LOADING CHARACTERISTIC OF CONTACTLESS INDUCTION WIDE-RANGE HIGH CURRENT CONVERTERS OF CONTROL AND CONTROL SYSTEMS

A.M. Plakhtiev, Tashkent institute of irrigation and agricultural mechanization engineers, Address: 39, Qori Niyaziy str., 100000, Tashkent city, Republic of Uzbekistan, phone: + 998-90-943-59-25Follow
G.A. Gaziev, Scientific research institute for standardization, certification and technical regulation, Address: 9B, Choponota str., 100059, Tashkent city, Republic of Uzbekistan, phone: + 998-71-253-85-67Follow
O.Ch. Doniyorov, Tashkent institute of irrigation and agricultural mechanization engineers, Address: 39, Qori Niyaziy str., 100000, Tashkent city, Republic of Uzbekistan
D.Sh. Norxolboyev, Tashkent institute of irrigation and agricultural mechanization engineers, Address: 39, Qori Niyaziy str., 100000, Tashkent city, Republic of Uzbekistan
Y.A. Meliboev, Tashkent State Technical University named after Islom Karimov, University street 2, Tashkent sity, 100095

Abstract

The article substantiates the need to use for the needs of industry and metallurgy, land reclamation, irrigation and, in general, agriculture and water management of non-contact conversion and measurement of large direct currents using non-destructive induction wide-range converters of high currents of monitoring and control systems - magnetomodulation non-contact ferromagnetic converters of increased sensitivity, the results are given their constructive development. It is shown that the developed converter, in contrast to the known ones, has increased accuracy and sensitivity, a technologically advanced design and small weight and dimensions with low material consumption and cost. Its load characteristic is investigated under different modes and nature of the load in order to expand their capabilities and obtain the highest power transmission coefficient and reduce the influence of external pickups and interference. The developed converter can be widely used in electrical systems in land reclamation and irrigation, in water supply, industry, railway transport, science, technology and for checking electric meters at their installation site for contactless control of direct and alternating currents.

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References

1. M.K.Kazakov, “Methods and means of measuring high voltages and high amperage currents in power engineering Author's abstract”, Doctoral dissertation thesis, 1998.

2. R.J.Baratov, A.U.Djalilov, Y.E.Chulliyev, “Low power smart system development for water flow measurement and level controls in open canals”, International Journal of Advanced Research in Science, Engineering and Technology, no. 6 (12), pp.12240 – 12246, 2019.

3. A.M.Plakhtiev, “Effective informational noncontact transducers for modern monitoring and control systems in the agro-industrial complex”, International Scientific and Practical Conference Agrarian science - to agriculture Collection of scientific articles, pp. 37-39, 2017.

4. N.G.Semenko, Yu.A.Gamazov, “Measuring transducers of high amperage currents and their metrological support Publishing house of Standards”, 1984, 132 p.

5. U.T.Mukhamedkhanov, “Concepts and methods of constructing quality control systems for technological environments of industrial manufacture”, Abstract of Doctor of technical science dissertation, 2008.

6. S.A.Spektor, Measurement of high amperage, DC Energy 1988, 136 p.

7. O.Bolotin, G.Portnoy, K.Razumovsky, “Primary sensors for energy enterprises”, Energy security and energy saving, no. 5, pp. 28 - 32, 2012.

8. A.Danilov, “Modern industrial current sensors”, Modern electronics, no. 10, pp. 38 – 43, 2004.

9. Bolotin O, Portnoy G, Razumovskiy K 2016 Modern sensors for measuring current and voltage ISUP 1 (61) 18 - 25.

10. M.Gilardi, “New Horizons of Hall Effect Current Sensor”, Technology Power Electronics, no. 3, pp. 48-52, 2013.

11. V.E.Kazansky, Measuring current transducers in relay protection, Moscow: Energoatomizdat, 1988, 240 p.

12. A.M.Plakhtiev, G.P.Petrov, H.S.Minikeev, “Measurer of high amperage”, DC USSR Patent N792152 IIC G01R 19/00 2735180/18 – 21, Bulletin no. 48, 1979.

13. A.L.Gurtovtsev, “Optical transformers and current transducers. Principles of operation, device, characteristics”, Electrical Engineering News, no. 5, pp. 48 -52, 2010.

14. O.Bolotin, G.Portnoy, K.Razumovsky, “Primary sensors for energy enterprises”, Energy security and energy saving, no. 5, pp. 28 – 32, 2012.

15. O.Bolotin, G.Portnoy, K.Razumovsky, “Modern sensors for measuring current and voltage”, ISUP, no. 1 (61), pp. 18 – 25, 2016.

16. Mukhamedkhanov UT 2008 Concepts and methods of constructing quality control systems for technological environments of industrial production. Abstract of dissertation of Doctor of technical Sciences.

17. D.Borkman, “Hochstrommessungmit”, Hallgeneratoren Elekrie Bd, no. 18/2, pp. 46 - 50, 1997.

18. W.Kramer, “Gleichstrom – Wandlerschaltung hoher Genauigkeitl für 65 – 71 wellige Gleichstrom ETZ-A”, no. 18, pp. 28 – 33, 1996.

