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Inner current loop analysis and design based on resonant regulators for isolated microgrid applications

机译：基于谐振调节器的内部电流环路分析和设计，用于隔离式微电网应用

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Inner current and voltage loops are fundamental in achieving good performance of microgrids based on power electronics voltage source inverters. The analysis and design of these loops are essential for the adequate operation of these systems. This paper investigates the effect of state feedback coupling in the design of proportional resonant controllers for these inner loops in voltage source inverters operating in islanded microgrids. It is also shown that the state feedback coupling has an important effect in the performance of the control loops by increasing the steady-state error. A comparison between different types of proportional+resonant controllers is done. Experimental results verify the theoretical assumptions done

机译：内部电流和电压环路对于实现基于电力电子电压源逆变器的微电网的良好性能至关重要。这些回路的分析和设计对于这些系统的正常运行至关重要。本文研究了在孤岛微电网中运行的电压源逆变器中这些内部环路的比例谐振控制器设计中，状态反馈耦合的影响。还表明，状态反馈耦合通过增加稳态误差对控制回路的性能具有重要影响。在不同类型的比例+谐振控制器之间进行了比较。实验结果验证了所做的理论假设

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De Bosio, Federico; Pastorelli, Michele Angelo; De Souza Ribeiro, Luiz Antonio; Lima, Marcel; Freijedo, Francisco; Guerrero, Josep;
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年度 2015
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Inner current loop analysis and design based on resonant regulators for isolated microgrid applications

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