共查询到18条相似文献,搜索用时 93 毫秒
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研制成一种小型、便携式、低值、对人眼安全、无合作目标的小型低值半导体LD激光测距仪.工作波长λ=905nm;测距范围14~1000m;测距精度<±1m;重复频率100Hz.有多种工作模式,具有省电功能.它的测距能力优于国内外同类低值LD激光测距仪.LF-1激光测距仪是一种光子雷达系统.本文从光子测距方程、系统结构、信噪比分析角度,讨论了系统的测距能力. 相似文献
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对人眼安全的云高激光测距仪由工作波长为1.73μm的Er:LiYF_4激光器和锗探测器组成。一、发明背景本发明论述激光系统,更详细地叙述了测量云高的激光系统。该激光系统对军用和民用都很需要。其中一种应用是精确测量机场上空的云层高度。云高测距仪或云高仪由于与机场普通人 相似文献
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在试验数据有限的情况下,通过分析激光测距系统工作模式和建立系统可靠性模型解决了小批量、复杂的某型激光测距系统可靠性评价问题。根据以前相似产品的试验数据,采用相似电路法对系统可靠性进行预计。根据激光晶体、染料片、全反射镜、聚光腔等元器件的寿命,对激光器寿命进行预计,并在实际使用中得到了验证。这对系统设计和使用具有重要参考作用。 相似文献
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提出一种基于正交调制的激光测距系统,该方案与传统的二次混频方法相比,提高了相位测量精度并简化了系统的硬件设计,针对距离测量过程中的距离模糊问题,提出了一种基于超定方程组的距离解模糊算法,避免了对最优解的搜索,最后使用2台K60激光测距仪和3台基于本方案的测距仪在精度为0.18 mm的国家标准基线上进行对比试验,结果显示,测距时间少于1.8 s,平均测量误差在2 mm以内,在60 m的量程内测距标准差在1 mm以内,验证了该方案相比较传统的方法具有更高的测量精度和速度。 相似文献
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Jianhong H Jipeng L Rongbing S Jinghui L Hui Z Canhua X Fei S Zongzhi L Jian Z Wenrong Z Wenxiong L 《Optics letters》2007,32(9):1096-1098
We present the results of a solid self-Raman laser based on a Nd:KGW crystal that is transversely pumped by laser diode bars. A beam of an eye-safe laser with a 31.8 mJ output energy and a 2.0 ns pulse width was obtained by applying a special s-polarized reflective resonator configuration in which the length of the Raman resonator was shorter than that of the fundamental radiation resonator. The eye-safe laser has the highest output energy and the shortest pulse width among the Nd:KGW lasers ever reported. 相似文献
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J. Wojtanowski M. Zygmunt M. Kaszczuk Z. Mierczyk M. Muzal 《Opto-Electronics Review》2014,22(3):183-190
Laser rangefinder performance (i.e., maximum range) is strongly affected by environment due to visibility-dependent laser attenuation in the atmosphere and target reflectivity variations induced by surface condition changes (dry vs. wet). Both factors have their unique spectral features which means that rangefinders operating at different wavelengths are affected by specific environmental changes in a different way. Current state of the art TOF (time of flight) semiconductor laser rangefinders are based mainly on two wavelengths: 905 nm and 1550 nm, which results from atmospheric transmission windows and availability of high power pulsed sources. The paper discusses the scope of maximum range degradation of hypothetical 0.9 μm and 1.5 μm rangefinders due to selected water-related environmental effects. Atmospheric extinction spectra were adapted from Standard Atmosphere Model and reflectance fingerprints of various materials have been measured. It is not the aim of the paper to determine in general which wavelength is superior for laser range finding, since a number of criteria could be considered, but to verify their susceptibility to adverse environmental conditions. 相似文献
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