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构网型级联H桥变换器的暂态限流控制
A Transient Current Limiting Control for the Grid-forming Cascaded H-bridge Converter
| 作者 | Mengze Wu · Xing Zhang · Kai Hu · Tao Zhao · Xinxin Fu · Xiangdui Zhan |
| 期刊 | IEEE Journal of Emerging and Selected Topics in Power Electronics |
| 出版日期 | 2025年8月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 构网型GFM |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 级联H桥变换器 无内环中压直连构网 暂态电流限制方法 构网运行 电网支撑性能 |
语言:
中文摘要
级联H桥(CHB)变换器具有模块化和高容量特性,其阶梯电压波形和输出电抗模拟发电机内电势和输出电抗,是无内环中压直接构网型(GFM)应用的理想方案。针对低开关频率响应慢和过载率限制挑战,提出暂态限流方法,集成电流箝位负反馈控制策略(CCNFC)和分层模块级快速电流反应控制策略(HMCC)。该方法确保正常条件下GFM稳定运行,同时通过故障条件下优化参数增强电网支撑性能。底层控制器快速反应抑制暂态过流,确保CHB变换器安全和可靠的电网支撑性能。仿真和实验验证了所提方法。
English Abstract
The Cascaded H-Bridge (CHB) converter features modularity and high capacity, with its stepped voltage waveform and output reactance emulating the internal potential and output reactance of a generator, making it an ideal solution for inner-loop-free medium-voltage direct grid-forming (GFM) applications. To address the challenges of slow response at low switching frequency and overload ratio limitation, this paper proposes a transient current limiting approach that integrates a current-clamped negative feedback control strategy (CCNFC) with a hierarchical module-level fast current reaction control strategy (HMCC). This approach ensures stable GFM operation under normal conditions while enhancing grid-support performance through optimized parameters under fault conditions. The rapid reaction of bottom controllers suppresses transient overcurrent, ensuring the CHB converter’s safety and reliable grid support performance. Simulations and experiments validate the proposed approach.
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SunView 深度解读
该构网型CHB暂态限流技术对阳光电源中压储能变流器有重要应用价值。CCNFC和HMCC集成控制策略可应用于PowerTitan大型储能系统的模块化构网型变换器设计,提高故障穿越能力和电网支撑性能。分层控制架构对ST储能变流器的多模块协调控制有借鉴意义,可平衡响应速度和过载保护。该技术对阳光电源中压直挂储能解决方案的构网型GFM功能实现有指导价值,可提升系统在弱电网环境下的稳定性和可靠性。