探空火箭子有效载荷自由空间光通信系统的探索

2011 International Conference on Space Optical Systems and Applications (ICSOS) Pub Date : 2011-05-11 DOI:10.1109/ICSOS.2011.5783686

J. Gealy, M. Lessard, P. Riley

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引用次数: 0

摘要

介绍了探空火箭及其子载荷之间自由空间光学(FSO)新应用的探索结果。这包括根据环境和系统级标准对光电和光学器件进行评估。利用现有的内部组件和台式设备进行了初步测试，以确定这种环境下FSO的潜在距离和数据速率。利用一个光功率输出约为6毫瓦的发光二极管和一个最初用于康普顿伽马射线天文台的光电倍增管，在大气中传输了400米的距离，脉冲速率为10千赫兹。使用光学带通滤波器将传输距离增加到500米，使用挡板将传输距离增加到900米。预计在最终设计中，通过使用更多的发射器，每个发射器都具有更大的光功率输出，可以实现更大的距离和数据速率。

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Exploration of a free-space optical communications system for sounding rocket sub-payloads

The results of an exploration regarding the novel use of free-space optics (FSO) between sounding rockets and their sub-payloads are presented. This includes an evaluation of optoelectronic and optical devices against environmental and system level criteria. A preliminary test using available in-house components and bench-top equipment was also performed to determine potential distances and data rates of FSO in this environment. Using a light emitting diode with an optical power output of approximately six milliwatts, and a photomultiplier tube originally purposed for use on the Compton Gamma Ray Observatory, a pulse rate of ten kilohertz was transmitted over a distance of four-hundred meters in-atmosphere. Transmission distance was increased to five-hundred meters using an optical bandpass filter, and nine-hundred meters using a baffle. It is expected that even greater distances and data rates can be achieved in the final design by using more transmitters, each with greater optical power output.

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2011 International Conference on Space Optical Systems and Applications (ICSOS)

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