Suzhou Electric Appliance Research Institute
期刊號: CN32-1800/TM| ISSN1007-3175

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基于DPS的雙有源橋DC-DC變換器回流功率優(yōu)化控制

來源:電工電氣發(fā)布時間:2024-02-01 13:01 瀏覽次數(shù):315

基于DPS的雙有源橋DC-DC變換器回流功率優(yōu)化控制

許宇安,張曉虎
(湖南工業(yè)大學 電氣與信息工程學院, 湖南 株洲 412007)
 
    摘 要:針對雙有源橋(DAB)DC-DC變換器進行回流功率優(yōu)化研究,在運用傳統(tǒng)雙重移相控制(DPS)進行調(diào)制,變壓器兩側(cè)的輸入電壓跟輸出電壓不匹配時,回流功率會顯著增大。提出一種雙重移相的多目標優(yōu)化控制方法,對雙重移相控制的工作原理進行分析,推導出對應的輸出功率和回流功率的關系式,以此搭建數(shù)學模型,并基于該模型對回流功率進行優(yōu)化;以 KKT 作為條件,針對回流功率的最小化問題,解出內(nèi)外移相角的最優(yōu)組合;為了迅速改變當前的傳輸功率,通過虛擬電壓補償方法來實現(xiàn),從而達到優(yōu)化系統(tǒng)回流功率的目標;通過 MATLAB/Simulink 仿真對該方案與傳統(tǒng) SPS(單移相控制) 方案、傳統(tǒng) DPS 方案進行對比分析,驗證了該方案的有效性及優(yōu)越性。
    關鍵詞: 雙有源橋變換器;雙重移相;回流功率;優(yōu)化控制
    中圖分類號:TP212     文獻標識碼:A     文章編號:1007-3175(2024)01-0010-06
 
Optimal Control of Backflow Power of Dual-Active Bridge
DC-DC Converter Based on DPS
 
XU Yu-an, ZHANG Xiao-hu
(College of Electrical and Information Engineering, Hunan University of Technology, Zhuzhou 412007,China)
 
    Abstract: For the research of backflow power optimization of Dual-Active Bridge (DAB) DC-DC converter, when the traditional Dual-Phase Shift (DPS) control method is used for modulation, the backflow power will significantly increase when the input voltage on both sides of the transformer does not match the output voltage. Based on the above problems, a multi-objective optimization control method with dual-phase shifting is proposed in this paper. Firstly, the working principle of the dual phase-shift control is analyzed, and the relationship between the corresponding output power and the reflow power is derived, so as to build a mathematical model, and the reflow power is optimized based on the model. Next, with KKT(Karush-Kuhn-Tucker) as the condition, aiming at the minimization of backflow power, the optimal combination of internal and external phase shift angles is solved. Then, in order to quickly change the current transmission power, the virtual voltage compensation method is used to achieve the goal of optimizing the system backflow power. Finally, the effectiveness and superiority of the scheme are verified by comparing and analyzing the scheme with the traditional SPS(Single-Phase Shift)scheme and the traditional DPS scheme by MATLAB/Simulink simulation.
    Key words: dual-active bridge converter; dual-phase shift; backflow power; optimal control
 
參考文獻
[1] ZHAO B, SONG Q, LIU W.Efficiency characterization and optimization of isolated bidirectional DC/DC converter based on dual phase shift control forDC distribution application[J].IEEE Transactions on Power Electronics,2013,28(4) :1711-1727.
[2] TONG A, HANG L, LI G, et al.Modeling and Analysis of a Dual-active-bridge Isolated Bidirectional DC/DC Converter to Minimize RMS Current with Whole Operating Range[J].IEEE Transactions on Power Electronics,2018,33(6) :5302-5316.
[3] 高帥,張興,趙文廣,等. 雙有源橋 DC-DC 變換器最小回流功率控制策略[J] . 電氣工程學報,2019,14(2) :24-29.
[4] 邵持,童安平,錢語安,等. 三重移相調(diào)制下 DAB 變換器全功率范圍統(tǒng)一ZVS 控制策略[J]. 中國電機工程學報,2019,39(19) :5644-5655.
[5] 費躍,李若愚,雷園,等. 寬輸入電壓雙有源橋變換器電流有效值最小控制方法研究[J]. 中國電機工程學報,2019,39(19) :5656-5665.
[6] KRISMER F,KOLAR J W.Closed form solution for minimum conduction loss modulation of dab converters[J].IEEE Transactions on Power Electronics,2012,27(1) :174-188.
[7] GU Qing,YUAN Liqiang,NIE Jintong,et al.Current stress optimization and efficiency increase of DAB with triple-phase-shift control based on 2-dimensional ergodicity method[C]//2018 IEEE Energy Conversion Congress and Exposition(ECCE),2018 :5610-5616.
[8] LIU X, ZHU Z, STONE D A, et al.Novel dualp hase-shift control with bidirectional inner phase shifts for a dual active bridge converter having low surge current and stable power control[J].IEEE Transactions on Power Electronics,2017,32(5) :4095-4106.
[9] ZHAO B, SONG Q, LIU W.Power characterization of isolated bidirectional dual active bridge DC-DC converter with dual phase shift control[J].IEEE Transactions on Power Electronics,2012,27(9) :4172-4176.
[10] 胡燕,張?zhí)鞎?,楊立新,? 雙重移相 DAB 變換器回流功率優(yōu)化與電流應力優(yōu)化的對比研究[J]. 中國電機工程學報,2020,40(S1) :243-253.