本文研究了一种新型微机械CMOS热导压力敏感器。
A new micromachined CMOS thermal conductivity pressure sensor has been developed.
提出了一种新的光纤压力传感器的设计,该传感器敏感膜采用了台面结构而非传统的平面结构。
A novel pressure sensor with a mesa structure diaphragm is presented, which has a mesa structure diaphragm rather than the planar one.
通过对常用支撑结构的力学分析与性能对比,选用简支梁作为压力传感器敏感变形机构。
After analyzing and comparing the performance of normal bracing structures in mechanics, we use a freely supported beam for sensing deforming structure.
对一种硅谐振式压力微传感器敏感结构的边界结构参数进行了优化设计。
The boundary structural parameters of a silicon resonant pressure microsensor are optimized in this paper.
目的探讨高血压病患者压力感受器敏感性(BRS)情况及其可能影响因素。
ObjectiveTo investigate the baroreflex sensitivity (BRS) of the essential hypertensive (EH) and its possible related factors.
对传感器的压力敏感膜尺寸、阴阳极间距等结构参数进行了分析计算;
The analysis and calculation on some structure parameters of the sensor have been done, such as the dimension of pressure sensitive film, the space length between anode and cathode and so on.
本文研究了一种以测力环为敏感元件的高精度钠压力传感器。
High precision sodium pressure transducer using the dynamometric annulus as the Sensor is developed.
介绍一种以多晶硅薄膜为敏感材料的压力传感器。
A polysilicon thin film pressure sensor is presented. It utilizes polysilicon thin film as stress sensitive material.
压力场测试中所采用的传感器是一种以压电晶体做敏感元件的压力传感器,它可以将压力讯号直接转换成电荷输出,其输出量与被测量压力成正比。
The sensor used in the testing is made of piezoelectricity crystal and it can directly transform the pressure signal into electricity signal. Its output is in proportion to the measured pressure.
根据模拟结果,设计了波纹膜片和硅敏感膜片,并用于压力传感器生产中。
According to simulation results, the corrugated diaphragm and silicon-sensitive diaphragm is designed, which is used in production.
该压力传感器中包含了两个灵敏度不同的敏感电桥,它们被制作于同一芯片不同厚度的膜片上。
Two Wheatstone bridges are fabricated on one chip, and the sensitivities of the bridges are different with each other.
该压力传感器中包含了两个灵敏度不同的敏感电桥,它们被制作于同一芯片不同厚度的膜片上。
Two Wheatstone bridges are fabricated on one chip, and the sensitivities of the bridges are different with each other.
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