电工技术学报  2023, Vol. 38 Issue (20): 5503-5514    DOI: 10.19595/j.cnki.1000-6753.tces.230368
电力电子 |
考虑回流功率因素的全桥CLL谐振变换器参数优化设计
黄何伟1, 曹太强1, 潘光绪2, 曹伟忠3, 郑敏1, 阳小明1
1.西华大学电气与电子信息学院 成都 610039;
2.民航成都电子技术有限责任公司 成都 611430;
3.成都四威高科技产业园有限公司 成都 610097
Parameter Optimal Design of Full-Bridge CLL Resonant Converter Considering Backflow Power Factor
Huang Hewei1, Cao Taiqiang1, Pan Guangxu2, Cao Weizhong3, Zheng Min1, Yang Xiaoming1
1. School of Electrical and Electronic Information Xihua University Chengdu 610039 China;
2. Civil Aviation Chengdu Electronic Technology Co. Ltd Chengdu 611430 China;
3. Chengdu SIWI High-Tech Industry Company Limited Chengdu 610097 China
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摘要 CLL谐振变换器在工作中谐振电流会回流到输入源产生回流功率,回流功率的增加会导致变换器产生更多的传导损耗,这限制了转化效率的提高。对此,基于回流功率的定义对全桥CLL变换器的工作模态进行详细分析,指出在正负模态中都会有回流功率的产生。同时,分析CLL变换器的交流等效模型,并结合产生回流功率的模态,得出回流功率可用谐振腔输入电压和电流的相移角间接表征。在此基础上,提出一种CLL变换器回流功率的简单表征方法,通过对谐振参数的优化设计来减小回流功率,从而提高转化效率。最后,通过两组谐振参数的仿真和实验对该设计方法进行验证,结果表明在谐振频率点和满载条件下,转化效率提高约1.8%,验证了理论分析的正确性和可行性。
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黄何伟
曹太强
潘光绪
曹伟忠
郑敏
阳小明
关键词 全桥CLL谐振变换器回流功率参数优化设计转化效率软开关    
Abstract:Resonant converters are widely used in distributed power systems, notebook computers, communication equipment, and new energy electric vehicles due to their excellent performance. However, the parameters of resonant elements are the main factors affecting the gain, loss, volume of the converter, and overall performance. Therefore, optimizing these parameters can lead to improvements in converter performance.
Among many resonant topologies, the LLC resonant converter has received significant attention and is widely used in practical applications. This paper studies a new resonant topology converter with a T-type CLL structure resonant tank. Its operating characteristics are very similar to the traditional LLC, which can be realized in the ZVS of the primary-side MOSFETs and the ZCS of the secondary-side diodes. The advantage of the resonant converter is its high conversion efficiency. Nonetheless, the converter cannot avoid generating backflow power during the operation, and the increase in backflow power can lead to a sharp increase in the conduction loss and current stress of the converter switch, ultimately reducing conversion efficiency. Therefore, this paper analyzes and optimizes the backflow power generated by the CLL resonant converter.
Firstly, the operating modes of the full-bridge CLL converter are analyzed based on the backflow power definition. It is pointed out that backflow power is generated in both positive and negative operating modes. In addition, a time-domain expression for backflow power is derived, though its complexity makes direct calculation and characterization challenging. Secondly, two insights emerge from the modal analysis of backflow power: (1) Backflow power is essentially reactive power circulating in the circuit and is not directly equivalent to power loss. (2) Power loss due to the substantial backflow power in the circuit is dissipated mainly within the equivalent resistance of the active and passive components in the reactive path. As a result, direct calculation is unnecessary, and it suffices to characterize backflow power using a relevant variable. Thirdly, by analyzing the AC equivalent model of the CLL converter and combining it with the modes that generate backflow power, it is derived that backflow power can be indirectly characterized by the phase shift angle of the resonant tank’s input voltage and current. Accordingly, a simple characterization method for the backflow power of CLL resonant converters is proposed. Backflow power is reduced by optimizing resonance parameters within the constraints of voltage gain and ZVS, thereby enhancing conversion efficiency. Finally, the design method is verified by simulation and experiment using two sets of resonant parameters. The results show that conversion efficiency is improved by about 1.8% at the resonant frequency point under full-load conditions.
Key wordsFull-bridge CLL resonant converter    backflow power    parameter optimization design    trans- formation efficiency    soft-switching   
收稿日期: 2023-03-25     
PACS: TM46  
基金资助:四川省科技计划项目(2023YFG0338, 2023YFG0191, 2022ZHCG0015)和四川省科技成果转移转化示范项目(2023ZHCG0039, 2023ZHCG0021)资助
通讯作者: 曹太强 男,1969年生,博士,教授,硕士生导师,主要研究方向为电力电子与电力传动、光伏发电技术等。E-mail: ctq815@126.com   
作者简介: 黄何伟 男,1997年生,硕士研究生,主要研究方向为谐振DC-DC变换器拓扑分析及其性能优化。E-mail: 634326231@qq.com
引用本文:   
黄何伟, 曹太强, 潘光绪, 曹伟忠, 郑敏, 阳小明. 考虑回流功率因素的全桥CLL谐振变换器参数优化设计[J]. 电工技术学报, 2023, 38(20): 5503-5514. Huang Hewei, Cao Taiqiang, Pan Guangxu, Cao Weizhong, Zheng Min, Yang Xiaoming. Parameter Optimal Design of Full-Bridge CLL Resonant Converter Considering Backflow Power Factor. Transactions of China Electrotechnical Society, 2023, 38(20): 5503-5514.
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