Because of many advantages, uncooled focal plane thermal imaging systems are widely used in both military and civil fields.
非致冷焦平面热成像系统由于自身的众多优点,在诸多军事和民用领域都具有广泛的应用。
Thermal imaging systems based on uncooled focal plane array detectors require their optical lens with a large relative aperture.
基于非致冷焦平面阵列探测器的热成像系统,要求光学系统具有足够大的相对孔径。
The infrared focal plane arrays (IRFPA) can be classified into the cooled focal plane arrays and uncooled focal plane arrays (UFPA).
红外焦平面包括制冷型焦平面和非制冷型焦平面两种。
With SOPC technology uncooled focal plane infrared(IR)imaging system has smaller size, lower power consumption and better performance.
采用SOPC技术可使非制冷焦平面红外成像系统体积更小、功耗更低、性能更稳定。
For uncooled focal plane array pixel maintain a steady temperature can improve the precision, temperature control system based on ADN8830 single-chip thermoelectric cooler controller is designed.
本文针对非制冷焦平面阵列像元温度保持恒定可以提高测试精度的问题,提出了基于ADN8830单芯片热电制冷器控制器的温控系统设计。
PST thin films are excellent materials for preparing ferroelectric miniature refrigerator and uncooled pyroelectric infrared focal plane arrays.
该薄膜是研制铁电微型致冷器和非致冷热释电红外焦平面阵列的优选材料。
A staring imaging laser detecting and warning system is formed by using 4-channel uncooled infrared focal plane detectors, large field optical system, narrow band filters and signal processing system.
利用四路红外非制冷焦平面探测器、大视场光学系统、窄带滤光片和信号处理系统,构成了凝视成像激光探测与告警系统。
Because of the features of small size and not being cooled, an uncooled infrared focal plane array detector has a broad application prospect.
非致冷红外焦平面阵列探测器具备体积小、无需致冷的优点,具有广泛的应用前景。
The design of high-precision temperature control system is the key to achieve high performance uncooled infrared focal plane thermal imager.
高精度的温控系统是实现高性能非制冷红外焦平面热像仪设计的关键。
The technology of staring uncooled infrared focal plane arrays (UFPA) with high-density and low-cost is the third breakthrough in the developing of infrared imaging technology.
高密度、低成本的非致冷凝视焦平面阵列的出现使红外热成像技术发生了第三次变革。
Temperature unstability is one of the important factors affecting the performance of an uncooled infrared focal plane detector.
温度不稳定是影响非致冷红外焦平面探测器性能的重要因素之一。
The parameters and interface of an uncooled infrared focal plane array are analyzed. According to the interface requirements of the focal plane array, a drive circuit is designed.
分析了非致冷红外焦平面阵列的各项参数及接口,根据焦平面的接口要求设计了驱动电路。
In order to reduce power consumption of uncooled infrared focal plane arrays, the readout circuit of temperature stabilizer eliminated thermoelectric coolers (TEC) was studied.
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。
The company engages in the research and development as well as the production of the core chip technology of uncooled infrared focal plane array (FPA) and the infrared cameras.
公司主要致力于非制冷红外焦平面探测器核心FPA芯片技术及其红外热像仪的研发和生产。
The company engages in the research and development as well as the production of the core chip technology of uncooled infrared focal plane array (FPA) and the infrared cameras.
公司主要致力于非制冷红外焦平面探测器核心FPA芯片技术及其红外热像仪的研发和生产。
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