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容错开关单元飞跨电容钳位电流源逆变器
Fault-Tolerant Switching-Cell Flying Capacitor Clamped Current Source Inverter
| 作者 | Faramarz Faraji · Honnyong Cha |
| 期刊 | IEEE Journal of Emerging and Selected Topics in Power Electronics |
| 出版日期 | 2025年6月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 PWM控制 可靠性分析 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 飞跨电容钳位电流源逆变器 开路故障 容错拓扑 相移脉宽调制 容错分析 |
语言:
中文摘要
飞跨电容钳位电流源逆变器(FC³SI)具有模块化和可扩展特性。然而易受开路故障(OCF)影响,严重危及系统可靠性。为解决这一重大局限,提出改进拓扑容错开关单元FC³SI(FT-SCFC³SI)。该拓扑采用移相脉宽调制(PS-PWM)方法容忍所有功率器件同时和频繁开路故障,同时保持飞跨电容自然电压平衡。与多个现有CSC不同,该逆变器无需多个直流源和/或电感。进行容错分析并通过实验室测试验证。
English Abstract
A topology with modularity and scalability features, referred to as the flying capacitor clamped current source inverter (FC³SI), has recently been introduced in the literature. However, it is prone to open-circuit faults (OCFs), which significantly endanger system reliability. To address this major limitation, a modified topology called the fault-tolerant switching-cell FC³SI (FT-SCFC³SI) is introduced in this article. The proposed topology utilizes phase-shifted pulse-width modulation (PS-PWM) method to tolerate simultaneous and frequent OCFs across all power devices, while still preserving the natural voltage balance of the flying capacitors. Unlike several existing CSCs, the suggested inverter eliminates the need for multiple dc sources and/or inductors. A fault-tolerant analysis is carried out and substantiated by experimental results from laboratory tests.
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SunView 深度解读
该容错飞跨电容电流源逆变器技术对阳光电源高可靠性逆变器设计有重要参考价值。FT-SCFC³SI开路故障容错能力可应用于ST储能变流器和SG光伏逆变器,提高系统可靠性和可用性。PS-PWM容错控制策略对阳光电源逆变器在严苛环境下的容错设计有借鉴意义。模块化可扩展特性对PowerTitan大型储能系统的冗余设计和维护性有应用价值,可降低故障停机时间并提升系统寿命。