CONTROL OF ENERGY EFFICIENCY IN INDUSTRY AND HOUSING AND COMMUNAL SERVICES
Sign | Register
UDC 621.856.8
Information Technologies in Electromehatronics
Yu.S. Smirnov, South Ural State University, Chelyabinsk, Russian Federation, sus1940@mail.ru
E.V. Yurasova, South Ural State University, Chelyabinsk, Russian Federation, iurasovaev@susu.ac.ru
I.S. Nikitin, South Ural State University, Chelyabinsk, Russian Federation, nik-i-va@yandex.ru
Abstract
The information technology of the electromechatronic converters management are considered. Сontactless electric machine with the permanent magnets is aggregated as an energy converter in its electromechanical components and sine-cosine sensor is a primary measuring converter of common information providing of functional movement process control of the working mechanism. Sensor output signals are converted by the secondary converter microelectronic components in the digital equivalents of movement, forming an array of data. Data processing based on cognitive technology allows to realize adaptation of the electromehatronics converters to internal and external perturbations, selfcommutation of contactless electric machine with permanent magnets with corner ahead or behind, the optimization of time travel and self-organization during the converting of energy type and information forms that provides a receiving of synergistic effect.
Keywords
information technology of the control, electromehatronics converters, contactless electric machine with permanent magnets, common information software, an operating mechanism, sine-cos sensors, electromechanical and microelectronic components
References
1. Teryaev E.D., Filimonov N.B., Petrin K.V. [Mechatronics as a Computer Paradigm of Development of Technical Cybernetics]. Mechatronics, Automation, Control, 2009, no 6, pp. 2–10. (in Russ.)
2. Usynin Yu.S. Sistemy upravleniya elektroprivodov: uchebnoe posobie [Electric Control System: a Tutorial]. Chelyabinsk, South Ural St. Univ. Publ., 2004. 328 p.
3. Kos'kin Yu.P. Vvedenie v elektromekhatroniku [Introduction to ElectroMechatronics]. St. Petersburg, EnergoAtom Publ., 1991. 192 p.
4. Smirnov Y.S. Robototechnical Complexes for Radioactive Accidents Aftermath Removal. Book of abstracts VIII International Symposium “Ural Atomic, Ural Industrial”. Ekaterinburg, 2000, pp. 37–40.
5. Smirnov Y.S. [Introduction of Innovations – the Source of Resource Saving]. Materialy VNPK “Ekologicheskaya bezopasnost' i sovremennye tekhnologii” [Proc. of Conference “Ecological Safety and Advanced Technologies”]. Miass, 2009, pp. 270–275. (in Russ.)
6. Domrachev V.G. Tsifroanalogovye sistemy pozitsionirovaniya [Digital-to-Analog Positioning System]. Moscow, EnergoAtom Publ., 1990. 240 p.
7. Smirnov Yu.S. Elektromekhatronnye preobrazovateli [Ectromechatronics Converters]. Chelyabinsk, South Ural St. Univ. Publ., 2013. 361 p.
8. Poduraev Yu.S. Mekhatronika: osnovy, metody, primenenie [Mechatronics: Fundamentals, Methods, Applications]. Moscow, Mashinostroenie Publ., 2006. 256 p.
9. Mikerov A.G. Brushless ВС Torque Motors Quality Level Indexes for Servo Drive application. Proceedings of International Conference JEEE Eurocon 2009. St. Petersburg, Russia, May18–23, 2009, pp. 827–834.
10. Smirnov Y.S. Common Dateware of Robotics Mechatronic Converters Proc. of the Third ISMCR’93. Italy, Torino, 1993, As 1, pp. 13–18.
11. Smirnov Yu.S., Funk T.A., Serebryakov P.B. Analog-to-Digital Converters of Components of a Displacement Based on Primary Electromechanical Converters. Measurement Techniques, 2014, vol. 56, iss. 9, pp. 1026–1030.
12. Smirnov Yu.S., Kozina T.A., Yurasova E.V., Sokolov A.V. Analog-to-Digital Converters of the Components of a Displacement with the Use of Microelectronic Sine-Cosine Magnetic Encoders. Measurement Techniques, 2014, vol. 57, iss. 1, pp. 41–46.
13. Sysoeva S. [Development of a New Generation of Magnetic Field Sensors]. Components and technologies, 2014, no 1, pp. 40–46. (in Russ.)
14. Smirnov Y.S., Yurasova E.V., Kozina T.A. [Multifunctional Phase Displacement Transducer]. XII Vserossiyskoe soveshchanie po problemam upravleniya VSPU-2014 [XII Russian Meeting on the Management]. Moscow, 2014, pp. 7171–7182. (in Russ.)
15. Balkovoy A.P., Tsatsenkin V.K. Pretsizionnyy elektroprivod s ventil'nymi dvigatelyami [Precision Drive with the Brushless Motor]. Moscow, MEU Publ., 2010. 328 p.
