2518-1092Research result. Information technologies2518-109210.18413/2518-1092-2023-8-4-0-43300AUTOMATION AND CONTROL<strong>DISTRIBUTED ALGORITHM FOR CONTROL OF MICROARC OXIDATION INSTALLATION</strong><strong>DISTRIBUTED ALGORITHM FOR CONTROL OF MICROARC OXIDATION INSTALLATION</strong>YatsenkoVladimir MikhailovichYatsenkoVladimir MikhailovichYatsenko_vm@bsu.edu.ruLomakinVladimir VasilievichLomakinVladimir VasilievichLomakin_VV@bsu.edu.ru20238400

The article describes the process of forming requirements for a control and monitoring system for a micro-arc oxidation (MAO) installation. The need to ensure multi-level protection of equipment and personnel is considered, due to the peculiarities of the process of synthesis of algorithms for the functioning of a distributed control system that provides the necessary and safe operating modes. The main stages of forming requirements to ensure the interaction of individual functional elements of the control system are presented. A gradation of events occurring in the power section of the MDO installation and events caused by the actions of personnel in response to the control system are given.

The article describes the process of forming requirements for a control and monitoring system for a micro-arc oxidation (MAO) installation. The need to ensure multi-level protection of equipment and personnel is considered, due to the peculiarities of the process of synthesis of algorithms for the functioning of a distributed control system that provides the necessary and safe operating modes. The main stages of forming requirements to ensure the interaction of individual functional elements of the control system are presented. A gradation of events occurring in the power section of the MDO installation and events caused by the actions of personnel in response to the control system are given.

equipment for MDOcontrol and managementcontrol systemsynthesis of control algorithmsequipment for MDOcontrol and managementcontrol systemsynthesis of control algorithmsСписок литературы1. Badaev R.A. Automated installation of microarc oxidation / R.A. Badaev, O.V. Karpanin, S.R. Taishev // Materials and technologies of the XXI century: collection of articles of the XIV International Scientific and Technical Conference, Penza, March 28&ndash;29 2016. &ndash; Penza: Autonomous non-profit scientific and educational organization &ldquo;Privolzhsky House of Knowledge&rdquo;, 2016. &ndash; P. 136-140.2. Bolshenko A.V. Pulse current regulators for microplasma oxidation: Dis. ... Ph.D. Novocherkassk, 2013. &ndash; 202 p.3. Bolshenko A.V. Development of a power source for a micro-arc oxidation installation // Polzunovsky almanac. &ndash; 2010. &ndash; Issue. 3.4. Borikov V.N., Baranov P.F. Concept of a control and management system for the technological process of forming microplasma coatings // Izvestia TPU. 2011. &ndash; No. 5.5. Vinogradov A.V. Development and research of a current source for micro-arc oxidation of device parts and assessment of its technological capabilities: Dis. ... Ph.D. M. 2013. &ndash; 194 p.6. Gerasimov V.A., Rudnev P.S. Power source for micro-arc oxidation // Vologda readings. 2008. &ndash;No. 69.7. Grinchenkov V.P. Technological current source for the process of microplasma oxidation [Text] / V.P.&nbsp;Grinchenkov, A.V. Bolshenko // Izv. Universities. North - Kavk. Region. Techni. Science. &ndash; 2011. &ndash; No. 4. &ndash;WITH. 65-68.8. Karpanin O.V. Automated installation for micro-arc oxidation / O.V. Karpanin, A.V. Safonov, S.Yu.&nbsp;Ometova. &mdash; Text: immediate // Young scientist. &ndash; 2015. &ndash; No. 9 (89). &ndash; P. 247-251.9. Lyudin V.B. Universal technological current source for microarc oxidation [Text] // NMT-2008. Materials of the All-Russian Scientific and Technical. conf. T. 2. &ndash; M.: IC MATI, 2008, &ndash; pp. 141-143.10. Pavlenko A.V. Power supply for micro-arc oxidation devices / A.V. Pavlenko, A.V. Bolshenko, V.S.&nbsp;Puzin, I.V. Vasyukov // News of universities. North Caucasus region. Series: Technical Sciences. 2011, &ndash; No.&nbsp;1.11. Yatsenko V.M. Functional capabilities of electrical equipment for microarc oxidation [Text] / V.M.&nbsp;Yatsenko [et al.] // Scientific review. &ndash; 2015. &ndash; No. 22. &ndash; P. 264-274.