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COORDINATION OF REAL-TIME MODELS WITH THE PHYSICAL LEVEL OF RELAY PROTECTION DEVICES OF ELECTRICAL NETWORKS

COORDINATION OF REAL-TIME MODELS WITH THE PHYSICAL LEVEL OF RELAY PROTECTION DEVICES OF ELECTRICAL NETWORKS

Modern manufacturers of relay protection equipment and transient monitoring systems for power systems test the equipment being developed under conditions that are as close as possible or completely repeat the actual operating modes of the electrical network. Many manufacturers and research teams are...

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Bibliografische gegevens
Hoofdauteurs: Zvada, P. A., Звада, П. А., Minaev, D. E., Минаев, Д. Е., Gordienko, K. S., Гордиенко, К. С.
Formaat: Статья
Taal:English
Gepubliceerd in: 2024
Onderwerpen:
Automation
Relay protection devices
Electric network parameters
Electric power system protection
Real time systems
Analog current
Analog voltage
Current signal
Electrical networks
Operating modes
Physical level
Real-time
Online toegang:https://dspace.ncfu.ru/handle/20.500.12258/26440
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spelling ir-20.500.12258-264402024-02-09T13:37:09Z COORDINATION OF REAL-TIME MODELS WITH THE PHYSICAL LEVEL OF RELAY PROTECTION DEVICES OF ELECTRICAL NETWORKS Zvada, P. A. Звада, П. А. Minaev, D. E. Минаев, Д. Е. Gordienko, K. S. Гордиенко, К. С. Automation Relay protection devices Electric network parameters Electric power system protection Real time systems Analog current Analog voltage Current signal Electrical networks Operating modes Physical level Real-time Modern manufacturers of relay protection equipment and transient monitoring systems for power systems test the equipment being developed under conditions that are as close as possible or completely repeat the actual operating modes of the electrical network. Many manufacturers and research teams are actively developing approaches to reproducing the operating modes of real electrical network objects [1-3]. The most common way to recreate the real operating conditions of measuring systems, relay protection devices and automation systems is the use of the well-known Dommel cycle when constructing systems for simulating the operating mode of an electrical network in real time in RTDS [5-7]. This approach is implemented using specialized software. The operation of programs and optimized models of electrical network equipment is possible using, as a rule, industrial controllers [4] and is the optimal solution. However, the result of modeling unique signals that describe the electrical mode at the investigated equipment connection point is possible in the presence of devices for matching the model and the physical level of analog current and voltage signals. In this work, it is proposed to use OMICRON CMC-356 as a device for matching with the physical level of analog signals [8]. The authors have developed specialized software that makes it possible to match simulated signals in real time with the required levels of analog voltage and current signals. The solution proposed in the work allows synchronizing the generated signals according to data from the GPS global positioning system. The issues of generating model signals with different amplitudes, initial phases and specified rates of change of parameters have been solved. 2024-02-09T13:35:33Z 2024-02-09T13:35:33Z 2023 Статья Zvada, P.A., Minaev, D.E., Gordienko, K.S. COORDINATION OF REAL-TIME MODELS WITH THE PHYSICAL LEVEL OF RELAY PROTECTION DEVICES OF ELECTRICAL NETWORKS // 2023 6th International Scientific and Technical Conference Relay Protection and Automation, RPA 2023. - 2023. - DOI: 10.1109/RPA59835.2023.10319875 http://hdl.handle.net/20.500.12258/26440 en 2023 6th International Scientific and Technical Conference Relay Protection and Automation, RPA 2023 application/pdf
institution СКФУ
collection Репозиторий
language English
topic Automation
Relay protection devices
Electric network parameters
Electric power system protection
Real time systems
Analog current
Analog voltage
Current signal
Electrical networks
Operating modes
Physical level
Real-time
spellingShingle Automation
Relay protection devices
Electric network parameters
Electric power system protection
Real time systems
Analog current
Analog voltage
Current signal
Electrical networks
Operating modes
Physical level
Real-time
Zvada, P. A.
Звада, П. А.
Minaev, D. E.
Минаев, Д. Е.
Gordienko, K. S.
Гордиенко, К. С.
COORDINATION OF REAL-TIME MODELS WITH THE PHYSICAL LEVEL OF RELAY PROTECTION DEVICES OF ELECTRICAL NETWORKS
description Modern manufacturers of relay protection equipment and transient monitoring systems for power systems test the equipment being developed under conditions that are as close as possible or completely repeat the actual operating modes of the electrical network. Many manufacturers and research teams are actively developing approaches to reproducing the operating modes of real electrical network objects [1-3]. The most common way to recreate the real operating conditions of measuring systems, relay protection devices and automation systems is the use of the well-known Dommel cycle when constructing systems for simulating the operating mode of an electrical network in real time in RTDS [5-7]. This approach is implemented using specialized software. The operation of programs and optimized models of electrical network equipment is possible using, as a rule, industrial controllers [4] and is the optimal solution. However, the result of modeling unique signals that describe the electrical mode at the investigated equipment connection point is possible in the presence of devices for matching the model and the physical level of analog current and voltage signals. In this work, it is proposed to use OMICRON CMC-356 as a device for matching with the physical level of analog signals [8]. The authors have developed specialized software that makes it possible to match simulated signals in real time with the required levels of analog voltage and current signals. The solution proposed in the work allows synchronizing the generated signals according to data from the GPS global positioning system. The issues of generating model signals with different amplitudes, initial phases and specified rates of change of parameters have been solved.
format Статья
author Zvada, P. A.
Звада, П. А.
Minaev, D. E.
Минаев, Д. Е.
Gordienko, K. S.
Гордиенко, К. С.
author_facet Zvada, P. A.
Звада, П. А.
Minaev, D. E.
Минаев, Д. Е.
Gordienko, K. S.
Гордиенко, К. С.
author_sort Zvada, P. A.
title COORDINATION OF REAL-TIME MODELS WITH THE PHYSICAL LEVEL OF RELAY PROTECTION DEVICES OF ELECTRICAL NETWORKS
title_short COORDINATION OF REAL-TIME MODELS WITH THE PHYSICAL LEVEL OF RELAY PROTECTION DEVICES OF ELECTRICAL NETWORKS
title_full COORDINATION OF REAL-TIME MODELS WITH THE PHYSICAL LEVEL OF RELAY PROTECTION DEVICES OF ELECTRICAL NETWORKS
title_fullStr COORDINATION OF REAL-TIME MODELS WITH THE PHYSICAL LEVEL OF RELAY PROTECTION DEVICES OF ELECTRICAL NETWORKS
title_full_unstemmed COORDINATION OF REAL-TIME MODELS WITH THE PHYSICAL LEVEL OF RELAY PROTECTION DEVICES OF ELECTRICAL NETWORKS
title_sort coordination of real-time models with the physical level of relay protection devices of electrical networks
publishDate 2024
url https://dspace.ncfu.ru/handle/20.500.12258/26440
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