Main Catalog Mechanical Engineering and Machine Science Robots, Mechatronics, and Robotic Systems

Magnetic drive mathematical model based on the proportional electromagnet

Authors: Rubtsov P.V., Gerasimov A.I., Osintsov I.O.
Published in issue: #9(86)/2023
DOI: 10.18698/2541-8009-2023-9-940
Category: Mechanical Engineering and Machine Science \| Chapter: Robots, Mechatronics, and Robotic Systems
Keywords: hydraulics, hydraulic drive, proportional electromagnet, control system, electromagnetic hysteresis, proportional control, magnetic drive, Simulink
Published: 24.10.2023

The paper presents design of the hydraulic distribution drive based on a proportional electromagnet, physical processes in the proposed design are described. The drive mathematical model was developed based on the proportional electromagnet. Problems of the electromagnetic hysteresis presence were formulated from the point of view of the device control system. An approach is proposed describing electromagnetic hysteresis in the general case. A model of the system under consideration was compiled in the MATLAB Simulink package. A technique was proposed making it possible to neutralize the electromagnetic hysteresis influence on the system transient process, and the possibility of refusing to use the positioning sensor was justified. System operation was simulated with various input signals. Conclusions were made on the model current accuracy, and the options for its verification were considered.

References

[1] Kotelenets N.F., Akimova N.A., Antonov M.V. Ispytaniya, ekspluatatsiya i remont elektricheskikh mashin [Testing, operation and repair of electrical machines]. Moscow, Akademiya Publ., 2003, 390 p. (In Russ.).

[2] Ivanov G.M., Sveshnikov V.K., Orlik I.V. Digital electrohydraulic automatics of new generation. Gidravlika i pnevmatika, 2006, no. 21, pp. 3–8 (In Russ.).

[3] Abdurasulov B.B. Using hydraulic drive in machines and equipment for oil and gas production. Modern Science, 2020, no. 8-1, pp. 318–321 (In Russ.).

[4] Slivinskaya A.G. Elektromagnity i postoyannye magnity [Electromagnets and permanent magnets]. Moscow, Energiya Publ., 1972, 248 p. (In Russ.).

[5] Kozlov N.P., Krassov I.M. Elektromagnitnye proportsional’nye upravlyayushchie elementy [Electromagnetic proportional control elements]. Moscow, Leningrad, Energiya Publ., 1966, 112 p. (In Russ.).

[6] Nazemtsev A.S. Gidravlicheskie i pnevmaticheskie sistemy. Ch. 2. Gidravlicheskie privody i sistemy [Hydraulic and pneumatic systems. Part 2. Hydraulic drives and systems]. Moscow, Forum Publ., 2007, 304 p. (In Russ.).

[7] Maslov Yu.N., Krokhin V.V., Khmaruk O.N. Approksimatsiya predel’nykh petel’ gisterezisa magnitomyagkikh materialov trantsedentnymi funktsiyami [Approximation of limiting hysteresis loops of soft magnetic materials by transcendental functions]. Lvov, Teoreticheskaya elektrotekhnika Publ., 1985, pp. 75–78. (In Russ.).

[8] Kovalev A.V., Karpov V.A., Litvinov D.A. et al. Analysing effect of hysteresis of the proportional electromagnet on the error of sand and grit distribution of combined road machine in automatic mode. Vestnik GGTU im. P.O. Sukhogo, 2015, no. 1, pp. 58–64 (In Russ.).

[9] Matyuk V.F., Osipov A.A. Mathematic models of magnetic curve and magnetic hysteresis loop. Part І. Analysis. Nerazrushayushchiy kontrol i diagnostika, 2011, no. 2, pp. 3–35 (In Russ.).

[10] Kovalev O.F. Kombinirovannye metody modelirovaniya magnitnykh poley v elektromagnitnykh ustroystvakh [Combined method for modeling of magnet fields in electromagnetic devices]. Rostov-on-Don, SKNTs VSh Publ., 2001, 220 p. (In Russ.).

[11] Solovyev V.A., Vasilchenko S.A., Gnedin P.A. Uluchshenie dinamicheskikh kharakteristik kontura toka elektroprivoda putem nelineynoy silovoy korrektsii [Improving dynamic characteristics of the electric drive current loop by non-linear power correction]. Sovremennye tekhnologii v oblasti energosnabzheniya i avtomatizatsii avtonomnykh obektov. Sb. dok. nauch.-prakt. konf. [Modern technologies in Power Supply ad Automation of Autonomous Objects. Proc. Sci.-Pract. Conf.]. Sankt-Petersburg, VISU Publ., 2006, pp. 33–43 (In Russ.).

[12] Rubtsov P.V., Novak A.B. Problems of proportional magnet control. Politekhnicheskiy molodezhnyy zhurnal, 2022, no. 10 (75). (In Russ.). http://dx.doi.org/10.18698/2541-8009-2022-10-834