用于红外探测器在低温宽波段响应性测量的高性能试验台

L. A. Faria, L. Nohra, N. Gomes, F. Alves
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引用次数: 5

摘要

目前,红外波段的检测在皮肤病检测、遥感检测以及各种军事设备中都显示出重要的作用。负责这种检测的基本上是对红外辐射敏感的光电探测器阵列(FPA)。本文提出了一个模块化和自适应试验台,基于24个电子和光学元件的排列,分为四个主要功能块,提供了允许红外光电探测器精确设计验证的方法程序。系统被设想提供的目标度量是响应性。从本质上讲,所开发的系统不同于以往的系统,其适应性和硬件模块化的概念,允许一个简单的重新配置,以测试不同种类的光电探测器。在这里,我们将响应度的理论计算与实际实验测量进行了比较,允许16K到100K之间的低温平均值,波长从0.7μm到12μm(在本工作中是0.8μm到1.0μm),并且可以设置多达10个I/O电气端子的探测器。利用量子阱红外探测器(QWIP)对该试验台进行了运行验证,实验结果与预期的理论结果高度吻合。
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A high-performance Test-Bed Dedicated for Responsivity Measurements of Infrared Photodetectors in a Wide Band of Low Temperatures
Nowadays, the detection in the infrared band (IR) has shown great importance in several areas such as skin illnesses detection, remote sensor and in different military devices. The responsible for such detection is, basically, photodetector arrays (FPA) sensitive to infrared radiation. This paper presents a modular and adaptative test-bed, based upon an arrangement of 24 electro and optical components divided in four major functional blocks, providing methodological procedures that allows an accurate design verification of infra-red photodetectors. The target metric that the system is con- ceived to provide is Responsivity. In essence, the developed system differs from the previous ones by its adaptability and its hardware modularity conception that allows an easy reconfiguration to test different kinds of photodetectors. Here we compare a theoretical calculation of responsivity with actual experimental measurements, allowing low temperature meas- urements between 16K and 100K, in wavelength from 0.7μm up to 12μm (0.8μm to 1.0μm in this work) and the possibility to set detectors with up to 10 I/O electric terminals. The operational validation of this test-bed is achieved with a studied Quantum Well Infrared Photodetectors (QWIP), exhibiting high compliance with the expected theoretical results.
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来源期刊
International Journal of Online Engineering
International Journal of Online Engineering COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
自引率
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发文量
0
审稿时长
12 weeks
期刊介绍: We would like to inform you, that iJOE, the ''International Journal of Online Engineering'' will accept now also papers in the field of Biomedical Engineering and e-Health''. iJOE will therefore be published from January 2019 as the ''International Journal of Online and Biomedical Engineering''. The objective of the journal is to publish and discuss fundamentals, applications and experiences in the fields of Online Engineering (remote engineering, virtual instrumentation and online simulations, etc) and Biomedical Engineering/e-Health. The use of cyber-physical systems, virtual and remote controlled devices and remote laboratories are the directions for advanced teleworking/e-working environments. In general, online engineering is a future trend in engineering and science. Due to the growing complexity of engineering tasks, more and more specialized and expensive equipment as well as software tools and simulators, shortage of highly qualified staff, and the demands of globalization and collaboration activities, it become essential to utilize cyber cloud technologies to maximize the use of engineering resources. Online engineering is the way to address these issues. Considering these, one focus of the International Journal of Online and Biomedical Engineering is to provide a platform to publish fundamentals, applications and experiences in the field of Online Engineering, for example: Remote Engineering Internet of Things Cyber-physical Systems Digital Twins Industry 4.0 Virtual Instrumentation. An important application field of online engineering tools and principles are Biomedical Engineering / e-Health. Topics we are interested to publish are: Automation Technology for Medical Applications Big Data in Medicine Biomedical Devices Biosensors Biosignal Processing Clinical Informatics Computational Neuroscience Computer-Aided Surgery.
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