感器
의표기술여전감기
INSTRUMENT TECHNIQUE AND SENSOR
2010年
2期
10-12,21
,共4页
揣荣岩%崔林%王健%刘本伟%郑雁公%李新
揣榮巖%崔林%王健%劉本偉%鄭雁公%李新
췌영암%최림%왕건%류본위%정안공%리신
牺牲层%有限元%多晶硅纳米薄膜%密封腔
犧牲層%有限元%多晶硅納米薄膜%密封腔
희생층%유한원%다정규납미박막%밀봉강
sacrificial layer%finite-element%polysilieon nano-film%seal cavity
为使多晶硅纳米薄膜良好的压阻特性在MEMS(微机电系统)压阻传感器中得到有效应用,在设计牺牲层结构压力传感器芯片中探索性地采用了多晶硅纳米薄膜作为应变电阻,并给出这种传感器的设计方法.分析了牺牲层结构弹性膜片的应力分布对传感器灵敏度的影响,优化设计了量程为0~0.2 MPa多晶硅纳米膜压力传感器芯片的结构参数.有限元法仿真结果表明:在保证传感器灵敏度大于50 mV/(MPa·V)的前提下,零点温漂系数可小于1×10~(-3) FS/℃;灵敏度温漂 (无电路补偿)可小于1×10~(-3) FS/℃.为高灵敏、低温漂、低成本的高温压力传感器集成化发展提供了一条可行途径.
為使多晶硅納米薄膜良好的壓阻特性在MEMS(微機電繫統)壓阻傳感器中得到有效應用,在設計犧牲層結構壓力傳感器芯片中探索性地採用瞭多晶硅納米薄膜作為應變電阻,併給齣這種傳感器的設計方法.分析瞭犧牲層結構彈性膜片的應力分佈對傳感器靈敏度的影響,優化設計瞭量程為0~0.2 MPa多晶硅納米膜壓力傳感器芯片的結構參數.有限元法倣真結果錶明:在保證傳感器靈敏度大于50 mV/(MPa·V)的前提下,零點溫漂繫數可小于1×10~(-3) FS/℃;靈敏度溫漂 (無電路補償)可小于1×10~(-3) FS/℃.為高靈敏、低溫漂、低成本的高溫壓力傳感器集成化髮展提供瞭一條可行途徑.
위사다정규납미박막량호적압조특성재MEMS(미궤전계통)압조전감기중득도유효응용,재설계희생층결구압력전감기심편중탐색성지채용료다정규납미박막작위응변전조,병급출저충전감기적설계방법.분석료희생층결구탄성막편적응력분포대전감기령민도적영향,우화설계료량정위0~0.2 MPa다정규납미막압력전감기심편적결구삼수.유한원법방진결과표명:재보증전감기령민도대우50 mV/(MPa·V)적전제하,영점온표계수가소우1×10~(-3) FS/℃;령민도온표 (무전로보상)가소우1×10~(-3) FS/℃.위고령민、저온표、저성본적고온압력전감기집성화발전제공료일조가행도경.
In order to develop MEMS(micro electro mechanical system)strain sensors effectively using polysilicon nanofilms with favorable piezoresistive properties,the strain resistors made of the films were exploringly applied to the pressure sensor chips with the sacrifice layer structure,and the method of designing this kind of pressure sensor was introduced.Based on the analysis of the influence of stress distribution of sensing diaphragms with sacrifice layer structure on the sensitivity of sensors,the structure pa-rameters were designed and optimized of polysilieon nanofilm pressure sensor chip with from 0 to 0.2 MPa measuring range.Finite element simulation results show that premising sensitivity of the sensor is more than 50 mV/MPa.V,zero drift coefficient can be less than 1×10~(-3)FS/℃;sensitivity drift(no compensation) call be less than 1×10~(-3)FS/℃.A feasible way was provided for the development of high-sensitivity,low temperature drift,low-cost high temperature integrated pressure sensor.
