KEYWORDS: Data storage, Clocks, Data conversion, Data communications, Atmospheric optics, Telecommunications, Laser communications, Satellites, Field programmable gate arrays, Scintillation
In the link of satellite to ground laser communication, light signals received by ground terminal receivers are susceptible to interference due to the impact of atmospheric turbulence, and it will result in the degradation of communication quality or even interruption. In this situation, the conventional communication detection device would not be able to analyze the link performance. Thus, it is necessary to develop a set of non-continuous optical signal
recognition and storage devices which could work under adverse atmospheric conditions and do the online analysis of
the impact of atmospheric on the link of satellite to ground laser. Since the interruption of the optical signal will cause
the logical disorders of the high data rate storage system, which uses the CDR output clock as the system clock, general storage device cannot meet the demand of effective storage for communication. In this paper, the usage of FPGA optical
signal recovered clock frequency discriminator identified the impact of non-continuous communication signal of
atmospheric disturbances effectively. Through the optimization of the system hardware design and software control, we achieved the identification and storage of the laser communication optical signal data while the factor of atmospheric
scintillation varying from 0 to 1.5 and the communication data rate being 600Mbps.
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