红外焦平面阵列

21世纪的红外焦平面阵列技术军用前景

A military application perspective of IRFPA technologies in the 21st century

详细介绍了红外焦平面阵列的主要性能参数，以及红外焦平面阵列测试系统的测试总体需求及总体结构，提出了直流偏置关键技术。

This paper introduces the main performance parameter of the IRFPA in detail , and introduces the general requirement , the structure as well as the key technology forthe system . 3 .

红外焦平面阵列的CMOS读出电路结构评述

Review of readout circuit structure of infrared focal plane CMOS array

红外焦平面阵列CMOS读出集成电路的研制

Development of IRFPA CMOS Readout Integrated Circuit

BST厚膜非制冷红外焦平面阵列结构及特性研究

The Structure and Property of BST Thick Film Uncooled Infrared Focal Plane Array

非制冷红外焦平面阵列BST铁电薄膜的制备及性能研究

Fabrication of uncooled infrared focal plane array BST ferroelectric thin films and properties

非致冷红外焦平面阵列VO2薄膜结构和性能研究

Study of Structure and Properties of VO_2 Thin Film for Uncooled IR Focal Plane Array

本文第五章对红外焦平面阵列中的噪声及噪声处理技术进行了理论分析，同时提出了一种用电流模技术设计的新CMOS电压差分器方案。

In fifth chapter , IRFPA 's noise and noise processing techniques are analyzed , and a new CMOS voltage differential circuit based on current-mode technique is given .

文章介绍了有关的高速LD、高速PD、大面阵CCD、新型红外焦平面阵列、多功能集成光学器件等的发展动向。

Typical devices include laser diodes with high bit-rate , photodiodes with high speed reponse , large-area CCD arrays , new-type infrared focal plane arrays and multifunction integrated optic components .

红外焦平面阵列（IRFPA）技术是发展二代热像仪的关键。

Infrared Focal Plane Array ( IRFPA ) is the key technology in developing second generation Infrared Thermal Imager .

本文全面深入地分析了PtSi肖特基势垒红外焦平面阵列技术的市场前景。

Here is in detail analyzed the market outlook of PtSi Shottky-barrier infrared focal plane arrays .

红外焦平面阵列（IRFPA）是红外成像技术中获取红外图像信号的核心光电器件。

Infrared focus plane array ( IRFPA ) is the critical part of image technology to acquire infrared image signal .

本文主要评述硅肖特基势垒、非本征硅、InSb和Hg（1-x）CdxTe几种红外焦平面阵列技术及其取得的进展和发展前景。

This paper mainly reviews Si Schottky barrier , extrinsic Si , InSb and HgCdTe infrared focal plane arrays technologies , their development status and the outlook .

提出了一种基于噪声等效温差（NETD）和灰度最小方差的红外焦平面阵列无效像元检测方法。

A method of IRFPA non-effective pixel discrimination based on NETD and gray minimum variance is put forward .

红外焦平面阵列（InfraredFocalPlaneArrays，简称IRFPA）是当今较先进的一类红外探测器，是红外成像系统的核心部件，其兼具辐射敏感和信号处理功能。

As the core component of infrared imaging system , the infrared focal plane arrays ( IRFPA ) is one kind of advanced infrared detector , which has both function of sensitive to infrared radiation and signal processing .

为了降低非制冷红外焦平面阵列的功耗，研究了去除热电制冷器（TEC）等温度稳定装置的读出电路。

In order to reduce power consumption of uncooled infrared focal plane arrays , the readout circuit of temperature stabilizer eliminated thermoelectric coolers ( TEC ) was studied .

针对其不足之处，提出一种基于中值滤波的红外焦平面阵列（IRFPA）非均匀性神经网络校正算法。

For this reason , a neural network method for correcting the non-uniformity of an infrared focal plane array ( IRFPA ) based on median filtering is proposed .

大规模（512×512像素）红外焦平面阵列（IRFPA）是当今国内外重点研发的新一代红外探测器。

At present , the large-scale Infrared Focal Plane Array ( IRFPA ) with 512 × 512 detectors is one of the advanced infrared detectors in the world .

