The responsivity of the superconducting bolometer is analyzed.
分析了超导辐射热探测器的响应率。
After compared with the uncooled pyroelectric thermal imager, the bolometer thermal imager owns the better performance.
首先与非制冷热电热像仪进行了比较,指出测辐射热计热成像的优势。
Preparation of thermal sensitive thin film resistor is one of key technologies in uncooled micro bolometer IR FPA fabrication.
热敏薄膜电阻制备是非致冷微测辐射热计红外焦平面的一项关键技术。
This paper describes the classical mathematic model of bolometer, the effect of thermal isolation and noise on detector performance are also discussed.
总结了非制冷测辐射热计的经典数学模型,并分析了探测器热绝缘结构和噪声对性能的影响,指出了性能改进和优化的基本途径。
We use the thermal sensing circuit to replace the special material in antenna coupled bolometer in other process which the CMOS process does not provide.
会使用温测电路的原因为CMOS制程并没有其他制程的天线耦合辐射热计所需要的特殊材料。
Analysis of the simulation result attests that the thermal isolation structure is important in the design of a bolometer detector thus endorsing the present work.
仿真结果分析证明了热绝缘结构在探测器设计中是占有重要地位的,同时说明本文所做工作是有意义的。
The properties, preparation and characteristics of vanadium oxide thin film, which has been successfully used in un cooled micro bolometer fabrication, are reviewed.
对目前在非致冷微测辐射热计研制中得到成功应用的氧化钒薄膜的特性、制备及表征技术进行综述。
The paper describes an apparatus, bolometer and system for measuring the specific heat of small samples above liquid nitrogen temperature using relaxation calorimetry.
本文介绍一种用弛豫方法测量液氮温度以上小样品比热的装置、微型量热器和测量系统。
The system employs multiple detectors, each comprising an antenna coup LED with a device ( a bolometer) for measuring the energy of incident electromagnetic radiation.
系统应用了多个探测器,每一个探测器都包括一根连在用于测量投射电磁辐射能量的仪器(辐热测量计)上的天线。
Polymorphous silicon film was selected to be thermal-resistance layer of micro-bolometer, and we optimized the structure of micro-bolometer through optical and thermal design.
选定多形硅薄膜为微测辐射热计热敏层,并重点从光学和热学两方面对微测辐射热计结构进行了优化设计。
Study on designing of sensor device's structures and whole reasonable fabrication process, which are two key issues of uncooled infrared bolometer that based on MEMS technique.
本论文对实现基于MEMS工艺技术的非制冷型红外测辐射热计的两个主要关键内容进行了深入研究,即敏感器件结构的设计和整个制造工艺流程的合理设计。
Study on designing of sensor device's structures and whole reasonable fabrication process, which are two key issues of uncooled infrared bolometer that based on MEMS technique.
本论文对实现基于MEMS工艺技术的非制冷型红外测辐射热计的两个主要关键内容进行了深入研究,即敏感器件结构的设计和整个制造工艺流程的合理设计。
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