The Uncooled Infrared FPA is the key component of the microbolometer.
非制冷红外焦平面器件是微测热辐射计的核心部件。
BAE Systems will incorporate its uncooled MicroIR microbolometer sensor technology in the enhanced goggle.
BAE系统公司将在这种增强型夜视镜中使用该公司的非冷却微型红外微测辐射热仪传感器技术。
The output responsivity of uncooled microbolometer is nonuniform, and greatly influenced by the substrate temperature.
非致冷微测辐射热计具有较大不均匀性,并且输出响应受衬底温度影响很大。
Two-dimensional thermal simulations of the microbolometer with a micro-bridge structure by finite element method were done.
利用有限元法对微桥结构的测辐射热计进行了二维热模拟。
Based on microbolometer infrared sensor technology, they create images from the thermal energy given off by objects and people.
运用微测辐射红外传感技术,摄像机可以通过物体和人引发的热能生成图像。
Because of the limitation of non uniformity correction, former microbolometer needed to control substrate temperature accurately.
由于非均匀性校正的局限性,以前的微测辐射热计需要对基底温度进行精确控制。
The thermal design of the microbolometer FPA is a difficulty and key problem when an uncooled infrared microbolometer detector is designed.
微测辐射热计fpa的热设计是非致冷红外探测器设计的难点和关键。
The operation, construction and development status of microbolometer are presented. The properties of vanadium oxides thin film and its preparation are introduced.
介绍了测辐射热汁的工作原理、器件结构的几何形状和研制状况,叙述了测辐射热计材料的特性及制备技术。
In order to develop high resolution uncooled infrared microbolometer with smaller pixel size, cell structure with double sacrificial layers is a new trend and the most common way for microbolometers.
通过改善结构,来研制更小尺寸、更高分辨率的器件,成为微测辐射热计研制的新趋势,而其中最普遍的做法就是使用双牺牲层。
In order to develop high resolution uncooled infrared microbolometer with smaller pixel size, cell structure with double sacrificial layers is a new trend and the most common way for microbolometers.
通过改善结构,来研制更小尺寸、更高分辨率的器件,成为微测辐射热计研制的新趋势,而其中最普遍的做法就是使用双牺牲层。
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