Modeling and control of a battery connected standalone photovoltaic system

Priyabrata Shaw, P. Sahu, S. Maity, Punit Kumar
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引用次数: 13

Abstract

This paper presents modeling and control of a standalone photovoltaic (PV) system in which a battery is used as a backup source for power management between the source and the load. Lead-acid battery is commonly used in high power PV applications due to its low cost and availability in large size. The modeling of PV system and lead-acid battery by using the corresponding equivalent circuits are discussed here. Three independent control loops are proposed to control the standalone PV system; MPPT control loop for extracting maximum power from PV module under different solar irradiation, battery control loop for bidirectional power flow between battery and dc-link through buck-boost converter to keep the input dc voltage constant, and inverter control loop for maintaining good voltage regulation and achieving fast dynamic response under sudden load fluctuations. The stability of the above control loops are verified by using Bode diagram. Finally the proposed method is applied to 2 kW, 110 V, 50 Hz, two-stage single-phase standalone PV system. The simulation and the experimental results are presented to validate the theoretical analysis, effectiveness and feasibility of the proposed control strategy.
电池连接独立光伏系统的建模与控制
本文介绍了一个独立的光伏(PV)系统的建模和控制,其中电池被用作电源和负载之间的备用电源。铅酸电池由于其低成本和大尺寸可用性而被广泛应用于高功率光伏应用中。本文讨论了利用等效电路对光伏系统和铅酸蓄电池进行建模的方法。提出了三个独立的控制回路来控制独立的光伏系统;MPPT控制回路用于在不同太阳照射下提取光伏组件的最大功率,电池控制回路通过升压变换器实现电池与直流链路之间的双向功率流,以保持输入直流电压恒定,逆变器控制回路用于在负载突然波动下保持良好的电压调节并实现快速动态响应。利用波德图验证了上述控制回路的稳定性。最后将该方法应用于2kw, 110v, 50hz,两级单相独立光伏系统。仿真和实验结果验证了所提控制策略的理论分析、有效性和可行性。
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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