This paper presents an FPGA hardware implementation of two different components of a microgrid’s electrical systems. Small and isolated microgrids are currently a frequent solution for electricity coverage in remote areas, where detailed studies, simulations, and realistic emulations are required to design appropriate systems according to each location. Hardware implementations based on a Labview environment of 240 W and 330 W generic photovoltaic generators, a Boost converter, and P &O algorithm were performed. The results obtained from the panels and converter were compared to the Simulink response. Unified systems, with and without controls, were compared. The systems were first compiled individually on an FPGA NI PCIe 7841R and later unified. The data and performance obtained from the emulated environment were verified using Simulink models, and the desired correspondence was obtained.

本文介绍了微电网电力系统两个不同组件的 FPGA 硬件实现。小型且孤立的微电网是目前偏远地区电力覆盖的常见解决方案，需要进行详细的研究、模拟和现实仿真，以根据每个位置设计适当的系统。硬件实现基于 240 W 和 330 W 通用光伏发电机、Boost 转换器和 P&O 算法的 Labview 环境。从面板和转换器获得的结果与 Simulink 响应进行比较。对有和没有控制的统一系统进行了比较。这些系统首先在 FPGA NI PCIe 7841R 上单独编译，然后统一编译。使用Simulink模型验证了从仿真环境中获得的数据和性能，并获得了所需的对应关系。