Vol. 8, No 3: 113–118.

Energy and electrical engineering

 2023

Scientific article

UDK 519.876.5
pdf-version

Artyom V. Sankin
master’s degree, Peter the Great St. Petersburg Polytechnic University
(Saint Petersburg, Russia),
artemsankin18111999@yandex.ru
Daniil A. Pushkar
master’s degree, Peter the Great St. Petersburg Polytechnic University
(Saint Petersburg, Russia),
pushkar.da@edu.spbstu.ru

Using HIL Simulation for the Development of Protection and Automation Complexes of Electric Power Systems

Scientific adviser:
Stanislav O. Popov
Paper submitted on: 05/25/2023;
Accepted on: 09/28/2023;
Published online on: 09/30/2023.
 Abstract. This paper investigates the main possibilities for using hardware-in-the-loop (HIL) simulation for the development of protection and automation complexes of electric power systems, describes implementation of a number of models of the relay protection and automation complex models, as well as organization and optimization of their combined work. To confirm the development results, a microprocessor-based device was tested using a full-featured hardware-software complex ready for application and scaling.
Keywords: relay protection and automation, real-time operating system, hardware-software complex, digital twin, microprocessor terminal, MatLab, LabView, simulation

For citation: Sankin, A. V., Pushkar, D. A. Using HIL Simulation for the Development of Protection and Automation Complexes of Electric Power Systems. StudArctic forum. 2023, 8 (3): 113–118.

References

Zaitsev A.A., Pushkar D.P., Popov S.O. Application of digital twins for diagnostics of microprocessor-based RPA devices. Modern technologies and economics in power engineering: Proceedings of the international scientific and practical conference, Saint-Petersburg, April 27, 2022St. Petersburg, POLITEKH-PRESS, 2022, pp280-282(In Russ.)

Voloshin A.A., Lebedev A.A., et. al. Formalization of functional requirements for digital substation protection and automatic control systems. Vestnik Moskovskogo Energeticheskogo Instituta. Vestnik MEI, 2022, No. 5, pp. 30-38. (In Russ.)

Chufyrev A.E., Ustyugov V.A. Technical overview of features of real-time operating system TI-RTOS. Juvenis Scientia, 2016, No. 1, pp. 3-7(In Russ.)

Strasser T. Real time simulation technologies for power systems design, testing, and analysis. IEEE Power and Energy Technology Systems, 2015, Vol. 2. URL: https://resourcecenter.ieee-pes.org/publications/pets-j-open-access-papers/PESOAP0380.html (Accessed: 03.09.2023)

Voloshin А.А., Nukhulov S.M. Development of a technique for automated testing of digital protection and automatic control system of substation. 5th International Youth Scientific and Technical Conference on Relay Protection and Automation (RPA), 2022. DOI:10.1109/RPA57581.2022.9951128 (Accessed: 03.09.2023)

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