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Journal Radioengineering №2 for 2021 г.
Article in number:
Formation of frequency-modulated signals using the direct digital synthesis method
DOI: 10.18127/j00338486-202102-13
UDC: 621.373
Authors:

I.V. Ryabov, N.V. Degtyarev, E.S. Klyuzhev, I.V. Strelnikov

Volga State University of Technology (Yoshkar-Ola, Russia)

Abstract:

The most important trends of the development of communication and radiolocation systems are the application of higher frequencies and the transition to the use of complex signals for the creation of new advanced radio engineering systems with improved noise immunity.

The search for new methods of improving the operation speed and «spectrum purity» of formed oscillations is very important.

The purpose of the work is to extend functional capabilities of direct digital synthesizers and digital frequency synthesizers, when using them in radio-electronic systems of radiolocation, navigation and communication.

While solving the set tasks, the methods of the signal theory, number theory, probability theory and mathematical statistics as well as mathematical modeling, computer simulation and experimental research were used in the work.

These direct digital synthesizers allow synthesizing frequency-modulated and phase- manipulated signals and they have extended functional capabilities in comparison with other types of synthesizers. The given direct digital synthesizers can be used in adaptive communication systems, telecommunications, radio-engineering systems for the remote sensing of the ionosphere, in radiolocation and navigation systems.  

Pages: 95-101
For citation

Ryabov I.V., Degtyarev N.V., Klyuzhev E.S., Strelnikov I.V. Formation of frequency-modulated signals using the direct digital synthesis method. Radiotekhnika. 2021. V. 85. № 2. P. 95−101. DOI: 10.18127/j00338486-202102-14  (In Russian).

References
  1. Ryabov I.V. Cifrovoj sintez precizionnyh signalov (monografiya). Joshkar-Ola: MarGTU. 2005. 152 s. (In Russian).
  2. Ryabov I.V. Cifrovye sintezatory chastotno-modulirovannyh signalov. Pribory i tekhnika eksperimenta. 2001. № 2. S. 62–69 (In Russian).
  3. Yampurin N.P., Boloznev V.V., Safronov E.V., Zhalnin E.B. Formirovanie precizionnyh chastot i signalov: Ucheb. posobie. Nizhnij Novgorod: Nizhegorodskij gosudarstvennyj tekhnicheskij universitet. 2003. 187 s. (In Russian).
  4. Cushing R. Single-sideband upconversion of quadrature DDS signals to the 800-to-2500-MHz band. Analog Dialogue. 2000. V. 34. № 1. P. 46–49.
  5. Vankka, J., Lindeberg J., Halonen K. Direct digital synthesizer with tunable phase and amplitude error feedback structures. Proc. Int. Symp. Circuits and Systems ISCAS’03. 2003. V. 1. P. 785–788.
  6. McEwan A., Collins S. Analogue interpolation based direct digital frequency synthesis. Proc. Int. Symp. Circuits and Systems ISCAS ’03. 2003. V.1. P. 621–624.
  7. Wang C.-C., Huang J.-M., Tseng Y.-L. Phase-Adjustable Pipelining ROM-Less Direct Digital Frequency Synthesizer With a 41.66-MHz Output Frequency. Circuits and Systems II: Express Briefs. IEEE Transactions. 2006. V. 53. P. 1143–1147.
  8. Liu X., Shi Y., Wang M., Deng J. Direct digital frequency synthesizer based on curve approximation. Industrial Technology ICIT 2008. IEEE International Conference. 2008. P. 1–4.
  9. Jafari H., Ayatollahi A., Mirzakuchaki S. A low power, high SFDR, ROM-less direct digital frequency synthesizer. Microelectronics ICM 2005, 17th International Conference. 2005. P. 5.
  10. Belov L.A. Radioelektronika: Formirovanie stabil'nyh chastot i signalov: Uchebnik dlya bakavriata i magistratury. Izd. 2. M.: Izd-vo Yurajt. 2018. 242 s.
  11. Ridiko L. DDS: pryamoj cifrovoj sintez chastoty. Komponenty i tekhnologii. 2001. № 7 (In Russian).
  12. Ivanov V.A., Ivanov D.V., Chernov A.A. Teoreticheskie osnovy metoda pryamogo cifrovogo sinteza radiosignalov dlya cifrovyh sistem svyazi. Vestnik PGTU: Ser.: Radiotekhnicheskie i infokommunikacionnye sistemy. 2012. № 3. S. 3–34 (In Russian).
  13. Ryabov I.V. Metod pryamogo cifrovogo sinteza signalov. Radiotekhnika. 2006. № 9. S. 14–17 (In Russian).
  14. Patent № 2204196 (RF) MPK N03L 7/18. Cifrovoj sintezator fazomodulirovannyh signalov. I.V. Ryabov, V.I. Ryabov. 2003 (In Russian).
  15. Patent № 2204197 (RF). Cifrovoj sintezator chastotno-modulirovannyh signalov. I.V. Ryabov, V.I. Ryabov. 2003 (In Russian).
Date of receipt: 01.12.2020
Approved after review: 25.12.2020
Accepted for publication: 14.01.2021