This paper analyzes the characteristics of the pyroelectric detector based on its working principle.
根据热释电探测器工作原理,对其使用特点进行了分析。
This new way bases on the principle of pyroelectric detector and defines the quantity of compensation according to the temperature difference between target and its surrounding.
这种方法是根据热释电探测器的工作原理,以被测物体与环境温度的差值作为参考量,根据其差值的大小确定补偿量的多少。
The cavity pyroelectric detector is usually used as the work norm to calibrate relative spectral responsivity of detectors because of its flat spectral responsivity in broad spectra range.
由于腔体热释电探测器在宽光谱范围内具有相对平坦的光谱响应度,因此经常被用作标定探测器相对光谱响应度的工作基准。
The input and output mathematical model of DIGA (Dispersive Infrared Gas Analyzer) system with pyroelectric detector was established according to the design principle of DIGA.
在分光型红外气体分析器(DIGA)设计原理基础上,建立了基于热释电探测器的红外气体分析系统输入输出数学模型。
The discovery of pyroelectric effect is a base for laser and infrared detector.
热释电效应的发现,为激光和红外探测的应用奠定了良好的基础。
The sensor is composed of pyroelectric refrigerator and semiconductor detector, and controlled by a operator without model, In this way the air dew-point can be measured on line.
使用金硅势垒探测器及热电式致冷器构成传感器,并利用无模型控制器进行控制,实现气体露点的在线检测。
This article comprehensively describes the properties and operating principles of pyroelectric infrared detector using thin films.
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。
Good contrary, environmental background radiation on almost two pyroelectric devices have the same role to produce a pyroelectric effect of offset each other, so no detector signal output.
好相反,环境背景辐射对两个热释元件几乎具有相同的作用,使其产生释电效应相互抵消,于是探测器无信号输出。
The utility model provides an infrared detector for human body adopting a pyroelectric infrared sensor which can be used for an automatic lighting system and an anti-theft alarm system.
本实用新型提供了一种采用热释电红外传感器的人体红外探测器,用于自动照明系统,防盗报警系统。
Pyroelectric detector and fast respond infrared radiometer are used in the system to carry on the measurement, and effective data processing method is adopted to improve the test accuracy.
该系统分别采用热释电探测器和快速响应的红外辐射计进行测量,并采取了有效的数据处理方法,提高了测试精度。
The photoelectric transformation circuit can be applied for quick-response of pyroelectric detector.
此光电转换电路适于采用热释电探测器需快速响应。
In detail, the optical receiving system is mainly composed of optical receiving lens, modulating disk, cut off filter, focusing lens and pyroelectric detector.
其中,光学接收系统主要包括光学接收镜头、调制盘、截止滤光片、窄带干涉滤光片、聚焦透镜及光电转换系统等;
In detail, the optical receiving system is mainly composed of optical receiving lens, modulating disk, cut off filter, focusing lens and pyroelectric detector.
其中,光学接收系统主要包括光学接收镜头、调制盘、截止滤光片、窄带干涉滤光片、聚焦透镜及光电转换系统等;
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