电机与控制学报
電機與控製學報
전궤여공제학보
ECTRIC MACHINES AND CONTROL
2015年
1期
29-34
,共6页
李俊杰%姜建国%戴鹏%乔树通
李俊傑%薑建國%戴鵬%喬樹通
리준걸%강건국%대붕%교수통
多电平逆变器%二极管箝位型%结点电压偏差%电容电压平衡%电压矢量脉宽调制
多電平逆變器%二極管箝位型%結點電壓偏差%電容電壓平衡%電壓矢量脈寬調製
다전평역변기%이겁관겸위형%결점전압편차%전용전압평형%전압시량맥관조제
multilevel inverters%diode clamped%deviation of node voltages%voltage balance of capaci-tors%space vector pulse width modulation
针对二极管箝位型多电平逆变器电容电压难以控制的问题,分析了一种简单的多电平逆变器等效模型,用于预测结点电压偏差,提出了一种多电平逆变器电容电压平衡优化SVPWM ( space vector pulse width modulation)算法。该算法通过预测不同开关状态下直流侧结点电压偏差,建立目标函数并对其寻优,在每个开关周期选取最优的开关组合达到结点电压平衡。理论分析和试验结果表明,该算法适用于任意电平逆变器电容电压平衡的控制,解决了三电平逆变器电容电压平衡的问题,但在三电平以上的逆变器受调制度限制。针对三电平以上高调制度下电容电压失衡的原因进行了分析,并给出了解决方法。仿真和实验验证了算法的正确性。
針對二極管箝位型多電平逆變器電容電壓難以控製的問題,分析瞭一種簡單的多電平逆變器等效模型,用于預測結點電壓偏差,提齣瞭一種多電平逆變器電容電壓平衡優化SVPWM ( space vector pulse width modulation)算法。該算法通過預測不同開關狀態下直流側結點電壓偏差,建立目標函數併對其尋優,在每箇開關週期選取最優的開關組閤達到結點電壓平衡。理論分析和試驗結果錶明,該算法適用于任意電平逆變器電容電壓平衡的控製,解決瞭三電平逆變器電容電壓平衡的問題,但在三電平以上的逆變器受調製度限製。針對三電平以上高調製度下電容電壓失衡的原因進行瞭分析,併給齣瞭解決方法。倣真和實驗驗證瞭算法的正確性。
침대이겁관겸위형다전평역변기전용전압난이공제적문제,분석료일충간단적다전평역변기등효모형,용우예측결점전압편차,제출료일충다전평역변기전용전압평형우화SVPWM ( space vector pulse width modulation)산법。해산법통과예측불동개관상태하직류측결점전압편차,건립목표함수병대기심우,재매개개관주기선취최우적개관조합체도결점전압평형。이론분석화시험결과표명,해산법괄용우임의전평역변기전용전압평형적공제,해결료삼전평역변기전용전압평형적문제,단재삼전평이상적역변기수조제도한제。침대삼전평이상고조제도하전용전압실형적원인진행료분석,병급출료해결방법。방진화실험험증료산법적정학성。
Capacitor voltages of diode clamped multilevel inverters are hard to control. In order to solve this problem,a simple equivalent circuit of multilevel inverters to predict the deviation of node voltages was analyzed, and an optimization algorithm of space vector pulse width modulation( SVPWM) for capaci-tor voltage balance of diode clamped multilevel inverters was presented. This algorithm predicts the devia-tion of node voltages for different operation modes to develop an optimization algorithm to minimize the voltage deviation among different capacitors. In this algorithm the best switch combinations were selected during each switching cycle to reach node voltage balance. Theoretical analysis and experimental results show this algorithm is naturally applicable to inverters with an arbitrary number of levels. Capacitor volta-ges of three-level inverter are controlled, but more than three-level inverter system is restricted by the modulation. For more than three-level system, the cause of capacitor voltage imbalance under high modu-lation was analyzed, and a solution was presented. Simulation and experimental results verify the correct-ness of this algorithm.