Orthogonal Decoupling Control of the Error of a New-Type Phase-Locked Loop under Unbalanced Grid Conditions

2018 IEEE International Power Electronics and Application Conference and Exposition (PEAC) Pub Date : 2018-11-01 DOI:10.1109/PEAC.2018.8590241

Guangiun Tan, Xiaofeng Sun, Xin Li, Ailing Wang, Ping-Jian Wang

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引用次数: 4

Abstract

This paper proposes a new-type phase-locked loop (PLL) based on Tan-Sun coordinate transformation system, which can realize the fast synchronization under unbalanced grid conditions. The phase detector’s (PD) error of the proposed PLL is selected as the linear function of three-phase grid voltages, which can be further expressed as the linear function of the estimated parameter errors by using Taylor expansion. In Hilbert space, by selecting the unit vector perpendicular to the other estimated parameter errors’ coefficients of PD’s error, the result derived by making the inner product of the unit vector and PD’s error is related to only one estimated parameter error, which means the decoupling control for each estimated parameter value becomes possible. Therefore, the standard first-order or second-order closed-loop control system can be designed for each estimated parameter value with the same settling time. The simulation and experimental results in the end indicate the effectiveness and speediness of the proposed Tan-Sun based PLL under unbalanced grid conditions.

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不平衡网格条件下新型锁相环误差的正交解耦控制

提出了一种基于Tan-Sun坐标变换系统的新型锁相环(PLL)，可实现电网不平衡条件下的快速同步。将所提锁相环的鉴相器(PD)误差作为三相电网电压的线性函数，利用泰勒展开进一步表示为估计参数误差的线性函数。在Hilbert空间中，通过选取与PD误差的其他估计参数误差系数垂直的单位矢量，使单位矢量与PD误差的内积得到的结果只与一个估计参数误差相关，这意味着可以对每个估计参数值进行解耦控制。因此，可以对每个估计参数值设计具有相同沉降时间的标准一阶或二阶闭环控制系统。仿真和实验结果表明，该算法在不平衡电网条件下具有良好的有效性和快速性。

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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2018 IEEE International Power Electronics and Application Conference and Exposition (PEAC)

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