Photoelectric pod multi-sensor common optical path system
A photoelectric pod and multi-sensor technology, applied in the field of optical engineering, can solve problems such as large volume and weight, different structural deformation, and difficulty in parallel installation and adjustment, and achieve the effect of reducing the difficulty of installation and adjustment
Active Publication Date: 2018-08-17
西安应用光学研究所
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Problems solved by technology
[0003] Airborne optoelectronic pods have related optical systems in the laser, infrared and visible light bands. If an independent optical path is used for each band, it will not only bring about the problem of large volume and weight, but also cause structural deformation in the thermal environment. different, resulting in the difficulty of parallelism installation and adjustment, so a common optical path solution is required
[0004] The photoelectric pod system currently equipped cannot integrate laser communication, laser ranging, medium wave Infrared multispectral imaging and laser pressing are integrated through a common optical path
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[0024] The present invention will be further described in detail below in conjunction with the accompanying drawings and preferred embodiments.
[0025] as figure 1 As shown, the photoelectric pod multi-sensor common optical path system in this embodiment includes a Cassegrain secondary mirror (1), a Cassegrain primary mirror (2), a piezoelectric ceramic micro-vibration mirror (3), and a sapphire substrate beam splitter (4), mid-wave infrared multi-spectral imaging system (5), near-infrared beam splitter (6), receiving mirror (7), ranging receiver (8), communication receiver (9), communication transmitter (10 ), ranging transmitter (11), high-power laser transmitting system (12).
[0026] In this example, if figure 1 In the azimuth shown, the Cassegrain secondary mirror (1) is placed vertically, the Cassegrain primary mirror (2) and the Cassegrain secondary mirror (1) are placed at intervals, and the coaxial axial distance between the two is adjustable; The mirror surface o...
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The invention discloses a photoelectric pod multi-sensor common optical path system. Based on factors such as weight reduction, integration, strong laser, weak signal and spatial axis system, the laser beam of a high-power laser is combined with the medium-wave infrared multi-spectral imaging, laser communication and ranging optical path, since the laser communication and ranging work in a time-sharing manner, the two may be placed in the same position, the structure reduces the optical path, therefore, the volume and weight of the system are greatly reduced, the difficulty of installation andadjustment is reduced, the alarm and discovery of a long-distance target by the multi-spectral imaging system are realized to obtain the distance information by laser ranging, the laser communicationis achieved, and the target may be interfered, glared and damaged.
Description
technical field [0001] The invention relates to the technical field of optical engineering, in particular to a photoelectric pod multi-sensor common optical path system. Background technique [0002] In order to realize the weaponization of airborne optoelectronic pods, it is of great research significance to design an airborne optoelectronic pod that integrates perception, detection, communication and suppression. [0003] Airborne optoelectronic pods have related optical systems in the laser, infrared and visible light bands. If an independent optical path is used for each band, it will not only bring about the problem of large volume and weight, but also cause structural deformation in the thermal environment. different, resulting in the difficulty of parallelism installation and adjustment, so a common optical path solution is required. [0004] The photoelectric pod system currently equipped cannot integrate laser communication, laser ranging, medium wave Infrared mul...
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IPC IPC(8): G02B17/06H04B10/50H04B10/60G01S17/08G01V8/10
CPCG01S17/08G01V8/10G02B17/061H04B10/503H04B10/60
Inventor 陈文建李刚高纬张佳王诚卢恒陈胜石谷衡段园园马世伟郭俊超刘晓英张晓辉
Owner 西安应用光学研究所