电力自动化设备
電力自動化設備
전력자동화설비
ELECTRIC POWER AUTOMATION EQUIPMENT
2010年
4期
42-45,50
,共5页
张志%谢运祥%乐江源%陈林
張誌%謝運祥%樂江源%陳林
장지%사운상%악강원%진림
三电平%载波调制%电容电压平衡%零序电压%低频振荡%电压利用率
三電平%載波調製%電容電壓平衡%零序電壓%低頻振盪%電壓利用率
삼전평%재파조제%전용전압평형%령서전압%저빈진탕%전압이용솔
three-level%carrier-based modulation%capacitor voltage balance%zero-sequence voltage%low-frequency oscillations%voltage utilization
提出了一种二极管箝位型(NPC)三电平逆变器载波调制方法,该方法能消除三电平逆变器直流侧中点电位低频振荡,适用于任意非线性负载情况.该方法从空间矢量脉宽调制方法和载波调制方法本质联系出发,通过向调制波中注入一定的零序电压分量,达到了与空间矢量脉宽调制同样的电压利用率.该方法将调制波分成2部分,分别与载波进行比较,来决定开关管的工作状态.对直流侧中点电位采用了闭环控制,通过检测直流侧电容电压的大小和三相负载电流的方向,对每相的2部分调制波进行适当的调节,从而调整流入或流出中点的电流的作用时间,有效地保证了系统运行过程中直流侧电容电压平衡.该方法简单易行,易于数字化实现.仿真结果验证了该方法的正确性和可行性.
提齣瞭一種二極管箝位型(NPC)三電平逆變器載波調製方法,該方法能消除三電平逆變器直流側中點電位低頻振盪,適用于任意非線性負載情況.該方法從空間矢量脈寬調製方法和載波調製方法本質聯繫齣髮,通過嚮調製波中註入一定的零序電壓分量,達到瞭與空間矢量脈寬調製同樣的電壓利用率.該方法將調製波分成2部分,分彆與載波進行比較,來決定開關管的工作狀態.對直流側中點電位採用瞭閉環控製,通過檢測直流側電容電壓的大小和三相負載電流的方嚮,對每相的2部分調製波進行適噹的調節,從而調整流入或流齣中點的電流的作用時間,有效地保證瞭繫統運行過程中直流側電容電壓平衡.該方法簡單易行,易于數字化實現.倣真結果驗證瞭該方法的正確性和可行性.
제출료일충이겁관겸위형(NPC)삼전평역변기재파조제방법,해방법능소제삼전평역변기직류측중점전위저빈진탕,괄용우임의비선성부재정황.해방법종공간시량맥관조제방법화재파조제방법본질련계출발,통과향조제파중주입일정적령서전압분량,체도료여공간시량맥관조제동양적전압이용솔.해방법장조제파분성2부분,분별여재파진행비교,래결정개관관적공작상태.대직류측중점전위채용료폐배공제,통과검측직류측전용전압적대소화삼상부재전류적방향,대매상적2부분조제파진행괄당적조절,종이조정류입혹류출중점적전류적작용시간,유효지보증료계통운행과정중직류측전용전압평형.해방법간단역행,역우수자화실현.방진결과험증료해방법적정학성화가행성.
A carrier-based PWM is proposed for three-level neutral-point-clamped inverter,which avoids the low-frequency oscillation of its neutral-point voltage,suitable for any nonlinear load conditions.Based on the relationship between the space vector PWM and the carrier-based PWM,a proper zero-sequence voltage component is injected into the modulation signal to achieve the same maximum voltage utilization as that of SVPWM.Two modulation signals are compared respectively with the carrier to decide the state of output switch at each phase of the inverter.Close-loop control is designed for the neutral point voltage at DC-side.The DC-side capacitor voltage and three.phase load current are monitored and the modulation signals are accordingly modified to adjust the effective time of neutral point current to guarantee the capacitor voltage balance at DC.side.This method is simple and easy for digital implementation and its correctness and practicability are verified by simulations.
