In chapter 4, the thermal sensor location optimization is studied.
第四章研究温度传感器在机床上的优化布置理论。
Even swelling blood vessels around our eyes betray us, and the thermal sensor spots them too.
甚至我们眼周肿胀的血管都是我们的情感“指示计”,而热传感器同样可以捕抓它们。
It consists of FIA system, semiconductor thermostat, immobilized enzyme reaction column, thermal sensor and data collection module.
主要由流动注射分析系统、半导体恒温器、固定化酶反应柱、量热传感器、数据采集模块组成。
These include a camera, ultrasound, infra-red and thermal sensors, a range-finder sensor, a temperature sensor and ground detectors.
这些包括照相机,超声波,红外线和热传感器,一个测距仪传感器,温度传感器和地面探测器。
The thermal sensor had a large lag phase, so the data got by the sensor of digital mass flow controller should be compensated in advance.
热式传感器有很大的滞后环节,在数字质量流量控制器中需要对传感器数据进行补偿。
LOTHAR (Land Optronic thermal Aiming Resource) is a multi sensor system specifically designed for Fire Control Systems equipped with the "Tilde" thermal camera (ir cooled).
Lothar系统是一种多传感器系统,专为配备“蒂尔德”热成像仪(红外制冷)的火控系统设计。
The Mini Colibrì multi sensor system is equipped with a thermal camera (IR uncooled), TV camera (TVC) and laser range finder.
迷你Colibrì多传感器系统配备热成像仪(红外非制冷)、电视成像仪(TVC)和激光测距设备。
Abstract: a pressure sensor which can cancel thermal zero shift is described.
文摘:提出一种可消除热零点漂移的压阻式压力传感器。
The mathematical model can be used to analyze the sensor output and determine the thermal properties of an unknown object.
传感器的数学模型可用来分析传感器的输出和决定未知材料的热性质。
Thermal dampers and EM hardening prevent passive sensor from picking up the telltale signatures of standard armor.
盔甲本身还具有隔热装置和电磁加固特性,这样可以防止被动传感器收集到标准盔甲的特征信息。
Thermal film air-mass sensor is one of this kind.
热式气体质量流量传感器就是其中的一类。
This task adopt MEMS technics to make Thermal -film air-mass sensor, mostly work is the study and facture of the sense organ of the chip.
本课题采用MEMS工艺制作热膜式气体质量流量传感器,主要工作放在敏感头芯片部分的研制。
The main research theme of this dissertation is sensor placement optimization and temperature measurement system in thermal error compensation of machine tools.
本文以研究机床热误差补偿中温度传感器的优化布置和新型测温系统的开发为主要内容。
In this dissertation, the steady heat transfer of the micro thermal airflow sensor is systematically studied.
本课题对微型热式气体流量传感器的稳态传热进行了系统研究。
After sputtering with N-Cr, a microstructure of temperature-sensitive sensor was formed, and its character of R-T and thermal response time constant were measured.
然后在微桥上溅射镍—铬电阻薄膜,形成温敏传感器微结构,并对其温度电阻特性,热响应时间进行了测量。
Industrial thermal resistance as a measurement of the temperature sensor, Usually, and display instruments, recording instruments and electronic supporting the use of regulator.
工业用热电阻作为测量温度的传感器,通常和显示仪表、记录仪表和电子调节器配套使用。
The experimental results of the thermal recovery of the wavefront distortion using the single segment amplifier (SSA) test bed and the Hatamann wavefront sensor are reported.
给出了在单口径片状放大器(SSA)实验平台上利用哈特曼波前传感器进行热恢复研究的实验结果。
The program PSPICE is used for simulating the bridge circuit of pressure sensor with the nonlinear resistor model to show properties of electric drift as well as thermal drift.
利用PSPICE程序结合非线性电阻模型来模拟压力传感器的电桥电路,可显示零点电漂移和热漂移特性。
Beside, the sensor used in this method is cheap, and with the characteristic of high thermal stability and mechanical stability.
此外,所用传感器热稳定性和机械稳定性高、制作成本低廉、操作简单。
Since time and output voltage of temperature sensor must be repetitiously recorded, using conventional instruments to measure thermal conductivity is a tough task and can not be generalized.
传统的导热系数测量仪器需要不断测量温度传感器的输出电压,记录时间,工作量大,重复性工作多,难以推广应用。
In order to overcome the disadvantages of traditional method of gas concentration detection, a new method is proposed which keeps thermal conductivity sensor at a constant temperature.
为了克服传统热导传感器气体检测方法的诸多缺陷,提出了一种使传感器保持在恒温状态的气体浓度检测的新方法。
Several compensation methods of thermal sensitivity shift of polysilicon pressure sensor are introduced, whose principles and characteristics are discussed.
列举了几种多晶硅高温压力传感器的热灵敏度漂移补偿方法,并分别讨论了它们的原理及特点。
Thermal mass flow sensor has unique constant temperature principium as mathematical model for measuring medium mass flow without compensation of temperature and pressure.
采用独特的恒温原理建立数学模型,测量出介质的质量流量,无须温度和压力补偿。
The main hardware is composed of thermal resistor as temperature sensor, 87C51 single chip processor, as main control computer, together with amplifier and A/D transfer.
用热敏电阻器作温度传感器,87C51单片机作主控微机,加上放大器、模数转换器等组成主要硬件系统。
In this paper the operating principles of the platinum thermal resistance temperature sensor is analyzed,.
分析了金属热电阻温度传感器的工作原理。
The computerised system uses a simple video camera, a high-resolution thermal imaging sensor and a suite of algorithms.
该电算化系统使用一个简易的摄像头,高分辨率的热成像传感器和一整套算法。
The thermal resistance of the heating part (temperature sensor) is made of metal wire even double wound on the insulating material on the skeleton.
热电阻的受热部分(感温元件)是用金属丝均匀地双绕在绝缘材料制成的骨架上。
A new structure MEMS thermal flow sensor combining two principles of temperature-difference and anemometer is designed and manufactured.
在器件结构上结合了温差式和风速计式两种检测原理,设计并制造了一种新型结构的MEMS热式流量计。
A new structure MEMS thermal flow sensor combining two principles of temperature-difference and anemometer is designed and manufactured.
在器件结构上结合了温差式和风速计式两种检测原理,设计并制造了一种新型结构的MEMS热式流量计。
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