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vol 67 / February, 2024
Article

DOI 10.17586/0021-3454-2019-62-1-5-22

UDC 53.083.92 : 621.3.084

RING PULSE GENERATORS IN DIGITAL INFORMATION DEVICES

V. A. Chulkov
Penza State Academy of Technology, Department of Computers and Computing Systems;


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Abstract. An overview of the development of ring pulse generators for digital measuring transducers is presented. Among others, devices based on user-programmable gate arrays are considered. Basic structures of the ring oscillators are presented, as well as design options of their cascades with the ability to control delay time and, therefore, stabilization and regulation of the frequency of the pulses. Methods and technical implementation of digital and analogue adjustment of vibration frequency with the use of advanced interpolation are described. Recommendations on construction of time—code converters based on the valve matrix programmable by the user are formulated.
Keywords: time, interval, ring generator, phase interpolation, delay element, time discretization

References:
  1. Rathore T.S. Digital Measurement Techniques, Alpha Science International Ltd., Pangbourne, England, 2003, 309 p.
  2. Shlyandin V.M. Tsifrovyye izmeritel’nyye preobrazovateli i pribory (Digital Measuring Transducers and Devices), Moscow, 1973, 278 р. (in Russ.)
  3. Topil’skiy V.B. Skhemotekhnika analogo-tsifrovykh preobrazovateley (Circuitry of Analog-to-Digital Converters), Moscow, 2014, 288 р. (in Russ.)
  4. Mandal M.K., Sarkar B.C. Journal of Pure & Applied Physics, 2010, no. February(48), pp. 136–145.
  5. Chulkov V.A. Optoelectronics, Instrumentation and Data Processing, 2008, no. 6(44), pp. 116–127. (in Russ.)
  6. Mazda F.F. Electronic Instruments and Measurement Techniques, Cambridge University Press, 1987, 320 р.
  7. Rannev G.G., Tarasenko A.P. Metody i sredstva izmereniy (Methods and Means of Measure-ment), Moscow, 2004, 336 р. (in Russ.)
  8. Chulkov V.A. Radioengineering, 2002, no. 10, pp. 51–55. (in Russ.)
  9. Chulkov V.A. Journal of Instrument Engineering, 2004, no. 8, pp. 28–34. (in Russ.)
  10. Chulkov V.A. Interpoliruyushchiye ustroystva sinkhronizatsii i preobrazovateli informatsii (The In-terpolating Devices of Synchronization and Converters of Information), Moscow, 2010, 324 р. (in Russ.)
  11. Chulkov V.A. Journal of Instrument Engineering, 2009, no. 9, pp. 53–57. (in Russ.)
  12. Butayev M.M., Chulkov V.A. Issues of radio electronics. Electronic computers, 2010, no. 5, pp. 130–140. (in Russ.)
  13. Chulkov V.A., Nesterenko S.A. Novyye informatsionnyye tekhnologii i sistemy (New Information Technologies and Systems), Collection of articles of the XI International Scientific and Technical Conference, Penza, 2014, рр. 22–24. (in Russ.)
  14. Patent 2260830 RU, Ustroystvo dlya izmereniya intervala vremeni (The Device for Measurement of an Interval of Time), Chulkov V.A., Published 20.09.2005, Bulletin 26. (in Russ.)
  15. Chulkov V.A., Medvedev A.V. Instruments and Experimental Techniques, 2009, no. 6(52), pp. 788–792.
  16. Biryukov S.A. Primeneniye tsifrovykh mikroskhem seriy TTL i KMOP (Application of Digital Chips of the TTL and CMOS Series), Moscow, 2006, 240 р. (in Russ.)
  17. Braga N.C. Book CMOS projects and experiments: fun with the 4093 integrated circuit, Newnes, 1999, 339 р.
  18. Docking S., Sachdev M. IEEE Journal of Solid State Circuits, 2004, no. 3(39), pp. 533–537.
  19. Docking S., Sachdev M. IEEE Transactions on Circuits and Systems I, 2003, no. February(50), pp. 259–264.
  20. Weigandt T., Kim B., Gray P. Proc. IEEE Int. Symp. Circuits and Systems (ISCAS), 1994, рр. 27–30.
  21. McNeill J. IEEE Journal of Solid-State Circuits, 1997, no. 6(32), pp. 870–879.
  22. Hajimiri A., Lee T.H. IEEE Journal of Solid-State Circuits, 1998, no. 2(33), pp. 179–194.
