POWER CONTROL STRATEGY FOR GRID-CONNECTED INVERTERS IN STATIONARY REFERENCE FRAME

Eletrônica de Potência Pub Date : 2022-06-30 DOI:10.18618/rep.2022.2.0048

Lucas S. Xavier, Allan Fagner Cupertino, Heverton Augusto Pereira, Victor Flores Mendes

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Abstract

– The control of grid-connected converters in stationary reference frame has been investigated in several works of literature. One of the challenges of this method is in the computation of the current computing current references as a function of power references. In some works, this issue has been solved based on instantaneous power theory equations described in the stationary reference frame. However, this approach can lead to steady-state errors in the injected power if there is an error in the current control loop, which is the focus of this investigation. Firstly, analytical expressions are derived to investigate the effect of current loop steady-state error in the active and reactive power injected into the grid. Then, this paper proposes a closed-loop power control for grid-connected inverters controlled in the stationary reference frame. This strategy is experimentally investigated in two power conversion system configurations for battery energy storage systems. The results indicate that the proposed scheme guarantees zero steady-state error in the injected power even when the current loop presents an amplitude and phase steady-state error.

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静止参照系下并网逆变器功率控制策略

-在固定参考系中并网变流器的控制已经在一些文献中进行了研究。该方法的挑战之一是计算当前的计算电流参考作为功率参考的函数。在一些著作中，这个问题是基于静止参照系中描述的瞬时功率理论方程来解决的。然而，如果电流控制回路存在误差，这种方法可能导致注入功率出现稳态误差，这是本研究的重点。首先，推导了电流环稳态误差对电网有功和无功功率影响的解析表达式;在此基础上，提出了一种在静止参照系下控制并网逆变器的闭环功率控制方法。在电池储能系统的两种功率转换系统配置中对该策略进行了实验研究。结果表明，即使电流环存在幅相稳态误差，该方案也能保证注入功率的稳态误差为零。

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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Eletrônica de Potência

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