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Control system for mobile filter-ventilation unit for industrial equipment based on Atmega8 microcontroller

Authors: Gafarov B.R. , Zaitsev I.A. 
Published in issue: #4(81)/2023
DOI: 10.18698/2541-8009-2023-4-880


Category: Informatics, Computer Engineering and Control | Chapter: Automation, Control of Technological Processes, and Industrial Control

Keywords: printed circuit board, microcontroller, microcircuit, exhaust unit, electronics, Atmega8, collector motor, soft start
Published: 04.05.2023

In the manufacturing market, most of the process equipment contains control systems. At the moment, there is a problem of high cost and inaccessibility of such systems. However, the areas of science that are fundamental in the development of these systems, such as electronics, microelectronics and programming, are rapidly developing. This allows companies to significantly upgrade their products through the use of microprocessor technology. This article highlights the application of relatively new technologies in the development of control systems for industrial facilities. On the example of an exhaust unit, the paper presents ways to improve control systems. Electrical circuits were developed, methods for saving data to the non-volatile memory of the microcontroller were described, a control algorithm for the microcontroller was written, a stand was assembled demonstrating the operation of the system, and the results of primary tests were presented. The results obtained allowed us to significantly reduce the cost of the system and make it more affordable through the use of standard electronic components. The research materials can be used in the implementation of the soft start of collector motors and their control. And also when improving systems where microcontrollers are used.


References

[1] Vinogradov S.A. Special requirements for certain types of electric and gas welding processes. Sovremennye tekhnologii obespecheniya bezopasnosti na zheleznodorozhnom transport. III mezhdunarodnaya studencheskaya konferentsiya: sbornik statey [Modern technologies for ensuring safety in railway transport. III international student conference: collection of articles]. Voronezh, Branch of RGUPS in Voronezh Publ., 2021, pp. 227–229. (In Russ.).

[2] Lyamtsev S.V. Sistema avtomaticheskogo upravleniya lazernogo stanka [Automatic control system of the laser machine]. Bachelor’s work. Krasnoyarsk, SFU Publ., 2020, 64 p. (In Russ.).

[3] Shakhnov V.A., Vlasov A.I., Polyakov Yu.A., Kuznetsov A.S. Tech. Neurocomputers: architecture and circuitry. Information Technologies, 2000, no. 9, appendix, 64 p. (In Russ.).

[4] Vlasov A.I. Hardware implementation of neurocomputing control systems. Devices and systems. Upravlenie, kontrol’, diagnostika, 1999, no. 2, pp. 61–65. (In Russ.).

[5] U2010B Version 1.0 Page 1 Phase Control Circuit for Current Feedback. URL: https://datasheet.lcsc.com/szlcsc/U2010B_C143004.pdf (accessed March 15, 2023).

[6] Myslovsky E., Vlasov A., Akristiny M. Brief review of popular families of modern microcontrollers. Elektronnye komponenty, 2002, no. 5, pp. 47–50. (In Russ.).

[7] Datasheet ATmega8/ATmega8L. Atmel Corporation. URL: http://www.atmel.com/images/atmel-2486-8-bit-avr-microcontroller-atmega8_l_datasheet.pdf (accessed March 15, 2023).

[8] Larina E.A., Leonidov V.V., Moskalev N.S. Technique of design of digital control systems on the basis of AVR-mikrokontrollerov. International Research Journal, 2016, no. 6-2 (48), pp. 87–94. (In Russ.). http://doi.org/10.18454/IRJ.2016.48.173

[9] Khartov V.Ya. AVR microcontrollers. Practicum for beginners [Mikrokontrollery AVR. Praktikum dlya nachinayushchikh]. Moscow, BMSTU Press, 2012, 281 p. (In Russ.).

[10] Rakhmanov D.E. Etching of printed circuit boards using the LUT method. Informatsiya i obrazovanie: granitsy kommunikatsiy, 2019, no. 11 (19), pp. 131–132. (In Russ.).

[11] Fedotova A.V. New generation knowledge-based product life cycle management systems. Inzhenernyy vestnik, 2016, no. 11, 8 p. (In Russ.). URL: http://ainjournal.ru/doc/851204.html (accessed February 15, 2023).