Reed Solomon codes for Distributed Systems of Renewable Energies and Smart Grids through Intelligent Electronic Devices on FPGA Technology
Keywords:
Intelligent Electronic Devices, VHDL, FPGA, Distributed Electrical Networks, Renewable Energies, Reed-Solomon CodeAbstract
This research presents the design of the Reed Solomon codes oriented to their implementation on FPGAs - Intelligent Electronic Devices in VHDL, for the control and communication system of Distributed Systems of Renewable Energies and Smart Grids. This allows us to build a dynamic reconfiguration model of the network, facilitating the adaptation of the energy conversion and distribution system to environmental conditions and the demand for electricity. The design method consists in the definition of the architecture, in hardware description language, for the dynamic configuration of remote control and communication terminals, in order to facilitate the intelligent coupling of network components and the incorporation of various sources. The results show the distributed control scheme, the description of the support for the IEDs, the general neural model, the report of synthesis and behavior of a Reed Solomon code (n, k), defined for the transmission of parameters of the Smart equipment. Grids In this way, areconfigurable model for the application of intelligent devices in the management of the reconfigurable electrical network is provided, opening a space for research on energy efficiency.