1) Focal Plane Imaging
焦平面成像
1.
Focal Plane Imaging is one of the most significant systems in millimeter wave imaging technology, as a result of the facts ,this technology has many advantages, such as real-time imaging, particularly for fast-moving targets, simple structure and easy implementation, it has been widely utilized in anti-terrorism security, scenes of surveillance, military reconnaissance and other fields.
焦平面成像是无源毫米波成像的主要体制之一,它可以实时成像,尤其对快速移动目标,且结构简单,易于实现,广泛应用于反恐安检、场面监视、军事侦察等领域。
3) IRFPA imaging circuit
红外焦平面成像电路
1.
In this paper the working principle of IRFPA imaging circuit based on TMS320C6X is discussed.
本文介绍了以TMS32 0C6X为核心的红外焦平面成像电路的组成原理 ,并对几个关键性技术进行了分析。
2.
In this paper the working principle of IRFPA imaging circuit based on FPGA is discussed,Several key problems in designing are analyzed.
介绍了以FPGA器件为核心的红外焦平面成像电路的组成原理 ,并对几个关键性技术进行了分析。
4) IRFPA imaging system
红外焦平面成像系统
1.
Influence of integration time on IRFPA imaging system;
积分时间对红外焦平面成像系统的影响
5) IRFPA imaging detector
红外焦平面成像器件
1.
The spectral responsivity of IRFPA imaging detector is a basic physical parameter for the space infrared remote sensing.
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。
6) offf-plane stigmatic imaging
偏离平面共焦成像
补充资料:焦平面
通过主焦点的垂直于主轴的平面。不平行于透镜或曲面镜主轴的平行光束,经透镜折射或经曲面镜反射后的光线(或其延长线)都相交在焦平面上。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条