19. F.Lappe, “Ein neues Meβgerät für hohe Gleichström Chemi-Ingenier Technick Bd”, no. 42/19, pp. 1228 – 1229, 1998.

20. R.J.Baratov, A.U.Djalilov, “An Improving Method of Linearity of Magnetic Flux Distributionin Air Gap with Long Iron Cores”, Journal of Scientific and Engineering Research, no. 5(11), pp. 158-164, 2018.

21. T.N.Yuki, “Electromagnetic noncontact measuring apparatus”, US Patent N234844 IIK G01R 27/ 04 NKI 324 58, 2016.

22. Nils Bardahl, “Einrichtung zur Erfassung des Belastungsstromes in Hochstromanlagen Germany”, Patent N 3148654 IIK 21E36/01, 2016.

23. E.M.Eadie, “Complete specification improvements in multi-range hook-on electrical indication instrument”, UK Patent N3966443 IIK G1U, 2015.

24. Standard Telefones&Cables LTD, “Current monitoring circuits including hall effect devices”, UK Patent N 4575111 IIK G01R 19 / 165 NKI GIU N 4773, 2016.

25. TOKYO SHIBAURA, “Transducers”, UK Patent N 3036984 IIK G01R 19 / 22 NKI GIU N4968, 2017.

26. E.A.Meierovich, L.I.Andreevskaya, “Dispositif paur la mesurede I’intesite du courant”, France Patent N 4347944 IIK G01R N2, 2017.

27. Bernard Georges Alhadef, “Transducteur electrique comportani un moyen de codage dunparameter du transducteur”, France Patent N3955731 IIK G01D 18/00 3/04 G01F 25/00 N1, 2000.

28. Reich Ernö, “Elektricky mĕřici přistroj”, Czech Republic Patent N 2145015 IIK 21E3601, 2018.

29. Zoltàn Lànczi, “Aramlökést mérö müszer”, Hungary Patent N2146340, IIK 21E 29-36, 2015.

30. Hitachi Ltd Chiyoda-ku, “Magnetoelectrical transducer”, Japan Patent N3257766 IIC G01D 5/16 N33, 2017.

31. V.N.Brodovsky, B.M.Korzhanov, “Current transformer”, USSR Patent N3592239 IIK 21E3601, Bulletin no. 4, 2017.

32. Yoshihiro Konno, Masaru Sasaki, “Electric current measure apparatus”, Japan Patent IIC G01R CN204154795U, 2009.

33. Chjan Li, “Stripping electrical measuring one meter”, China Patent IIK G01R CN204154795U, 2015.

34. Michel Lynn, John Shie, “Power amplifier saturation detection”, Korean Patent IIK G01R US10224917B2, 2019.

35. Andreas Jurisch, “Method of measuring current in a conductor in an AC transmission network”, Italian Patent IIC G01R WO19945020765A1, 1995.

36. Horst Knoedgen, Frank Kronmueller, “Highly accurate current measurement”, European patent office IIC G01R EP2821799A1, 2019.

37. Rudolf Gati, Markus Abplanalp, “Configuration of magnetoriesistire sensors for current measurement”, Spain Patent IIC G01R 07ES2591283T3, 2008.

38. Woifgang Grieshaber, Jean-Pierre Dupraz, “Method of opening a bypass switch of a high voltage direct current network”, Canadian Patent IIC G01R CA284893OC, 2011.

39. A.M.Plakhtiyev, S.U.Akhmedov, “Condition of application and development of contactless ferromagnetic transducers in electrochemistry and metallurgy Eighth”, World Conference on Intelligent Systems for Industrial Automation (WCIS), pp. 326 – 329, 2014.

40. A.M.Plakhtiyev, G.A.Gaziev, “A study on Electrical Energy Measuring Device in installation place”, Chemical Technology, Control and Management, no. 4, pp, 25-29, 2019.

41. A.G.Yakovlev, Errors of instrumentation and sensors, Korona Print, 1997, 268 p.

42. S.A.Zaitsev, D.D.Gribonov, A.N.Tolstov, Control and measuring devices and instruments, Moscow: Academy, 2006, 463 p.

43. A.A.Trukhachev, Analysis of procedures and algorithms for signal detection, Moscow: Radio and communication, 2003, 248 p.

44. V.A.Kuzovkin, Theoretical electrical engineering, Moscow: Academy, 2005, 456 p.

Recommended Citation

Plakhtiev, A.M.; Gaziev, G.A.; Doniyorov, O.Ch.; Norxolboyev, D.Sh.; and Meliboev, Y.A. (2020) "LOADING CHARACTERISTIC OF CONTACTLESS INDUCTION WIDE-RANGE HIGH CURRENT CONVERTERS OF CONTROL AND CONTROL SYSTEMS," Chemical Technology, Control and Management: Vol. 2020: Iss. 5, Article 26.
DOI: https://doi.org/10.34920/2020.5-6.150-156

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