Development of real-time supervision HIL emulator of shaded PV systems

A. Gutiérrez, M. Bressan, J. F. Jimenez, Corinne Alonso
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引用次数: 5

Abstract

This paper presents the development of a real-time Supervision Hardware-in-the-Loop (HIL) emulator of shaded PV systems. This study is focused on shaded conditions due to the impact of shadows in the final energy production and the global structural healthy. In this context, we propose a methodology to emulate in real-time the shaded PV system behavior. This proposed methodology is intended for evaluation of supervision and fault detection strategies using a Hardware-in-the-Loop approach. This study takes advantage of FPGAs given their features of adaptability and parallel processing suitable for emulation of complex shaded PV systems. The proposed methodology employs the High Level Specification of Embedded Systems (HiLeS) for automatic VHDL code generation, and the graphical Systems Modeling Language (SysML) to represent the PV system behavior. Experimental results show the emulation of current-voltage behavior of PV modules under normal and shaded conditions. Emulation results are compared with experimental and conventional computational approaches shown a high degree of accuracy.
遮阳光伏系统实时监控HIL仿真器的开发
本文介绍了遮阳光伏系统实时监控硬件在环(HIL)仿真器的开发。由于阴影对最终能源生产和全球结构健康的影响,本研究的重点是阴影条件。在这种情况下,我们提出了一种方法来模拟实时遮阳光伏系统的行为。该建议的方法旨在使用硬件在环方法评估监督和故障检测策略。本研究利用fpga的自适应性和并行处理的特点,适合于复杂遮阳光伏系统的仿真。所提出的方法采用嵌入式系统高级规范(HiLeS)来自动生成VHDL代码,并使用图形系统建模语言(SysML)来表示光伏系统行为。实验结果模拟了正常和阴影条件下光伏组件的电流-电压特性。仿真结果与实验和传统计算方法进行了比较,结果表明该方法具有较高的精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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