Modeling of the Payload Signal Generator of the UAV Radio Transmitter based on the Phase Distortion Autocompensator

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The circuit of the payload signal generator of the UAV radio transmitter with a phase distortion autocompensator
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Published: Dec 9, 2022
DOI: https://doi.org/10.17762/ijritcc.v10i1s.5791
Keywords:
unmanned aerial vehicle, signal generator, digital computing synthesizer, phase distortion auto-compensator.

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Surzhik Dmitry I.
Belgorod State Research University, Belgorod, 308015, Russia
Kuzichkin Oleg R.
Vladimir State University named after Alexander Grigoryevich and Nikolai Grigorievich Stoletovs, Vladimir, 600000, Russia
Vasilyev Gleb S.
Belgorod State Research University, Belgorod, 308015, Russia

Abstract

A block diagram of a payload signal generator of a UAV radio transmitter with an autocompensator for phase distortion of a digital computational synthesizer with improved spectral characteristics compared to known solutions is considered. Schematic diagrams and circuit design models of the main paths of the shaper in the Micro-Cap environment with the analysis of the characteristics of the necessary radio elements and microcircuits have been developed. The simulation of the device operation in the frequency domain is carried out. Based on the simulation results, the conditions for selecting the parameters of the shaper to achieve the greatest compensation of phase distortions are formulated.

Article Details

How to Cite
Dmitry I., S. ., Oleg R., K. ., & Gleb S., V. . (2022). Modeling of the Payload Signal Generator of the UAV Radio Transmitter based on the Phase Distortion Autocompensator. International Journal on Recent and Innovation Trends in Computing and Communication, 10(1s), 15–18. https://doi.org/10.17762/ijritcc.v10i1s.5791
Issue
Vol. 10 No. 1s (2022): Special Issue on Enhancement and Innovations in Exploring Engineering
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Articles

References

I. Bekmezci, O. K. Sahingoz, S. Temel., Flying Ad-Hoc Networks (FANETs): A Survey, Ad Hoc Networks, 2013, Vol. 11, ? 3, pp. 1254–1270.

Fokin, A. Models of radio communications with unmanned aerial vehicles // Proceedings of the schools of communication. 2018. Vol. 4. No. 4. P. 85-101.

Kulikov G. V., Tambov S. S. Assessment of quality of communica-tion with UAVs in urban areas / Vestnik of MSTU MIREA. - 2015, ? 1 (6). - P. 205-217.

Vasin V. A. Radio transmission of information: a textbook for high schools / V. A. Vasin, Vladimir Kalmykov, Yu. N. Sebekin, A. A. Senin, I. B. Fedotov; ed. by I. B. Fedotov and V. V. Kalmykov. – Moscow: Goryachaya Liniya – Telekom publ., 2005. – 472?.

Kuzichkin O.R., Surzhik D.I., Vasilyev G.S. Noise Characteristics Of Signal Generators Of Radio Transmitters For Wireless Ad-Hoc Communication Networks / Journal of Advanced Research in Dy-namical and Control Systems (JARDS). ISSN: 1943-023X. Vol-ume 12 | 06-Special Issue. Pp. 496-504. DOI: 10.5373/JARDCS/V12SP6/SP20201057. https://www.jardcs.org/abstract.php?id=5195#.

Surzhik, D. I. Compensation of distortions of the DDS in hybrid frequency synthesizers / D. I. Surzhik, I. A. Kurilov, G. S. Vasilyev // Radio engineering and telecommunication systems. - 2015. – ? 4(20). - Pp. 13-19.

Kurilov, I.A. Mathematical modeling of phase noise autocompensa-tion at the output of the DAC of a direct digital frequency synthesiz-er / I.A. Kurilov, A.M. Rudakov, S.M. Kharchuk, D.N. Romanov // Radio engineering and 144 telecommunication systems. - 2013. - ?2 (10). – Pp. 19-25.

Vasilyev, G.S. Modeling of a nonlinear phase interference autocom-pensator DAC of a direct digital frequency synthesizer / G.S. Vasi-lyev, I.A. Kurilov, S.M. Kharchuk // Radio engineering and tele-communication systems. - 2014. - No.2. – pp. 30-38.

Gleb S. Vasilyev, Dmitry I. Surzhik, Oleg R. Kuzichkin, Igor A. Kurilov, "Algorithms for Adapting Communication Protocols of Fanet Networks," Journal of Software vol. 15, no. 4, pp. 114-122, ISSN: 1796-217X doi: 10.17706/jsw.15.4.114-122 2020.http://www.jsoftware.us/index.php?m=content&c=index&a=show&catid=220&id=3005.

Goldberg, Bar-Giora. Digital Frequency Synthesis Demystified DDS and Fractional-N PLLs / Bar-Giora Goldberg. - LLH Technol-ogy Publishing, 1999. – 355 p.

Izraelson, D. Precision formation of a sinusoidal signal shape on DDS structures / D. Izraelson // Chipnews. - 2006. - No.6. - C.32-35.

Kochemasov, A. Digital computational synthesizers - application in frequency and signal synthesis systems / A. Kochemasov, A. Golubkov, N.. Egorov, A. Cherkashin, A. Chuguy // Electronics: Science, Technology, Business. – 2014. - No. 8. - C. 171-178.

Kroupa, V.F. Phase Lock Loops and Frequency Synthesis / V.F. Kroupa. - John Wiley & Sons, Ltd, 2003. – 320 p.

Romashov, V.V. Assessment of the level of secondary spectral components of digital computing synthesizers due to truncation of the phase code / V.V. Romashov, A.V. Merguryev // Scientific and Technical Bulletin of the Volga region. - 2010. - No. 1. - pp.120-124.

Amelina, M.A. Micro-Cap circuit modeling program. Version 9, 10. / M.A. Amelin, S.A. Amelin. - Smolensk, Smolensk branch of NRU MEI, 2013. - 618 p.

Kasyanov, A.N. Micro-Cap in circuit engineering: A textbook / A.N. Kasyanov. - Tambov: Publishing House of the Tambov State Technical University, 2004. - 112 p.