电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2012年
14期
172-176,185
,共6页
级联逆变器%梯形波控制%瞬时值反馈控制%光伏并网发电%触发角计算
級聯逆變器%梯形波控製%瞬時值反饋控製%光伏併網髮電%觸髮角計算
급련역변기%제형파공제%순시치반궤공제%광복병망발전%촉발각계산
cascaded inverter%stepped waveforms control%instantaneous value feedback control%photovoltaic grid-connectedgeneration%trigger angles calculation
针对传统光伏并网系统结构存在的问题,提出了一种新的阶梯波与电流瞬时值反馈混合控制的光伏并网级联逆变器方案。该方案一部分级联单元采取梯形波控制,一部分级联单元采取带电流瞬时值反馈的倍频正弦脉冲宽度调制,2个部分串联叠加形成输出电压。逆变器输出电压的谐波分析表明:调节正弦脉冲宽度调制波的移相角可以调节输出电压幅值和功率因数;逆变器输出电压低频谐波主要由阶梯波引起,为输出滤波器的设计提供了理论依据。对阶梯波调制逆变器的触发角提出了一种简易算法,该算法适用于电压级差不等模式且可实现触发角在线计算。实验结果表明,该方案结构简单,可靠性高,能有效降低开关损耗。
針對傳統光伏併網繫統結構存在的問題,提齣瞭一種新的階梯波與電流瞬時值反饋混閤控製的光伏併網級聯逆變器方案。該方案一部分級聯單元採取梯形波控製,一部分級聯單元採取帶電流瞬時值反饋的倍頻正絃脈遲寬度調製,2箇部分串聯疊加形成輸齣電壓。逆變器輸齣電壓的諧波分析錶明:調節正絃脈遲寬度調製波的移相角可以調節輸齣電壓幅值和功率因數;逆變器輸齣電壓低頻諧波主要由階梯波引起,為輸齣濾波器的設計提供瞭理論依據。對階梯波調製逆變器的觸髮角提齣瞭一種簡易算法,該算法適用于電壓級差不等模式且可實現觸髮角在線計算。實驗結果錶明,該方案結構簡單,可靠性高,能有效降低開關損耗。
침대전통광복병망계통결구존재적문제,제출료일충신적계제파여전류순시치반궤혼합공제적광복병망급련역변기방안。해방안일부분급련단원채취제형파공제,일부분급련단원채취대전류순시치반궤적배빈정현맥충관도조제,2개부분천련첩가형성수출전압。역변기수출전압적해파분석표명:조절정현맥충관도조제파적이상각가이조절수출전압폭치화공솔인수;역변기수출전압저빈해파주요유계제파인기,위수출려파기적설계제공료이론의거。대계제파조제역변기적촉발각제출료일충간역산법,해산법괄용우전압급차불등모식차가실현촉발각재선계산。실험결과표명,해방안결구간단,가고성고,능유효강저개관손모。
Aiming at the problems of traditional photovoltaic grid-connected system structure, a new type of photovoltaic grid- connected cascaded inverter scheme with stepped waveforms and instantaneous value feedback hybrid control. In this method, one part of the cascaded units use stepped waveforms control, the other part use octave sinusoidal pulse width modulation (SPWM) control with instantaneous current feedback. The output voltage comes from the two part:~ in series. The analysis of the output voltage harmonic shows that the amplitude of the output voltage and the power factor can be adjusted by the SPWM wave phase-shift angles; the low order harmonic of the output voltage is aroused by the stepped waveforms control part, which is the theoretic background for the output filter design. A simple algorithm for the trigger angles of the stepped waveforms modulated inverter is proposed, which is not only fit for the cascaded inverter with different volt;age steps, but also fit for online calculation. The experimental results show that this scheme has simple structure, high reliability and low switching loss.
