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基于准方波调制的中压级固态变压器公共直流母线电压闭环控制
Closed-Loop Control of Common DC-Link Voltage of Solid-State Transformer from Medium Voltage Stage Using Quasi-Square-Wave Modulation
| 作者 | Shekhar Bhawal · Himanshu Patel · Kamalesh Hatua · Subhashish Bhattacharya |
| 期刊 | IEEE Journal of Emerging and Selected Topics in Power Electronics |
| 出版日期 | 2025年4月 |
| 技术分类 | 电动汽车驱动 |
| 技术标签 | SiC器件 IGBT |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 固态变压器 闭环控制 调制方法 成本降低 效率提升 |
语言:
中文摘要
提出一种用于两级式固态变压器(SST)的闭环控制架构与准方波调制方法,通过反馈公共直流母线电压实现闭环调节,无需DC-DC级串联谐振变换器的频率控制。该控制可从低压侧实现,降低隔离要求。输入串联输出并联模块化结构结合谐振运行特性,自然平衡各AC-DC单元的直流链电压。AC-DC级主要采用Si-IGBT,仅电压源变换器(VSC)使用SiC-MOSFET,降低器件成本。调制策略利用自然均压条件,使IGBT单元在工频开关,减小损耗;VSC以40 kHz高频切换,等效高开关频率,支持低频谐波抑制与瞬态功率响应。所提方法在600 V(AC)/200 V(DC)、5 kW SST系统上实验验证,兼具控制简洁性、模块化、高效率与低成本优势。
English Abstract
A closed-loop control architecture and a quasi-square-wave modulation method are proposed for two-stage (ACDC and DC-DC) solid-state transformer (SST) that regulates isolated common DC-link voltage in a closed-loop manner without needing frequency control from series resonance converter (SRC) at DC-DC stage. Closed-loop control uses common DC-link voltage as feedback variable, allowing it to be realized from LV side, reducing isolation requirements. Input-series output-parallel (ISOP) modular architecture and resonance operation balance all DC-link voltages of AC-DC cells naturally. AC-DC stage is mainly realized by Si-IGBT switches, and only a voltage source converter (VSC) is realized by SiC-MOSFET switches, reducing semiconductor costs. A modulation strategy is proposed for MV stage utilizing natural voltage balancing condition, switching all IGBT cells at power grid frequency to minimize switching losses. VSC unit is switched at 40 kHz to achieve equivalent high switching frequency, enabling low-frequency harmonic filtration and transient power support. Proposed control and modulation together achieve control simplicity, modularity, higher efficiency, and cost savings, ensuring desired dynamic response. Proposed technique is validated experimentally on a 600 V(AC) / 200 V (DC), 5 kW SST system.
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SunView 深度解读
该准方波调制的SST闭环控制技术对阳光电源储能与充电产品线具有重要应用价值。其输入串联输出并联的模块化架构与ST系列储能变流器的中高压直挂方案高度契合,可简化隔离设计降低成本。Si-IGBT与SiC-MOSFET混合应用策略为PowerTitan大型储能系统的功率模块设计提供优化思路:工频级采用低成本IGBT,高频级使用SiC器件,兼顾效率与经济性。谐振运行的自然均压特性可借鉴至多电平拓扑的电压平衡控制,提升系统可靠性。该技术对充电桩DC-DC隔离级、车载OBC的双向变换器设计亦有参考价值,支持宽电压范围输入与快速功率响应需求。