红外焦平面成像器件的光谱响应率是天基红外遥感的基本物理指标。
The spectral responsivity of IRFPA imaging detector is a basic physical parameter for the space infrared remote sensing.
研究了红外焦平面凝视热成像系统的评估方法和评估MRTD数学模型,并在所建立的评估实验室中对数学模型的可行性进行了验证。
The evaluating method and MRTD mathematics model for staring thermal imaging systems with IR focal plane were studied, and the model was proved by experiments in the laboratory.
实验获得了微透镜列阵与红外焦平面集成芯片,并在热成像中取得了良好的结果。
The microlens array and IR focal plane integrated chips are obtained in experiments. These chips have achieved good results in thermal imaging.
采用SOPC技术可使非制冷焦平面红外成像系统体积更小、功耗更低、性能更稳定。
With SOPC technology uncooled focal plane infrared(IR)imaging system has smaller size, lower power consumption and better performance.
文章主要对凝视红外焦平面热成像系统的噪声进行研究。
In this paper, the noise of staring IR focal plane array thermal imaging system is discussed.
基于非制冷红外焦平面列阵(ufpa)探测器件进行了气象测云红外成像系统的光学设计、结构设计与电路设计,对系统光学设计结果进行详细分析。
On the basis of Uncool infrared Focal Plane Array (UFPA) detector, the optics, structure and the circuit of the infrared imaging system for cloud meteorological observation are designed.
介绍基于SOPC设计非致冷红外焦平面热成像电路单元的方法,并对电路的结构进行了分析。
In this paper the designing principle of UFPA imaging circuit based on SOPC is discussed, and the structure of UFPA imaging circuit is analyzed.
利用四路红外非制冷焦平面探测器、大视场光学系统、窄带滤光片和信号处理系统,构成了凝视成像激光探测与告警系统。
A staring imaging laser detecting and warning system is formed by using 4-channel uncooled infrared focal plane detectors, large field optical system, narrow band filters and signal processing system.
利用四路红外非制冷焦平面探测器、大视场光学系统、窄带滤光片和信号处理系统,构成了凝视成像激光探测与告警系统。
A staring imaging laser detecting and warning system is formed by using 4-channel uncooled infrared focal plane detectors, large field optical system, narrow band filters and signal processing system.
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