Inter-satellite coherent optical communication locked frequency analysis and method

Haichao Guo; Shang She; Li Xiaojun; Dawei Song

doi:10.1117/12.2053550

3 October 2014 Inter-satellite coherent optical communication locked frequency analysis and method

Haichao Guo, Shang She, Li Xiaojun, Dawei Song

Proceedings Volume 9224, Laser Communication and Propagation through the Atmosphere and Oceans III; 92241B (2014) https://doi.org/10.1117/12.2053550
Event: SPIE Optical Engineering + Applications, 2014, San Diego, California, United States

Abstract

In free space optical homodyne receiver that analyze Residual carrier COSTAS loop, Inter-satellite LEO-GEO laser communication link frequency analysis, result from Doppler frequency shift 10GHz in the maximum range, LEO-GEO inter-satellite laser links between Doppler rate of change in the 20MHz/s. The optical homodyne COSTAS receiver is the application in inter-satellite optical link coherent communication system. The homodyne receiver is the three processes: Scanning frequency, Locked frequency and Locked phase, before the homodyne coherent communication. The processes are validated in lab., and the paper presents the locked frequency data and chart, LO laser frequency with triangle control scanning and receiving optical frequency is mixed less 100MHz intermediate frequency, locked frequency range between 100MHz and 1MHz basically, discriminator method determines mixing intermediate frequency less 1MHz between the signal laser and the LO laser with the low-pass filter due to frequency loop and phase loop noise. When two loops are running, the boundary frequency of laser tuning is fuzzy, so that we must be decoupling internal PID parameters. In the Locked frequency and phase COSTAS loop homodyne receiver gave the eye-diagram with Bit error rate 10E-7.

Citation Download Citation

Haichao Guo, Shang She, Li Xiaojun, and Dawei Song "Inter-satellite coherent optical communication locked frequency analysis and method", Proc. SPIE 9224, Laser Communication and Propagation through the Atmosphere and Oceans III, 92241B (3 October 2014); https://doi.org/10.1117/12.2053550

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