红外探测器有多种用途。
红外探测器的指定不同的敏感性。
The infrared detectors are specified for different sensitivities.
对于球面光学红外探测器,视场总是循环。
For infrared detectors with spherical optics, the field of view is always circular.
热释电材料是非制冷红外探测器的关键敏感材料之一。
Pyroelectric material is one of the key sensitive materials of the uncooled infrared detectors.
介绍红外探测器相对光谱响应率自动测试的实施方法。
A method for automatic measurement of relative spectral responsivity of infrared detector is reported.
光电跃迁效应是窄禁带半导体红外探测器的基本物理过程。
Optical transition effect is a fundamental physical process in the narrow gap semiconductor infrared detectors.
介绍了室温非制冷型热释电薄膜红外探测器的原理和优势。
This article comprehensively describes the properties and operating principles of pyroelectric infrared detector using thin films.
热电堆红外探测器是最早研究并实用化的热电型红外成像器件之一。
Thermopile ir detector is one of the first thermal ir imaging device that has been studied and applied.
红外探测器是随时随地使用温度进行监测和常规传感器将无法因过热。
Infrared detectors are used wherever and whenever temperatures have to be monitored and conventional sensors would fail due to excessive heat.
用此薄膜试制的红外探测器能获得较高的响应率,较大的信号绝对值。
A high response rate and big signal absolute value can be obtained by the IR detector with the thin films.
红外探测器的低频噪声是制约器件能否应用于空间遥感的关键因素之一。
Low frequency noise is one of the most important factors in infrared detectors for space remote sensing applications.
本文论述了四级微型半导体致冷器与红外探测器金属杜瓦瓶的钎焊方法。
This paper deals with method of soldering thermoelectric cooler with metal dewar of infrared detector.
传统被动红外探测器容易受到环境温度,环境光线强度影响,误报率高。
The origin passive infrared detectors is easily jammed by factors such as environmental temperature and environmental light intensity.
两点温度定标校正算法是非制冷红外探测器的有效的非均匀性校正技术。
The algorithm of the two-point temperature correction is a effective nonuniform correction technique for uncooled IR detector.
量子阱中能级位置的确定是获得量子阱红外探测器其它设计参数的基础。
Achieving the energy level position in quantum Wells of quantum well infrared photodetectors (QWIPs) is the base of designing QWIP other parameters.
排放物必须隐藏起来,机身设计时也必须考虑到不能被雷达和红外探测器发现。
Emissions must be hidden and the plane's fuselage sculpted to avoid detection by radar and infrared sensors.
针对光导型多元红外探测器特性,研制了红外探测器均匀性自动化测试系统。
Pointing to the property of photoconductive multiunit infrared detector, an automatic testing system for uniformity of infrared detector is developed.
用付立叶变换红外光谱仪建立了一套全自动红外探测器相对光谱响应测量系统。
An automatic measuring system for the relative spectral response of IR detectors by using Fourier Transform Infrared (FTIR) Spectrometer bas been developed.
分析了红外探测器的漂移特性,拟合漂移曲线并对探测器的能量漂移进行补偿。
The drift characteristic of IRFPA is analyzed, and the drift curve is fit to compensate the energy drift.
有时可以通过机载红外探测器或者雷达发现他们,而有时则需借助数据分析人员。
Sometimes, they can find them with the planes' infrareds, the radars and the analysts who read data 24/7.
分析结果表明,反导系统红外探测器在再入飞行段的最佳工作波段是短波和中波。
The analysis results demonstrate that the infrared detector of the anti-missile system in the reentry can work well on short wave and medium wave.
在预定的距离(一),红外探测器“看到”的圆形区域内被称为可见的表面(乙)。
At a predetermined distance (a), the infrared detector "sees" a circular area that is called the visible surface (b).
并根据热尾流与周围海水的平均温度差计算出红外探测器对潜艇热尾流的作用距离。
According to the difference in temperature between thermal wake and seawater, the operation range of the detector to thermal wake was calculated.
从进一步的红外探测器热的是表面,少的能量,是可以进入的红外探测器的光学系统。
The further the infrared detector is from the hot surface, the less the energy is that can enter into the optics of the infrared detector.
接着发生的最低温度仍然必须检测,这意味着对红外探测器起点温度必须选择是非常低。
Then the lowest occurring temperature must still be detectable, which implies that the threshold temperature of the infrared detector must be chosen to be very low.
红外探测器光谱响应度的均匀性及直线性一直被认为是评价红外探测器性能的关键技术指标。
The uniformity and linearity of spectral response of infrared detector are considered as the important parameters to evaluate the characteristics of infrared detectors.
广域红外探测器,在红外光波段扫描了整个天空,搜集了亿万目标的光辉,产生了数百万图像。
WISE, the Wide-field Infrared Survey Explorer mission, scans the entire sky in infrared light, picking up the glow of hundreds of millions of objects and producing millions of images.
可用的传感器包括视觉传感器(彩色照相机)、范围传感器(声波和红外探测器)以及碰撞检测的缓冲。
Available sensors include a vision sensor (color monoscopic camera), range sensors (sonars and IR detectors), and bumpers for collision detection.
可用的传感器包括视觉传感器(彩色照相机)、范围传感器(声波和红外探测器)以及碰撞检测的缓冲。
Available sensors include a vision sensor (color monoscopic camera), range sensors (sonars and IR detectors), and bumpers for collision detection.
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