中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2014年
6期
839-845
,共7页
王万宝%张犁%胡海兵%邢岩
王萬寶%張犛%鬍海兵%邢巖
왕만보%장리%호해병%형암
半桥逆变器%三电平%中点电位不平衡%均压控制
半橋逆變器%三電平%中點電位不平衡%均壓控製
반교역변기%삼전평%중점전위불평형%균압공제
half-bridge inverter%three-level%midpoint unbalance%voltage balance control
针对半桥逆变器的中点电位不平衡问题,以电流控制型三电平半桥并网逆变器的闭环模型为研究对象,给出半桥逆变器中点电位不平衡机理,根据已有文献分析的电感电流初始角度不可控和PI控制器对于交流量存在调节静差相结合,理论推导得到调制波存在直流分量,最终导致输入电容中点电位不平衡。分别从控制电感电流初始角度和选择合适电流调节器的角度出发,提出两种半桥逆变器输入电容中点电位平衡的控制方法:①采用PI调节器,近似控制电感电流初始角度θL0=90°并反馈电感电流直流分量进行补偿均压控制;②采用准PR控制器替代PI控制器作为闭环控制器,消除调制波的直流偏置。仿真和实验结果表明,提出的两种均压控制方法可实现中点电位的平衡,且无需增加硬件成本。
針對半橋逆變器的中點電位不平衡問題,以電流控製型三電平半橋併網逆變器的閉環模型為研究對象,給齣半橋逆變器中點電位不平衡機理,根據已有文獻分析的電感電流初始角度不可控和PI控製器對于交流量存在調節靜差相結閤,理論推導得到調製波存在直流分量,最終導緻輸入電容中點電位不平衡。分彆從控製電感電流初始角度和選擇閤適電流調節器的角度齣髮,提齣兩種半橋逆變器輸入電容中點電位平衡的控製方法:①採用PI調節器,近似控製電感電流初始角度θL0=90°併反饋電感電流直流分量進行補償均壓控製;②採用準PR控製器替代PI控製器作為閉環控製器,消除調製波的直流偏置。倣真和實驗結果錶明,提齣的兩種均壓控製方法可實現中點電位的平衡,且無需增加硬件成本。
침대반교역변기적중점전위불평형문제,이전류공제형삼전평반교병망역변기적폐배모형위연구대상,급출반교역변기중점전위불평형궤리,근거이유문헌분석적전감전류초시각도불가공화PI공제기대우교류량존재조절정차상결합,이론추도득도조제파존재직류분량,최종도치수입전용중점전위불평형。분별종공제전감전류초시각도화선택합괄전류조절기적각도출발,제출량충반교역변기수입전용중점전위평형적공제방법:①채용PI조절기,근사공제전감전류초시각도θL0=90°병반궤전감전류직류분량진행보상균압공제;②채용준PR공제기체대PI공제기작위폐배공제기,소제조제파적직류편치。방진화실험결과표명,제출적량충균압공제방법가실현중점전위적평형,차무수증가경건성본。
To deal with the neutral point voltage unbalance problem in the single-phase three-level half-bridge grid-tied inverter, the paper takes a current closed-loop control model as a research plant, and analyzes the half-bridge inverter neutral potential unbalance mechanisms:According to the published papers, two factors, the random initial angle of inductor current and DC component in the modulation waveform resulting from the steady error of PI controller in an AC system, contribute to the neutral point voltage imbalance. Starting from the points of view on controlling the initial inductor current angle and selecting appropriate current regulators, the paper proposed two approached to keep the neutral point voltage balanced:①Feedback DC component of the inductor current; ②Employing Quasi-PR controller instead of PI controller to eliminate DC bias in the modulation wave. The simulation and experimental results show that two proposed control methods both can achieve neutral-point potential balance without additional hardware cost.