M. Coppola, F. Di Napoli, P. Guerriero, A. Dannier, D. Iannuzzi, S. Daliento, A. Del Pizzo
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引用次数: 8
Abstract
This work deals with an optimal control strategy for a three-phase grid-tied photovoltaic (PV) cascade H-bridge inverter. The main challenge for the control of this system topology derives from the inherent power imbalance among the phases as well as from the different power levels of the H-bridge cells in each phase leg. The power imbalance among the phases is compensated by the injection of a proper zero-sequence voltage. The power distribution among the cells of each phase could be affected by uneven irradiance and temperature conditions of PVGs (PV Generators). This latter issue is addressed by means of an adaptive modulation method especially suited to manage unequal dc sources, while assuring stable circuit operation and maximizing the power extraction through a dedicated MPPT (Maximum Power Point Tracking) algorithm. The digital controller is developed and tested in Matlab/Simulink environment integrated with XSG (Xilinx System Generator), thus allowing an easy transfer on FPGA embedded in dSPACE real-time platform. Simulations and experimental results prove the validity of the proposed design and control approach.
本文研究了三相并网光伏串级h桥逆变器的最优控制策略。该系统拓扑控制的主要挑战来自于相位之间固有的功率不平衡以及h桥单元在每个相位分支中的不同功率水平。通过注入适当的零序电压来补偿各相间的功率不平衡。光伏发电机组的辐照度和温度条件的不均匀会影响各相电池间的功率分布。后一个问题是通过自适应调制方法解决的,特别适合于管理不均匀直流电源,同时确保稳定的电路运行,并通过专用的MPPT(最大功率点跟踪)算法最大限度地提取功率。该数字控制器在集成XSG (Xilinx System Generator)的Matlab/Simulink环境中开发和测试,从而可以在嵌入dSPACE实时平台的FPGA上轻松传输。仿真和实验结果证明了所提出的设计和控制方法的有效性。
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