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基于交变电压控制的跟网型VSC在极弱电网中的增强运行
Enhanced Operation of Grid-Following VSCs With Alternating-Voltage Control in Ultraweak Grids
| 作者 | Wei Wu · Zhiqing Yang · Shan He · Helong Li · Kai Zhang · Lijian Ding |
| 期刊 | IEEE Journal of Emerging and Selected Topics in Power Electronics |
| 出版日期 | 2025年1月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 跟网型GFL 弱电网并网 多物理场耦合 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 交流电压控制 弱电网 dq耦合 参数调谐 稳定性增强控制 |
语言:
中文摘要
在弱电网中,交变电压控制(AVC)可提升带锁相环(PLL)的跟网型电压源换流器(VSC)的电压刚度和有功功率传输能力。然而,AVC会因无功电流加剧控制回路的d-q轴不对称耦合,引发不利交互,威胁系统稳定性。为此,本文首先提出一种基于系统额定参数的AVC参数整定方法,并系统分析AVC对d-q耦合、稳定域及电压动态的影响。进一步提出稳定性增强控制(SEC),用以补偿PLL与AVC引入的负耦合效应。所提方案实现了VSC在极弱电网下的额定功率稳定运行,实验验证了其有效性。
English Abstract
Alternating-voltage control (AVC) is preferred in weak grids to enhance voltage stiffness and active power transfer capability for grid-following voltage source converters (VSCs) with a phase-locked loop (PLL). However, asymmetric dq coupling of control loops is intensified with the AVC due to reactive currents, which leads to undesired interactions and thus risks weak-grid instability. To tackle stability challenge considering the AVC, a parameter tuning approach is first proposed to design the AVC according to the system rating. Based on that, the impact of the AVC on the intensified dq coupling, stability region, and voltage dynamics are co-investigated. To enhance weak-grid operations, a stability enhancement control (SEC) is further proposed to reversely compensate for the negative coupling effects induced by the PLL and AVC. The proposed scheme enables rated power operations of the VSC in ultraweak grids. Experiments confirm the validity of the proposed method.
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SunView 深度解读
该AVC增强控制技术对阳光电源ST系列储能变流器和SG系列光伏逆变器在弱电网并网场景具有重要应用价值。针对西北、澳洲等高阻抗电网(SCR<1.5),所提SEC稳定性增强控制可有效补偿PLL与AVC的负耦合效应,突破现有GFL控制在极弱电网下的功率传输瓶颈。建议将该参数整定方法集成至PowerTitan储能系统的并网控制策略,优化d-q轴解耦算法,提升额定功率稳定运行能力。该技术可与阳光现有虚拟同步机VSG技术形成互补,为iSolarCloud平台提供弱电网自适应控制方案,增强产品在复杂电网环境下的适应性与市场竞争力。