Application of an operational measuring complex for monitoring the operating mode of an asynchronous electric motor with a closed-loop rotor

Authors

  • Egorov Egor Viktorovich Omsk State Technical University, Omsk, Russia
  • Borovykh Daniil Dmitrievich Omsk State Technical University, Omsk, Russia

DOI:

https://doi.org/10.25206/1813-8225-2025-195-95-102

Keywords:

operational and measuring complex, contactless sensor, operating modes, short circuit, electric motor, digitalization, electrical system.

Abstract

This article examines the operation of an operational measuring complex based on contactless current and voltage meters to monitor the operating parameters of an asynchronous electric motor with a closedloop rotor. A simulation of the operation of an electric motor has been carried out and the calculated parameters of the mode have been obtained under the conditions of the electrical connection scheme under consideration. Various modes of engine operation are implemented using a laboratory stand during the experiment. The experimental results obtained by the operational measurement complex are analyzed, as well as compared with the calculation results and reference data. Based on the analysis, a conclusion is made about the correctness of the complex's operation in relation to monitoring the parameters of electrical modes.

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Author Biographies

Egorov Egor Viktorovich, Omsk State Technical University, Omsk, Russia

Assistant of the Electrical Engineering Department, Omsk State Technical University (OmSTU), Omsk.

Borovykh Daniil Dmitrievich, Omsk State Technical University, Omsk, Russia

Assistant of the Electrical Engineering Department, OmSTU, Omsk.

References

(1). Дикарев П. В., Шилин А. А. Интеллектуальная релейная защита // Вестник молодёжной науки России. 2019. № 2. С. 26. EDN: MDLLKQ.

Dikarev P. V., Shilin A. A. Intellektual’naya releynaya zashchita [Intelligent relay protection]. Vestnik molodezhnoy nauki Rossii. Journal of Youth Science. 2019. No. 2. P. 26. EDN: MDLLKQ. (In Russ.).

(2). Новокрещенов В. В., Иванова В. Р. Обзор современных устройств релейной защиты и автоматики и измерительных преобразователей, используемых при модернизации электротехнических комплексов и систем // Тинчуринские чтения: материалы XIV Междунар. молодеж. науч. конф. В 3 т. Казань: Казанский государственный энергетический университет, 2019. Т. 1, ч. 2. С. 81–85. EDN: YXWZOJ.

Novokreshchenov V. V., Ivanova V. R. Obzor sovremennykh ustroystv releynoy zashchity i avtomatiki i izmeritel’nykh preobrazovateley, ispol’zuyemykh pri modernizatsii elektrotekhnicheskikh kompleksov i sistem [An overview of modern relay protection and automation devices and measuring transducers used for the modernization of electrical complexes and systems]. Tinchurinskiye chteniya. Tinchurin Readings. In 3 vols. Kazan, 2019. Vol. 1, part 2. P. 81–85. EDN: YXWZOJ. (In Russ.).

(3). Фесенко М. Е., Скорик В. Г. Катушка Роговского как альтернативный измерительный орган в релейной защите // Научно-техническое и экономическое сотрудничество стран АТР в XX веке: тр. всерос. науч.-практ. конф. В 2 т. 2021. Т. 2. С. 63–67. EDN: IHEXLI.

Fesenko M. E., Skorik V. G. Katushka rogovskogo kak al’ternativnyy izmeritel’nyy organ v releynoy zashchite [Rogovsky coil, as an alternative measuring organ in relay protection]. Nauchno-tekhnicheskoye i Ekonomicheskoye Sotrudnichestvo Stran ATR v XX veke. In 2 vols. 2021. Vol. 2. P. 63–67. EDN: IHEXLI. (In Russ.).

(4). Peng Li, Youping Fan, Zhong Liu [et al.]. Application status and development trend of intelligent sensor technology in the electric power industry. IET Science, Measurement and Technology. 2024. No. 18 (4). P. 145–162. DOI: 10.1049/smt2.12175.

(5). Peng Li, Bing Tian, Licheng Li [et al.]. A contactless current sensor based on TMR chips. IEEE Transactions on Instrumentation and Measurement. 2022. No. 71. P. 1–11. DOI: 10.1109/TIM.2022.3191663.

(6). Prasad Shrawane, Tarlochan Sidhu. Magnetic sensors for contactless and non-intrusive measurement of current in AC power systems. The Journal of Engineering. 2024. No. 6. P. 1–15. DOI: 10.1049/tje2.12371.

(7). Xiangyu Tan, Wenbin Zhang, Mingxing He [et al.]. Non-contact adaptive voltage sensor based on electric field coupling principle. Sensors. 2023. No. 23 (19). 8316. P. 1–22. DOI: 10.3390/s23198316.

(8). Qiang Zhou, Wei He, Dongping Xiao [et al.]. Study and experiment on non-contact voltage sensor suitable for three-phase transmission line. Sensors. 2015. No. 16 (1). P. 1–21. DOI: 10.3390/s16010040.

(9). Боровых Д. Д., Егоров Е. В. Разработка и исследование устройства для бесконтактного измерения напряжения и тока // Ученые Омска – региону: материалы VIII Регион. науч.-техн. конф. / под общей ред. Л. О. Штриплинга. Омск: Изд-во ОмГТУ, 2023. С. 11–18. EDN: BLEJGF.

Borovykh D. D., Egorov E. V. Razrabotka i issledovaniye ustroystva dlya beskontaktnogo izmereniya napryazheniya i toka [Development and research of a device for contactless voltage and current measurement]. Uchenyye Omska – Regionu / ed. by L. O. Shtripling. Omsk, 2023. P. 11–18. EDN: BLEJGF. (In Russ.).

(10). Dawood A., Hasaneen B. M., Abdel-Aziz A. M. Design of an efficient neural network model for detection and classification of phase loss faults for three-phase induction motor. Neural Computing and Applications. 2024. No. 36 (11). P. 1–19. DOI: 10.1007/s00521-023-09387-y.

(11). Chaolan Shen, Xiaohu Liu, Ke Jin [et al.]. Research on noncontact voltage measurement method for three-phase busbar of low-voltage distribution cabinets. Transactions on Instrumentation and Measurement. 2024. No. 73. P. 1–13. DOI: 10.1109/TIM.2024.3364266.

(12). Bagherian A., Gershon M., Kumar S. [et al.]. Analyzing the relationship between digitalization and energy sustainability: A comprehensive ISM-MICMAC and DEMATEL approach. Expert Systems with Applications. 2024. No. 236 (4). DOI: 10.1016/j.eswa.2023.121193.

Published

2025-09-22

How to Cite

[1]
Egorov Е.В. and Borovykh Д.Д. 2025. Application of an operational measuring complex for monitoring the operating mode of an asynchronous electric motor with a closed-loop rotor. Omsk Scientific Bulletin. 3(195) (Sep. 2025), 95–102. DOI:https://doi.org/10.25206/1813-8225-2025-195-95-102.

Issue

Section

Energy and Electrical Engineering