A.A. Emelyanov – Design Engineer , JSC «Kaluga Scientific Research Radio Engineering Institute» M.E. Belkin – Dr. Sc. (Eng.), Moscow Technological University (MIREA)
E-mail: Belkin@mirea.ru
N.V. Toporkov – Ph. D. (Eng.), Head of Department, JSC «Kaluga Scientific Research Radio Engineering Institute» V.A. Masnoy – Ph. D. (Eng.), Main Specialist, JSC «CRET» E-mail: v.masnoy@kret.com
We propose a newer concept of designing the single-mode optical fiber-based centralized onboard synchro-network to distribute with high stability the clock waveforms of ultrahigh and microwave bands inside a flying vehicle. The circuitry design principles and key dissemination characteristics of a short-length fiber-optic analog transmission line as a requisite of this network are highlighted. Investigating the known publications the classification, normalized data and formulas for calculating signal distortions, primarily longterm and short-term phase distortions, which can be used in the design of a specific fiber-optic synchronization system, are collected and analyzed.
- Gus’kov Yu.N., Zhiburtovich N.Yu. Radary’ «Fazotrona» segodnya: nauchno-texnich. i organizaczionny’e aspekty’ problemy’ razrabotki // Aviapanorama. 2015. № 4 (112). S. 4−10.
- Amemiya M., et al. Simple Time and Frequency Dissemination Method Using Optical Fiber Network // IEEE Transactions on Instrumentation and Measurement. 2008. V. 57. № 5. P. 878−883.
- Belkin M.E., Klyushnik D.A. Primenenie fotonnogo podxoda dlya postroeniya soedinitel’ny’x linij peredachi sverxshirokopolosny’x radiosignalov // Sb. trudov VI Mezhdunar. konf. po fotonike i informaczionnoj optike. 1−3 fevralya 2017 g. M.: NIYaU MIFI. S. 96−97.
- Urik V.D., MakKinni D.D., Vill’yams K.D. Osnovy’ mikrovolnovoj fotoniki: Per. s angl. / Pod red. S.F. Boeva, A.S. Sigova. M.: Texnosfera. 2016. 376 s.
- Belkin M.E. Analogovy’e volokonno-opticheskie sistemy’ // LAMBERT Academic Publishing. 2011. 636 s.
- Belkin M.E., Klyushnik D.A., Fofanov D.A. Xarakteristiki e’lektroopticheskogo preobrazovaniya sovremenny’x lazerny’x izluchatelej pri raspredelenii po opticheskomu voloknu oporny’x radiosignalov deczimetrovogo diapazona // Nano- i mikrosistemnaya texnika. 2017. № 9. S. 556−568.
- Gaue’r Dzh. Opticheskie sistemy’ svyazi: Per. s angl. M.: Radio i svyaz’. 1989. 500 s.
- Campillo A.L., et al. Phase performance of an eight-channel wavelength-division-multiplexed analog-delay line // Journal of Lightwave Technology. 2004. V. 22. № 2. P. 440−447.
- Sun C.K., et al. Phase and amplitude stability of broadband fiber optic links // Proceedings of SPIE. 1995. V. 2560. P. 50−56.
- Urick V.J., et al. Long-haul analog photonics // Journal of Lightwave Technology. 2011. V. 29. № 8. P. 1182−1205.
- Shen P., et al. Polarization Mode Noise in Ultra-low Drift Phase Reference Distribution System over a Fiber Network // Proceedings of MWP. 2005. P. 297−300.
- Campillo A.L., et al. RF Phase Distortion Due to Crosstalk in an 8-Channel Wavelength Division Multiplexed Analog Delay Line // Proceedings of OFC. 2003. V. 2. P. 729−730.
- Corning, Inc. Corning SMF-28e+ Optical Fiber Product Information. http://www.corning.com/opticalfiber/products/SMF-28e+_fiber.aspx (2011)
- Potapova T.P., Toporkov N.V., Shabatura Yu.M. Vy’sokotochnoe opredelenie koordinat nazemny’x istochnikov radioizlucheniya s odnogo letatel’nogo apparata s ispol’zovaniem raznostno-fazovy’x izmerenij signala, prinyatogo raznesenny’mi antennami. Radiotexnika // 2016. № 11. S. 205−210.