Abstract
The article discusses the creation of algorithmic structures and the development of digital control systems for electric drives of mine-lifting machines, provides some concepts for creating digital control systems using thyristor converters. The analysis of the static volt-ampere characteristics of the thyristor is given, some calculations of the circuits and circuits of the thyristor converter (TP) corresponding to the different modes of operation of the TP are given, and also, based on the synthesis of the dynamic properties and characteristics of the thyristor, an algorithmic structure of the model of the thyristor converter is proposed.
First Page
53
Last Page
58
References
- Yusupbekov, N.R., Abdurasulov, F., Adilov, F., Ivanyan. A. (2020). Application of advanced process control technologies for optimization of polymers production processes. Advances in Intelligent Systems and Computing, 1095, AISC.
- Jumaev, O.A., Sayfulin, R.R., Shermurodova, M.F., Arziyev, E.I. (2022). Algorithmic methods for increasing the metrological characteristics of information-measuring systems. SCIREA Journal of Physics, 7(5), 160-168. https://doi.org/10.54647/physics14479.
- Afanasievskaya, V.E., Ugryumova, E.M., Shmatkov, S.I., (2010). Methodology of intellectual diagnostics of complex technical systems. Sistemi ozbroennya і vіyskova texnіka, 4 (24). 88-94.
- Yusupbekov, N.R., Adilov, F., Ergashev, F. (2017). Development and improvement of systems of automation and management of technological processes and manufactures. Journal of Automation, Mobile Robotics and Intelligent Systems, 11(3). DOI: 10.14313/JAMRIS_3- 2017/28.
- Klyuev, V.V., Sosnin, F.R., Fimenov, V.N. (1995). Non-destructive testing and diagnostics. M.: Mashinostroenie, 488 p.
- Jumaev, O.A., Pulatov, V.B., Turaev, S.S. (2022). Microprocessor analog i/o modules. Journal of Physics, 7(5), 150-159. https://doi.org/10.54647/physics14478.
- Burkovskij V.L. (2006). Mnogofunktsional'nyj ehlektroprivod v sledyashhem rezhime [Multifunctional electric drive in servo mode]. EHlektrotekhnicheskie kompleksy i sistemy upravleniya, 1, 11–16. (in Russian).
- Jumaev, O.A., Sayfulin, R.R., Samadov, A.R., Arziyev, E.I., Jumaboyev, E.O. (2020). Digital control systems for asynchronous electrical drives with vector control principle, IOP Conference Series: Materials Science and Engineering, 862(3), 032054.
- Vinogradov A. Adaptivno-vektornaya sistema upravleniya bezdatchikovogo asinkhronnogo ehlektroprivoda serii EHPV [Adaptive-vector control system of a sensorless asynchronous electric drive of the EPV series]. Silovaya ehlektronika, 3, 50-55. (in Russian).
- Glushchenko, P.V. (2004). Technical diagnostics: modeling in diagnosing and predicting the state of technical objects. M.: Studentsbook, 248 p.
- Jumaev, O.A., Karpovic, D.S., Ismoilov, M.T. (2022). Methods for Digital Signal Processing and Digital Filter Synthesis. AIP Conference Proceedings, 2656, 020026.
- Vinogradov A.B. (2008). Minimizatsiya pul'satsij ehlektromagnitnogo momenta ventil'no-induktornogo ehlektroprivoda [Minimization of ripples of the electromagnetic torque of the switched reluctance electric drive]. EHlektrichestvo, 2, 39-48. (in Russian).
- Jumaev, O.A., Nazarov, J.T., Sayfulin, R.R., Ismoilov, M.T., Mahmudov, G.B. (2020). Schematic and algorithmic methods of elimination influence of interference on accuracy of intellectual interfaces of the technological process. Journal of Physics: Conference Series, 1679(4), 042037.
- Gulyaev, I.V., Tutaev, G.M., Lomakin, A.N. (2008). EHlektromagnitnye protsessy v obobshhennoj ehlektromekhanicheskoj sisteme s vektornym upravleniem [Electromagnetic processes in a generalized electromechanical system with vector control]. Avtomatizatsiya i sovremennye tekhnologii, 5, 14-19. (in Russian).
- Jumaev, O.A., Nazarov, J.T., Makhmudov, G.B., Ismoilov, M.T., Shermuradova, M.F. (2021). Intelligent control systems using algorithms of the entropic potential method. Journal of Physics: Conference Series, 2094(2), 022030.
- Tutaev, G.M. (2007). Vektorno-matrichnaya model' ehlektroprivoda s asinkhronizirovannym ventil'nym dvigatelem [Vector-matrix model of an electric drive with an asynchronized brushless motor]. Problemy ehlektrotekhniki, ehlektroehnergetiki i ehlektrotekhnologii, 2, 331-336. (in Russian).
- Jumaev, O.A., Nazarov, J.T., Sayfulin, R.R., Ismoilov, M.T., Mahmudov, G.B. (2020). Methods and algorithms for investigating noise and errors in the intelligent measuring channel of control systems. Journal of Physics: Conference Series, 1679(5), 052018.
- Shipunov, A. at al. (2002). Digital vector control algorithm for induction motor torque drive. Proceedings of the 28th Annual Conference of IEEE Indus- trial Electronics Sosiety, IECON'02, 996-1001.
- Aleksandrov E.V. (2010). Asinkhronnyj momentnyj ehlektroprivod s vektornym printsipom upravleniya [Asynchronous torque electric drive with vector control principle]. Vestnik TAII, 1, 334-342. (in Russian).
Recommended Citation
Yusupbekov, N.R; Jumaev, O.A.; and Turaev, S.S.
(2023)
"ALGORITHMIC METHODS FOR DEVELOPING THE STRUCTURE OF A THYRISTOR ELECTRIC DRIVE FOR MINING MACHINES,"
Chemical Technology, Control and Management: Vol. 2023:
Iss.
1, Article 7.
DOI: https://doi.org/10.59048/2181-1105.1436
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Complex Fluids Commons, Controls and Control Theory Commons, Industrial Technology Commons, Process Control and Systems Commons