Synchronization Stability Analysis and Improved Control of Permanent Magnet Synchronous Generator with Internal and External Couplings

LI Hong; SONG Guojie; XIA Houkaishun; 2; ZHOU Hao; YANG Jinpeng; CHEN Yanming; 1

doi:10.13336/j.1003-6520.hve.20240192

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Synchronization Stability Analysis and Improved Control of Permanent Magnet Synchronous Generator with Internal and External Couplings

更新时间：2026-01-09

- Synchronization Stability Analysis and Improved Control of Permanent Magnet Synchronous Generator with Internal and External Couplings
- Vol. 51, Issue 6, Pages: 2989-2998(2025)
- 作者机构：
  
  广西电力系统最优化与节能技术重点实验室(广西大学),南宁,530004
- 作者简介：
- 基金信息：
- DOI：10.13336/j.1003-6520.hve.20240192
  CLC：
- Published：2025
- 稿件说明：
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LI Hong, SONG Guojie, XIA Houkaishun, et al. Synchronization Stability Analysis and Improved Control of Permanent Magnet Synchronous Generator with Internal and External Couplings[J]. 2025, 51(6): 2989-2998.
DOI：

LI Hong, SONG Guojie, XIA Houkaishun, et al. Synchronization Stability Analysis and Improved Control of Permanent Magnet Synchronous Generator with Internal and External Couplings[J]. 2025, 51(6): 2989-2998. DOI： 10.13336/j.1003-6520.hve.20240192.

摘要

跟网型PMSG存在内部多环控制耦合、机组与电网的外部耦合，内外部耦合可能会为PLL引入额外的附加通路，影响PLL的同步性能与机组稳定性。为此，为了揭示机组的失稳机理，建立了计及内外部耦合的跟网型PMSG同步模型。首先，考虑风机与电网的交互作用，阐述PLL作为风机与外部电网的耦合桥梁，研究多场景电网工况变化对系统稳定性的影响；并计及直流母线电压动态，研究了直流母线引入机侧与网侧交互的内在机制；采用复转矩分析法，分析内部多环控制参数、外部电网工况对机组等效阻尼的影响。针对内外部耦合的影响，提出了一种提升PMSG等效阻尼转矩的机/网协调控制策略。研究结果表明，内外部耦合引入的附加通路会改变PLL的结构，减弱PLL的等效阻尼；通过补偿该耦合引入的负阻尼，可重塑等效阻尼，增强PMSG的同步性。最后，通过实验样机，验证了理论分析的正确性与改进控制策略的有效性。

Abstract

Regarding a grid-following PMSG system

there exists internal coupling related to multiple loop controls and external coupling representing the interaction between the generator and the grid. Such internal and external couplings can introduce additional paths for PLL

and may affect the synchronization performance of the system. Therefore

this study establishes the synchronization mechanism of the PMSG system by taking into account the internal and external couplings and reveals the mechanism of generator instability. Firstly

focusing on the interaction between the PMSG and the grid

this study explores PLL as a coupling bridge between them

and investigates the impact of various grid conditions on the system stability. The study also considers the dynamic behavior of the DC bus voltage and examines the intrinsic mechanism of the interaction between the machine side converter and grid side converter of PMSG. By employing a complex torque analysis method

the study analyzes the influences of internal multiple-loop control parameters and external grid conditions on the equivalent damping of the system. In accordance with the effects of internal and external couplings

a coordinated control strategy for improving the equivalent damping torque of the PMSG is proposed. The research results demonstrate that the additional paths introduced by internal and external couplings can alter the structure of the PLL and weaken its equivalent damping. However

compensating for the negative damping introduced by this coupling can reshape the equivalent damping of and enhance the synchronization stability of the PMSG. Finally

the theoretical analysis is validated and the effectiveness of the improved control strategy is demonstrated through experimental prototypes.

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