随着红外焦平面阵列（IRFPA）的产生和发展，红外热成像技术已经成为当今世界许多国家大力发展的技术。

With the emergence and development of the infrared focal plane arrays ( IRFPA ), infrared imaging technology becomes a technology which is developed in emphasis in many countries .

红外焦平面阵列（IRFPA）的调制传递函数（MTF）是分析、评价第二代红外成像系统成像性能的重要参数之一。

The Modulation Transfer Function ( MTF ) of the Infrared Focal Plane Array ( IRFPA ) is one of the important parameters for analyzing and appraising the infrared imaging system .

以非制冷红外焦平面阵列和热剪切应力传感器为代表，分析了这两种典型的薄膜悬浮结构和带空腔结构的MEMS器件在进行二氧化硅牺牲层的腐蚀和最终结构释放过程中的各种问题。

According to the uncooled infrared focal plane array and thermal shear stress sensor , some questions in the wet etching and releasing of such MEMS devices were analyzed . Analysis of etching mechanism offered an effective reference for the etching hole or etching channel design ;

对基于测辐射热计型热敏电阻的非制冷红外焦平面阵列（IRFPA），在读出电路（RO-IC）中采用积分放大技术能有效提高探测器的信噪比。

To un-cooled infrared focal plane arrays ( un-cooled IRFPA ) based on sensitive resistance , it has been proved that integral technique can improve the signal-to-noise of the detector in the CMOS readout integrated circuits .

目前，红外焦平面阵列（IRFPA）是一种兼具辐射敏感和信号处理功能的技术性能最先进的红外探测器，它代表着红外探测器的发展方向。

At present , the Infrared Focal Plane Arrays ( IRFPA ) is represented the tendency of infrared detector , but the staring IR imaging system performance is crucial limited by the inherent nonuniformity of IRFPA .

概述了军用热成象系统中硅化铂肖特基势垒红外焦平面阵列（PtSi－SBIRFPA）技术的新发展。

This paper briefly describes the recent development of PtSi Schottky barrier infrared focal plane arrays ( PtSi SBIRFPA ) technology in military thermal imaging system .

红外焦平面阵列探测器（IRFPA）是红外探测系统以及红外热成像器件的关键部件，被广泛地应用于军事领域和民用领域，具有很大的应用与发展前景。

Infrared Focal Plane Array ( IRFPA ) is a key part of the infrared testing system and thermal imaging device , being applied extensively in the military and civil field . It has huge developing and applying prospect .

当外加偏置电压为3V时，BST薄膜的漏电流密度为1.5×10-7Acm2.该薄膜可作为制备新型非制冷红外焦平面阵列和先进非制冷红外热像仪的优选材料。

MgO was 1.5 × 10 - 7 A ? cm 2 at an applied voltage of 3V . Such epitaxial Ba 0.65 Sr 0.35 TiO 3 thin films are the excellent materials for preparing uncooled infrared focal plane arrays .

介绍了一种红外焦平面阵列（IRFPA）互补金属氧化物半导体（CMOS）读出集成电路（ROIC）的研制方案，叙述了读出电路的电路原理及工作时序、电路参数设计、版图设计及工艺分析。

A development of infrared focal plane array ( IRFPA ) complementary metal oxide semiconductor ( CMOS ) readout integrated circuit ( ROIC ) is introduced . The circuit principle of ROIC , time sequence of multiplexer , circuit parameter , layout design and technology analysis are described .

深入分析了红外焦平面阵列（IRFPA）非均匀性的神经网络校正法出现目标退化和伪像的成因，指出没有考虑目标边缘而盲目更新系数是产生问题的根源。

The cause of the target fade-out and the ghosting artifact in NN nonuniformity correction scheme for infrared focal plane array ( IRFPA ) was studied . It was found that ignoring target edge and updating correction coefficients blindly in the NN-NUC scheme were the cause of the problems .

红外焦平面阵列图像的伪彩色编码和处理

Pseudo-color Encoding and Processing for Images of Infrared Focal Plane Array

红外焦平面阵列响应度非均匀性的校正算法

An Algorithm for Correcting Response Nonuniformity of Infrared Focal Plane Arrays