The operating distance is the separation of an object from the active sensor surface at which a switching signal is produced.
经营的距离,是从积极的传感器表面上的一个开关信号分离产生的对象。
Based on separation theory for descriptor systems, control systems can tolerate sensor failure by adjusting the parameters of observer gain matrix.
根据广义系统的分离定理,当传感器失效,利用调整观测器增益阵参数的办法来实现容错。
This design proposal of micro pressure sensor array can effectively meeting the measuring requirement of boundary - layer separation point, and expand engineering applied scope of MEMS devices.
设计的微型压力传感器阵列可有效满足边界层分离点的检测要求,进一步拓展了MEMS器件的工程应用范围。
The applications to chirality separation, sensor, solid phase extraction and pervaporation are described, and the problems and progress in this field are discussed.
评述了分子印迹膜在手性化合物的分离、膜传感器、固相萃取、渗透汽化等方面的应用研究进展。
The introduction of micro pressure sensor array expands ways detecting boundary layer separation point.
微型压力传感器阵列的引入,拓宽了边界层分离点检测的解决途径。
Micro-shear stress sensor plays an important role in detecting separation point of the boundary layer due to small-scale structures and the desired spatial and temporal resolution.
微型剪应力传感器以尺寸小、时空分辨率高的特点在边界层分离点测量中表现出了突出的优势。
For flush mounting the lateral separation between two sensors must correspond to at least the diameter of the sensor.
对于嵌入式安装了两个传感器之间的横向分离必须符合至少传感器的直径。
The micro shear stress sensor which based on the smart skin for boundary-layer separation point detection of delta wing has been explored in this paper.
本文就以用于实现三角翼边界层分离点检测的面向灵巧蒙皮的微型剪应力传感器为对象展开研究。
MCM-41 molecular sieves with the features of very high BET specific surface area and uniform mesoporous structure may be applied in the fields of catalysis, sorption, separation and sensor techniques.
MCM 4 1中孔分子筛具有极高的BET比表面积、均一的中孔结构等特点,可广泛用于催化、吸附脱附、分离和传感技术等领域。
It will be helpful for the development of application of imprinted polymers in sensor device and continuous separation process.
本工作有助于分子印迹技术应用于传感器技术和连续分离技术的研究。
Rapid separation between combustible gases and coexisted hydrogen sulfide has been studied in order to determine combustible gases by semiconductor sensor without poisoning.
含高浓度硫化氢的可燃性气体在用半导体传感器检测前必须分离。
Rapid separation between combustible gases and coexisted hydrogen sulfide has been studied in order to determine combustible gases by semiconductor sensor without poisoning.
含高浓度硫化氢的可燃性气体在用半导体传感器检测前必须分离。
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