中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2015年
1期
167-176
,共10页
陈耀军%陈柏超%田翠华%袁佳歆
陳耀軍%陳柏超%田翠華%袁佳歆
진요군%진백초%전취화%원가흠
模块化多电平变换器%状态方程%等效模型%死区%IGBT饱和压降
模塊化多電平變換器%狀態方程%等效模型%死區%IGBT飽和壓降
모괴화다전평변환기%상태방정%등효모형%사구%IGBT포화압강
modular multilevel converter (MMC)%state equation%equivalent model%dead time%IGBT saturation voltage drop
模块化多电平变换器(modular multilevel converter, MMC)由于其模块及变量数量众多,造成其仿真及分析的困难。在忽略系统高频分量及假定模块电容电压均等的前提下,引入正负桥臂电容电压之和及差作为新的变量,并和环流及输出电流一起建立了系统的状态方程。以该方程为基础,提出了系统的一种等效模型。该模型以简单的电容和逆变器模型为基础,从而使得系统分析变得十分直观和简单。为提高模型的精确性,该文分析了死区及IGBT饱和压降对系统的影响,给出了修改后的等效模型及其s域模型,该模型可以替换实际的MMC系统用于仿真研究,而不必考虑仿真速度的问题。最后,通过仿真和实验证实了所提模型的正确性。
模塊化多電平變換器(modular multilevel converter, MMC)由于其模塊及變量數量衆多,造成其倣真及分析的睏難。在忽略繫統高頻分量及假定模塊電容電壓均等的前提下,引入正負橋臂電容電壓之和及差作為新的變量,併和環流及輸齣電流一起建立瞭繫統的狀態方程。以該方程為基礎,提齣瞭繫統的一種等效模型。該模型以簡單的電容和逆變器模型為基礎,從而使得繫統分析變得十分直觀和簡單。為提高模型的精確性,該文分析瞭死區及IGBT飽和壓降對繫統的影響,給齣瞭脩改後的等效模型及其s域模型,該模型可以替換實際的MMC繫統用于倣真研究,而不必攷慮倣真速度的問題。最後,通過倣真和實驗證實瞭所提模型的正確性。
모괴화다전평변환기(modular multilevel converter, MMC)유우기모괴급변량수량음다,조성기방진급분석적곤난。재홀략계통고빈분량급가정모괴전용전압균등적전제하,인입정부교비전용전압지화급차작위신적변량,병화배류급수출전류일기건립료계통적상태방정。이해방정위기출,제출료계통적일충등효모형。해모형이간단적전용화역변기모형위기출,종이사득계통분석변득십분직관화간단。위제고모형적정학성,해문분석료사구급IGBT포화압강대계통적영향,급출료수개후적등효모형급기s역모형,해모형가이체환실제적MMC계통용우방진연구,이불필고필방진속도적문제。최후,통과방진화실험증실료소제모형적정학성。
Applications of the modular multilevel converter (MMC) in the mid- and high voltage places have received extensive attention, but the numerous sub-modules bring difficulties for the analysis. In this paper, assuming the system is continuous and ideal, the system state equations of single phase are deduced about the four variables as the circulating current, the load current, the sum and the difference of the capacitor voltages between the positive and the negative legs in a phase. Based on the system state equations, the system equivalent model is established, which makes the physical relationship among the variables of the system become very clear. And then, effects of the dead time and the IGBT saturation voltage drop on the system are analyzed to improve the equivalent model, and the corresponding s-domain model is presented that can be used for simulation study of the MMC. Finally, simulation and experimental results confirm the accuracy of the proposed model.
