集成技术
集成技術
집성기술
Journal of Integration Technology
2014年
5期
76-84
,共9页
拓扑图%平面性%多电平%对偶%电流型逆变器%多载波
拓撲圖%平麵性%多電平%對偶%電流型逆變器%多載波
탁복도%평면성%다전평%대우%전류형역변기%다재파
topological graph%planarity%multilevel%dual%current-source inverter (CSI)%multi-carrier
受三相逆变器拓扑图非平面性的制约,很难直接运用对偶原理实现三相电压型逆变器拓扑与三相电流型逆变器拓扑之间的相互转换。为充分利用三相电压型多电平逆变器的研究成果以便构造三相电流型多电平逆变器拓扑,文章探讨了针对三相电压型二电平逆变器的两种拓扑图平面化处理方法,并分析了用于构造三相电流型多电平逆变器拓扑的可行性。在三相飞跨电容箝位电压型多电平逆变器拓扑基础上,通过增加一个独立电压源获得其平面化的等效电路,并以此作为原始拓扑利用对偶原理提出了一种新型的三相电流型多电平逆变器拓扑。采用多载波 SPWM技术对该类逆变器的正确性与合理性进行了仿真验证。
受三相逆變器拓撲圖非平麵性的製約,很難直接運用對偶原理實現三相電壓型逆變器拓撲與三相電流型逆變器拓撲之間的相互轉換。為充分利用三相電壓型多電平逆變器的研究成果以便構造三相電流型多電平逆變器拓撲,文章探討瞭針對三相電壓型二電平逆變器的兩種拓撲圖平麵化處理方法,併分析瞭用于構造三相電流型多電平逆變器拓撲的可行性。在三相飛跨電容箝位電壓型多電平逆變器拓撲基礎上,通過增加一箇獨立電壓源穫得其平麵化的等效電路,併以此作為原始拓撲利用對偶原理提齣瞭一種新型的三相電流型多電平逆變器拓撲。採用多載波 SPWM技術對該類逆變器的正確性與閤理性進行瞭倣真驗證。
수삼상역변기탁복도비평면성적제약,흔난직접운용대우원리실현삼상전압형역변기탁복여삼상전류형역변기탁복지간적상호전환。위충분이용삼상전압형다전평역변기적연구성과이편구조삼상전류형다전평역변기탁복,문장탐토료침대삼상전압형이전평역변기적량충탁복도평면화처리방법,병분석료용우구조삼상전류형다전평역변기탁복적가행성。재삼상비과전용겸위전압형다전평역변기탁복기출상,통과증가일개독립전압원획득기평면화적등효전로,병이차작위원시탁복이용대우원리제출료일충신형적삼상전류형다전평역변기탁복。채용다재파 SPWM기술대해류역변기적정학성여합이성진행료방진험증。
Due to the non-planarity of topological graphs for three-phase inverters, it is hard to construct three-phase current-source inverter (CSI) topologies from three-phase voltage-source inverter (VSI) topologies by using dual transformation. In order to form the multilevel CSI topology by making full use of the research ifndings of the three-phase multilevel VSI, two planar methods of treating with topological graphs of three-phase two-level voltage-source inverter topologies were discussed, and the feasibilities to construct three-phase multilevel CSI topologies by applying such methods were analyzed. By adding an extra voltage-source to the three-phase lfying-capacitor multilevel VSI, an equivalent circuit topology with planarity was obtained, and a new kind of three-phase multilevel CSI topology was proposed through the dual transformation in this paper. Lastly, the multi-carrier sinusoidal pulse width modulation (SPWM) technique was adopted to verify the correctness and rationality of such multilevel CSI topology by simulation.
