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用于移相全桥变换器全负载范围ZVS的多模式控制方案
Multimode Control Scheme for Full-Load Range ZVS of Phase Shift Full-Bridge Converter
| 作者 | Fangang Meng · Zifan Wang · Jinmeng Wu · Feng Li · Lei Gao |
| 期刊 | IEEE Journal of Emerging and Selected Topics in Power Electronics |
| 出版日期 | 2024年12月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 多模式控制 移相全桥变换器 零电压开关 模型 效率提升 |
语言:
中文摘要
本文提出一种多模式控制(MMC)方案,以解决传统移相全桥(PSFB)变换器滞后桥臂开关零电压切换(ZVS)范围窄的问题。通过建立ZVS过程模型,并依据该模型切换变换器工作模式,实现在全负载范围内无需谐振电感或辅助电路的ZVS。设计并实现了一台额定输出功率480 W、输出电压13.5 V的PSFB样机,实验结果表明,与传统双模式控制相比,MMC在轻载时可填补ZVS盲区并抑制硬开关振荡,轻载效率提升0.31%–31.13%。
English Abstract
This article proposes a multimode control (MMC) scheme to resolve the narrow zero-voltage switching (ZVS) range of the lagging-leg switches in the conventional phase-shifted full-bridge (PSFB) converter. This article analyzes and establishes ZVS process model and then transitions the converter operating mode based on the model to achieve ZVS over the full-load range without the need for resonant inductors and auxiliary circuits. A prototype PSFB converter with a rated output power of 480 W and an output voltage of 13.5 V is designed and implemented in this article with the aim of verifying the accuracy and effectiveness of the model and control scheme. The experimental results demonstrate that the MMC scheme, in comparison to the conventional two-mode control, is capable of filling the ZVS vacuum gap during light load and suppresses hard switching oscillations. Also, the efficiency improves by 0.31%–31.13% during light load.
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SunView 深度解读
该移相全桥全负载ZVS技术对阳光电源DC-DC变换器产品线具有重要应用价值。可直接应用于ST系列储能变流器的DC-DC隔离级、车载OBC充电机的功率变换模块及充电桩DC-DC变换单元。多模式控制方案通过建模切换工作模式,无需额外谐振电感或辅助电路即可实现全负载ZVS,轻载效率提升最高达31.13%,有效解决传统PSFB轻载硬开关损耗和EMI问题。该技术可优化阳光电源PowerTitan储能系统的待机损耗,提升OBC宽负载效率表现,降低开关应力延长SiC器件寿命,对提升产品竞争力和系统可靠性具有显著价值。