  23. Hajimiri A., Limotyrakis S., Lee T. IEEE Journal of Solid-State Circuits, 1999, no. 6(34), pp. 790–804.
  24. Abidi A.A. IEEE Journal of Solid-State Circuits, 2006, no. 8(41), pp. 1803–1816.
  25. Korn G.A., Korn T.M. Mathematical handbook: For scientists and engineers, NY, McGraw-Hill, 1968.
  26. Beek R.C.H., Klumperink E.A.M., Vaucher C.S., Nauta B. Proceedings of IEEE International Sym-posium on Circuits and Systems, 2002, no. May(2), pp. 396–399.
  27. Presnukhin L.N., Vorob’yev N.V., Shishkevich A.A. Raschet elementov tsifrovykh ustroystv (Calcu-lation of Elements of Digital Devices), Moscow, 1991, 525 р. (in Russ.)
  28. Jovanovic G., Stojcev M., Stamenkovic Z. Scientific publications of the State University of Novi Pa-zar. Ser. A: APPL. MATH. INFORM. AND MECH., 2010, vol. 2, 1, рp. 1–9.
  29. Linear Technology – Design Simulation and Device Models, http://www.linear.com/designtools/software/#LTspice.
  30. Nesterenko S.A., Chulkov V.A. Journal of Instrument Engineering, 2013, no. 10(56), pp. 58–63. (in Russ.)
  31. Patent 2170490 RU Generator impul’sov s tsifrovoy perestroykoy perioda (Pulse Generator with Digital Period Adjustment), Chulkov V.A., Published 10.07.2001, Bulletin 19. (in Russ.)
  32. Chulkov V.A. University proceedings. Volga region. Technical sciences, 2017, no. 1(41), pp. 30–42. (in Russ.)
  33. Maneatis J.G., Horowitz M.A. IEEE Journal of Solid-State Circuits, 1993, no. 12(28), pp. 1273–1282.
  34. Patent 5717362 USA, Array oscillator circuit, Maneatis J.G., Horowitz M.A., Published 10.02.1998.
  35. Lee S.-J., Kim B., Lee K. IEEE Journal of Solid-State Circuits, 1997, no. 2(32), pp. 289–291.
  36. Straayer M.Z., Perrott M.H. IEEE Journal of Solid-State Circuits, 2009, no. 4(44), pp. 1089–1098.
  37. Park Y.S., Han P.S., Choi W.Y. IEICE Transactions on Electronics, 2010, no. 9(E93-C), pp. 1467–1470.
  38. Pyung-Su Han. Analysis of Feedforward Ring Oscillators and Its Application to High-Speed Multi-phase Clock Generation, Ph. D. Dissertation, http://tera.yonsei.ac.kr/publication/pdf/ PhD_2009_PSHan.pdf.
  39. Sun L., Kwasniewski T.A. IEEE Journal of Solid-state Circuits, 2001, no. 6(36), pp. 910–916.
  40. Baker R.J. CMOS: circuit design, layout, and simulation, IEEE Press Series on Microelectronic Systems, 2010, 1208 p.
  41. http://cmosedu.com/cmos1/cmosedu_models.txt.
  42. Steshenko V.B. PLIS firmy "ALTERA". Elementnaya baza, sistema proyektirovaniya i yazyki opisa-niya apparatury (FPGA "ALTERA". Element Base, Design System and Hardware Description Lan-guages), Moscow, 2015, 576 р. (in Russ.)
  43. Maiti A., Schaumont P. Journal of Cryptology, 2011, no. 2(24), pp. 375–397.
  44. Jairo-Leon J., Boemo E., Castillo E., Parrilla E. VI Southern Programmable Logic Conference (SPL), IEEE Press., March 2010, рр. 133–137.
  45. Ugur C., Koening W., Michel J., Palka M., Traxler M. Topical workshop on electronics for particle physics, OXFORD, UK, 17–21 September 2012, http://iopscience.iop.org/article/10.1088/1748-0221/8/01/C01035/pdf.
  46. Bratov V., Katzman V., Binkley J. Advanced Science and Novel Technology Company, Rancho Palos Verdes, CA (United States). SBIR Phase I Final Report: "Multi-Channel Time Interval Digitiz-ing System with Digital Initial Calibration", https://www.osti.gov/servlets/purl/901571.
  47. Chen C., Meng S., Xia Z., Fang G., Yin H. Journal of Electrical and Computer Engineering, 2014, January, pp. 1–5, https://www.hindawi.com/journals/jece/2014/230803/.
  48. Medvedev A.V., Chulkov V.A. Journal of Instrument Engineering, 2009, no. 12, pp. 50–53. (in Russ.)
  49. Song J., An Q., Liu S. IEEE transactions on nuclear science, 2006, no. 1(53), pp. 236–241.
  50. Zhang M., Wang H., Liu Y. Sensors, 2017, vol. 17, р. 865, http://www.mdpi.com/1424-8220/17/4/865/htm.
  51. Patent 2546075 RU, Tsifrovoy izmeritel’nyy preobrazovatel’ intervala vremeni (Digital Measuring Transducer of the Time Interval), Chulkov V.A., Published 10.04.2015, Bulletin 10. (in Russ.)