By leveraging the power of modern data links and Global Information Grid-like networks, the F-16CJ was able to down-link sensor data real-time to the DCGS at Langley AFB in Virginia for processing.
通过利用现代数据链和全球信息栅格网络,F - 16 CJ飞机能下行传感器数据实时送到弗吉尼亚州的兰利空军基地通用地面站处理。
It is engaged in research, design, development and manufacture of state-of-the-art infrared detectors and sensor engines for programs such as the F-22 Raptor and F-35 Joint Strike Fighter.
主要从事最先进的红外探测器和传感器工程的研究、设计、开发和生产,产品用于F - 22“猛禽”和F - 35“联合打击战斗机上”。
EOTS is part of the F-35 Electro-Optical Sensor System that consists of Northrop Grumman's Distributed Aperture System and EOTS.
F - 35光电传感器系统由EOTS系统和诺斯罗普·格鲁门公司的分布式孔径系统组成。
The f-stop, otherwise known as the aperture, determines your depth of field (the area in focus) and how much light can pass through the lens to reach the sensor.
f制光圈(或称光圈)决定相机的景深(对焦区域)以及有多少光能通过镜头到达传感器。
The sensitivity of intrinsic fiber optic Fabry Perot (F P) magnetic sensor is studied and the influence of linewidth of light source is discussed.
分析了内置式光纤法布里珀罗磁场传感器的灵敏度及光源线宽对灵敏度的影响。
With the advantages of good stability, high precision and good electromagnetic resistance, the Fabry-Perot(F-P) strain sensor get increasing applications in the bridge structure status monitoring.
光纤法-布(F-P)应变传感器具有稳定性好、精度高、抗电磁干扰能力强等特点,在桥梁结构状态监测中得到日益广泛的应用。
Based on the theory of Fabry-Perot, the influence of light source on optical fiber F-P strain sensor system has been analyzed.
从多光束干涉的基本原理出发,分析了光源光谱对光纤法布里珀罗应变传感系统的影响。
A scheme Of optical fiber displacement sensor with renective dual F-P interferometers is presented. In this scheme a LED is used as light source.
提出了一种反射式双F-P干涉仪光纤位移传感器方案,在这个方案中采用LED作为光源。
Fourthly, the F-P liquid level sensor was fabricated, the practical measurements were carried out both for the air pressure and the water level.
实际制作了双光路光纤F-P腔液位传感器,进行了实际气压模拟试验和实际水位测量试验,取得成功有价值的结果;
The multinomial regression-analysis method is adopted in matrix set -up of sensor static characteristics, F-examination is used for the recognition of power. This method is common and practical.
本文采用多项式回归分析的方法,进行传感器静态特性的建模。
Demodulation experiment is done using fiber F-P sensor and FBG sensor respectively, the results are as following: The choosing tunable fiber F-P filter can meet the requirement of system;
分别使用光纤F-P和FBG传感器进行解调实验,实验结果表明:选用的可调珐珀滤波器能够很好的满足系统要求;
Simultaneously, it could solve the issue of mass production of F-P sensor, and offer basis for the purpose of wide application of F-P sensor, which is also significant from aspect of application.
同时可望解决光纤珐-珀传感器的批量制造问题,从而为微光纤珐-珀传感器的广泛应用奠定基础,因此,具有重要的应用价值。
After frequency selecting when white light walks through the F-P sensor which cavity modulated by temperature, wavelength demodulating is realized with a plane grating and CCD.
采用铜管和端面镀膜的光纤制作f - P传感器,白光光源经过腔长受温度调制的F - P传感器选频后,用平面光栅和线阵CCD实现光波波长的解调。
The tank contains compressor using freon F-12 as refrigerant, and pressure sensor, and temperature regulator for automatic controlling.
本产品采用氟利昂压缩机组,以F - 12作制冷剂,并装有压力继电器与温度调节器自动控制。
The tank contains compressor using freon F-12 as refrigerant, and pressure sensor, and temperature regulator for automatic controlling.
本产品采用氟利昂压缩机组,以F - 12作制冷剂,并装有压力继电器与温度调节器自动控制。
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