16. Smirnov Yu.S., Katsay D.A., Funk T.A., Anisimov Ya.O. [Information Supply Features of the Gearless Electromehatronics Converters]. Materialy konferentsii “Informatsionnye tekhnologii v upravlenii” (ITU-2014) [Materials of Conference “Information Technologies in Management”]. St. Petersburg, Russia, 2014, рр. 729–737. (in Russ.)
17. Smirnov Yu.S., Katsay D.A., Yurasova E.V., Nikitin I.S. [Improving the Efficiency of Formation Equivalents of Displacement Components]. Materialy konferentsii “Informatsionnye tekhnologii v upravlenii” (ITU-2014) [Materials of Conference “Information Technologies in Management”]. St. Petersburg, 2014, рр. 710–719. (in Russ.)
2. Usynin Yu.S. Sistemy upravleniya elektroprivodov: uchebnoe posobie [Electric Control System: a Tutorial]. Chelyabinsk, South Ural St. Univ. Publ., 2004. 328 p.
3. Kos'kin Yu.P. Vvedenie v elektromekhatroniku [Introduction to ElectroMechatronics]. St. Petersburg, EnergoAtom Publ., 1991. 192 p.
4. Smirnov Y.S. Robototechnical Complexes for Radioactive Accidents Aftermath Removal. Book of abstracts VIII International Symposium “Ural Atomic, Ural Industrial”. Ekaterinburg, 2000, pp. 37–40.
5. Smirnov Y.S. [Introduction of Innovations – the Source of Resource Saving]. Materialy VNPK “Ekologicheskaya bezopasnost' i sovremennye tekhnologii” [Proc. of Conference “Ecological Safety and Advanced Technologies”]. Miass, 2009, pp. 270–275. (in Russ.)
6. Domrachev V.G. Tsifroanalogovye sistemy pozitsionirovaniya [Digital-to-Analog Positioning System]. Moscow, EnergoAtom Publ., 1990. 240 p.
7. Smirnov Yu.S. Elektromekhatronnye preobrazovateli [Ectromechatronics Converters]. Chelyabinsk, South Ural St. Univ. Publ., 2013. 361 p.
8. Poduraev Yu.S. Mekhatronika: osnovy, metody, primenenie [Mechatronics: Fundamentals, Methods, Applications]. Moscow, Mashinostroenie Publ., 2006. 256 p.
9. Mikerov A.G. Brushless ВС Torque Motors Quality Level Indexes for Servo Drive application. Proceedings of International Conference JEEE Eurocon 2009. St. Petersburg, Russia, May18–23, 2009, pp. 827–834.
10. Smirnov Y.S. Common Dateware of Robotics Mechatronic Converters Proc. of the Third ISMCR’93. Italy, Torino, 1993, As 1, pp. 13–18.
11. Smirnov Yu.S., Funk T.A., Serebryakov P.B. Analog-to-Digital Converters of Components of a Displacement Based on Primary Electromechanical Converters. Measurement Techniques, 2014, vol. 56, iss. 9, pp. 1026–1030.
12. Smirnov Yu.S., Kozina T.A., Yurasova E.V., Sokolov A.V. Analog-to-Digital Converters of the Components of a Displacement with the Use of Microelectronic Sine-Cosine Magnetic Encoders. Measurement Techniques, 2014, vol. 57, iss. 1, pp. 41–46.
13. Sysoeva S. [Development of a New Generation of Magnetic Field Sensors]. Components and technologies, 2014, no 1, pp. 40–46. (in Russ.)
14. Smirnov Y.S., Yurasova E.V., Kozina T.A. [Multifunctional Phase Displacement Transducer]. XII Vserossiyskoe soveshchanie po problemam upravleniya VSPU-2014 [XII Russian Meeting on the Management]. Moscow, 2014, pp. 7171–7182. (in Russ.)
15. Balkovoy A.P., Tsatsenkin V.K. Pretsizionnyy elektroprivod s ventil'nymi dvigatelyami [Precision Drive with the Brushless Motor]. Moscow, MEU Publ., 2010. 328 p.
16. Smirnov Yu.S., Katsay D.A., Funk T.A., Anisimov Ya.O. [Information Supply Features of the Gearless Electromehatronics Converters]. Materialy konferentsii “Informatsionnye tekhnologii v upravlenii” (ITU-2014) [Materials of Conference “Information Technologies in Management”]. St. Petersburg, Russia, 2014, рр. 729–737. (in Russ.)
17. Smirnov Yu.S., Katsay D.A., Yurasova E.V., Nikitin I.S. [Improving the Efficiency of Formation Equivalents of Displacement Components]. Materialy konferentsii “Informatsionnye tekhnologii v upravlenii” (ITU-2014) [Materials of Conference “Information Technologies in Management”]. St. Petersburg, 2014, рр. 710–719. (in Russ.)
Source
Bulletin of the South Ural State University. Ser. Computer Technologies, Automatic Control, Radio Electronics, 2015, vol. 15, no. 1, pp. 47-54. (in Russ.) (The main)