摘要
在提高微压传感器灵敏度的研究过程中 ,会遇到非线性和稳定性变差、过载能力不够以及静电封接时背岛与玻璃粘接造成器件失效等现象。提出了应力匀散结构和两层岛的限位结构 ,利用有限元分析和近似解析分析 ,设计了新的双岛 -梁 -膜结构 ,成功地研制出抗高过载微压传感器。量程为 0 .3kPa ,总精度为 0 .4% ,过载能力 >
In the process of improving the sensitivity of a pressure transducer, one always has the problems such as the deterioration of linearity and stability, insufficiency of over-load capacity and the sticking of the back islands to the glass in the electrostatic bonding process. Two structure improvements have been made to overcome these difficulties: the structure for stress unification on diaphragm and the two-leveled island for over-range protection.Both finite element analysis and analytical analysis are used in the design of the high sensitivity pressure transducer with novel two-leveled islands and beam-diaphragm structure. A high sensitivity pressure transducer based on the structure has been developed and tested.The measument range is 0.3?kPa,the accuracy of the devices is 0.4% and the overload capacity is larger than 140 times of the full operation range.
出处
《传感器技术》
CSCD
北大核心
2001年第4期48-51,共4页
Journal of Transducer Technology
基金
国家自然科学基金 !(696740 3 2 )
"九五"传感器科技攻关项目 !(96-748-0 2 -0 1/ 0 2 )
关键词
微压传感器
过载能力
非线性
灵敏度
micropressure transducer
over-load capacity
nonlinearity
sensitivity
maskless etch
stress unification