中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2015年
17期
4486-4493
,共8页
多相多电平%LLC 谐振变换器%变频控制%零电压开关%零电流开关
多相多電平%LLC 諧振變換器%變頻控製%零電壓開關%零電流開關
다상다전평%LLC 해진변환기%변빈공제%령전압개관%령전류개관
multi-phase multi-level%LLC resonant converter%variable frequency control%zero-voltage-switching (ZVS)%zero-current- switching (ZCS)
在电动汽车和轨道交通辅助电源等高压大功率场合,开关管电压电流应力较高,功率器件选择困难。为此,该文提出了一种适用于高压大功率场合的模块化多相多电平LLC 谐振变换器。其中,多电平结构使得原边开关管的电压应力仅为输入电压的1/n,多相结构可有效降低开关管电流定额。采用变频控制策略,在宽电压和宽负载范围内,所有原边开关管均可实现零电压开关,所有副边整流管均可实现零电流开关。以3个模块结构为例,分析了变频控制策略下多相多电平LLC谐振变换器的工作原理,通过基波分析法得到变换器的等效电路模型和输入输出电压增益。分别对开关频率低于谐振频率和高于谐振频率两个工作区域进行参数设计,完成一台540~660 V输入、400 V/5 A输出的原理样机,实验结果验证了理论分析的正确性。
在電動汽車和軌道交通輔助電源等高壓大功率場閤,開關管電壓電流應力較高,功率器件選擇睏難。為此,該文提齣瞭一種適用于高壓大功率場閤的模塊化多相多電平LLC 諧振變換器。其中,多電平結構使得原邊開關管的電壓應力僅為輸入電壓的1/n,多相結構可有效降低開關管電流定額。採用變頻控製策略,在寬電壓和寬負載範圍內,所有原邊開關管均可實現零電壓開關,所有副邊整流管均可實現零電流開關。以3箇模塊結構為例,分析瞭變頻控製策略下多相多電平LLC諧振變換器的工作原理,通過基波分析法得到變換器的等效電路模型和輸入輸齣電壓增益。分彆對開關頻率低于諧振頻率和高于諧振頻率兩箇工作區域進行參數設計,完成一檯540~660 V輸入、400 V/5 A輸齣的原理樣機,實驗結果驗證瞭理論分析的正確性。
재전동기차화궤도교통보조전원등고압대공솔장합,개관관전압전류응력교고,공솔기건선택곤난。위차,해문제출료일충괄용우고압대공솔장합적모괴화다상다전평LLC 해진변환기。기중,다전평결구사득원변개관관적전압응력부위수입전압적1/n,다상결구가유효강저개관관전류정액。채용변빈공제책략,재관전압화관부재범위내,소유원변개관관균가실현령전압개관,소유부변정류관균가실현령전류개관。이3개모괴결구위례,분석료변빈공제책략하다상다전평LLC해진변환기적공작원리,통과기파분석법득도변환기적등효전로모형화수입수출전압증익。분별대개관빈솔저우해진빈솔화고우해진빈솔량개공작구역진행삼수설계,완성일태540~660 V수입、400 V/5 A수출적원리양궤,실험결과험증료이론분석적정학성。
In some applications with high voltage and high power, such as electrical vehicles and auxiliary power supplies in traction system, the voltage and current stress of power devices are relatively high, which is difficult to select the power devices. To satisfy the requirement for above applications, a multi-phase multi-level LLC resonant converter with modular structure was proposed. The voltage stress on the primary switch is only one-nth of the input voltage due to its multi-level structure, the current rating of power devices can be reduced by introducing the proposed multi-phase structure. By using the variable frequency control strategy, the primary switches can operate with zero-voltage- switching (ZVS) and the rectifier diodes can operate with zero-current-switching (ZCS) in a wide voltage and wide load range. Taken the topology with three modules for example, the operation principle of the converter under variable frequency control method was analyzed, the equivalent model and voltage gain of the converter were derived according to fundamental harmonic analysis. The parameters are designed under the condition that the switching frequency is higher or lower than the resonant frequency. To validate the feasibility of the proposed converter, a prototype with 540~660V input and 400V/5A output has been built and tested in the lab and the experimental results can agree with the theoretical analysis.