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。
The introduction of micro pressure sensor array expands ways detecting boundary layer separation point.
采用安装在泵腔上的压阻式微型压力传感器完成微泵泵腔压力脉动测试。
A piezoresistive micro pressure transducer fitted on the top of the chamber is used to measure the pressure pulsations in the micropump chamber.
采用微型压力传感器测试了无阀压电微泵泵腔的压力脉动,并与仿真结果进行比较。
Experiments of the valveless micropump are carried out, including static and dynamic characteristic tests and the results are compared with the simulation results.
并采取在静子叶片表面埋入微型压力传感器的方法,分析了压气机流场的动态压力特性。
The pressure dynamic proceedings of three cross-section of the stator surface had been investigated to understand the flow structure in a compressor.
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。
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.
具有集成的温度补偿和标定,低成本,高容量,微型压力传感器封装可以用作任一个子模块组件或作为一次性单元。
Featuring integrated-temperature compensation and calibration, the low-cost, high-volume, miniature pressure-sensor package can be used as either a sub-module component or as a disposable unit.
针对电容式微型压力传感器,专门考虑膜片的空间连续行为以及结构、静电力的耦合作用,建立了包含接口电路在内的系统模型,据此进行了动态行为仿真。
Using this method, the behavior equation of a capacitive micro pressure sensor is represented, then its reusable parameterized schematic-drive model is established coded by HDL (MAST).
介绍在IBM及其兼容系列微型机上,实现硅压力传感器版图CAD软件的设计方法。
The paper describes that a silicon pressure sensor with plate graph CAD software design is carried out on IBM and its series of compatible microcomputers.
试验装置首次运用微型高频土压力传感器测量模型板上土压力,测试结果更加精确。
It is the first time used the mini soil pressure sensor to measure soil pressure in the model tests and the result is more exactly.
从应用开发MEMS产品的实用角度出发,介绍了利用硅一硅键合技术制作的微型电容式压力传感器,给出了详细的制作工艺及主要工艺步骤图。
Introduced the capacitive pressure microsensor produced by Si-Si bonding technology in terms of the practicality of MEMS products. The producing technology and major diagrams were given in detail.
利用微型数字压力传感器和数字信号处理(dsp)串口通迅,读取数字压力传感器中压力、温度值及补偿参数,用软件进行温度补偿和高度计算。
Based on the digital signal process (DSP) communication with digital pressure sensor, the pressure, temperature and calibration coefficients can be read from digital pressure sensor.
分析结果表明,与常规的双极板微型电容式压力传感器相比,新型结构压力传感器的线性度改善了48.38%,达到了1.6%。
Comparison of the MEMS-based capacitive pressure sensor with a general structure sensor, the output linearity of the proposed sensor has been improved by 48.38%, reaching 1.6%.
同时,我们又积极开发新型MEMS产品的开发,例如微型投影仪,压力传感器,湿度传感器等等,这必将让整个MEMS市场有一个新的飞跃。
In the mean time, such new MEMS devices as pico projectors, pressure and humidity sensors are taking the entire market to a new leap.
同时,我们又积极开发新型MEMS产品的开发,例如微型投影仪,压力传感器,湿度传感器等等,这必将让整个MEMS市场有一个新的飞跃。
In the mean time, such new MEMS devices as pico projectors, pressure and humidity sensors are taking the entire market to a new leap.
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