The infrared focal plane arrays (IRFPA) can be classified into the cooled focal plane arrays and uncooled focal plane arrays (UFPA).
红外焦平面包括制冷型焦平面和非制冷型焦平面两种。
In this paper the designing principle of UFPA imaging circuit based on SOPC is discussed, and the structure of UFPA imaging circuit is analyzed.
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。
The technology of staring uncooled infrared focal plane arrays (UFPA) with high-density and low-cost is the third breakthrough in the developing of infrared imaging technology.
高密度、低成本的非致冷凝视焦平面阵列的出现使红外热成像技术发生了第三次变革。
Now the research of UFPA is still a beginning in our country, so it is necessary to develop UFPA with own intellectual property, meanwhile it can bring much economic and social benefit.
目前,我国在这一领域的研究尚处于起步阶段,因此研制具有自主知识产权的非制冷红外焦平面阵列探测器是十分必要的,同时这也将产生巨大的经济和社会效益。
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.
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.
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。
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