MODERN HIGH-FREQUENCY COMMUNICATION SYSTEM IN THE ELECTRIC POWER SECTOR

The article addresses the critically important topic of implementing modern high-frequency communication systems in the power engineering sector. The study highlights key aspects related to the impact of innovative technologies, such as intellectualization and automation, on the stability and quality of electricity in contemporary electrical networks. Special attention is given to the analysis of problems arising from high-frequency distortions and electromagnetic interferences, which can significantly affect the functioning of energy systems. The work also examines the advantages of using fiber-optic communication, including its high bandwidth and the ability to transmit data over long distances, as well as the challenges associated with the fragility of fibers and the complexities of their installation. The main recommendations include enhancing the monitoring and analysis of electricity quality for timely identification and resolution of problems caused by high-frequency distortions and electromagnetic interferences. The authors also propose a series of measures aimed at improving the reliability and efficiency of power engineering systems, including strengthening electricity quality control, developing standards for high-frequency communication systems, and encouraging scientific research in this area. These suggestions are aimed at achieving higher standards of efficiency and reliability in power supply, considering the constantly growing demands for electricity quality and safety.

power engineering, high-frequency communication, automatic control, electromagnetic interference, fiber-optic transmission.

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2026-03-18