Optimized design of damped proportional-resonant controllers for grid-connected inverters through genetic algorithm

2014 International Power Electronics and Application Conference and Exposition Pub Date : 2014-11-01 DOI:10.1109/PEAC.2014.7038044

Huiyong Hu, Wei Wei, Yong-gang Peng, J. Lei

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引用次数: 2

Abstract

This paper describes the design principles of damped proportional-resonant (PR) controllers used for the grid-connected inverters. Previous works focused on the frequency domain analysis to select parameters, which can't reflect the time domain performance directly. This paper presents a mathematical model of grid-connected inverter connected with a LC filter and isolation transformer in the stationary reference frame, whose order is reduced by weighted current feedback. Based on the reduced-order model, the principles for designing damped PR controllers in the frequency domain are presented in details. The optimized design of damped PR controller through genetic algorithm using the cumulative amount of current tracking error as indicator of the time-domain performance is proposed. Compared with traditional system, the system with the optimized damped PR controller achieves not only better stability in the frequency domain, but also more excellent performances of current tracking and lower total harmonic distortion in the time domain. Simulation results are presented to verify the feasibility and effectiveness of the proposed approach.

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用遗传算法优化并网逆变器阻尼比例谐振控制器设计

介绍了用于并网逆变器的阻尼比例谐振(PR)控制器的设计原理。以往的工作主要集中在频域分析来选择参数，不能直接反映时域性能。本文建立了固定参照系下LC滤波器和隔离变压器并网逆变器的数学模型，该模型采用加权电流反馈降阶。基于降阶模型，详细介绍了阻尼PR控制器在频域的设计原则。提出了以电流跟踪误差累积量作为时域性能指标，采用遗传算法对阻尼式PR控制器进行优化设计。与传统系统相比，优化后的阻尼PR控制器不仅在频域具有更好的稳定性，而且在时域具有更好的电流跟踪性能和更低的总谐波畸变。仿真结果验证了该方法的可行性和有效性。

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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2014 International Power Electronics and Application Conference and Exposition

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