电工技术学报
電工技術學報
전공기술학보
TRANSACTIONS OF CHINA ELECTROTECHNICAL SOCIETY
2010年
3期
89-96
,共8页
费万民%都小利%居荣%吴勤
費萬民%都小利%居榮%吳勤
비만민%도소리%거영%오근
多电平逆变器%脉宽调制%谐波%基波控制
多電平逆變器%脈寬調製%諧波%基波控製
다전평역변기%맥관조제%해파%기파공제
Multilevel inverter%pulse width modulation%harmonics%fundamental control
从脉宽调制的基本原理——冲量定理出发,针对1/4周期对称波形,根据分区内PWM波形与参考信号波形的重心相对位置,选三种典型多电平PWM方案,以五电平逆变器为例,研究并发现了在较低开关频率下输出电压谐波含量与基波控制精度随1/4周期内每个分区中PWM波重心位置的变化规律,以此为依据,提出了基于等面积法的数字化PWM控制的最优算法,可以同时实现高基波控制精度和低波形畸变系数。该PWM方法不受拓扑结构和电平数的约束,适用于所有的多电平逆变器,并且具有计算简单、易于编程和实现等优点,特别适用于对快速性、灵活性和输出波形质量有较高要求的应用场合。以五电平逆变器为例,对多电平逆变器的新型PWM方法进行了仿真和实验研究,结果证明了该PWM方法的有效性和实用性。
從脈寬調製的基本原理——遲量定理齣髮,針對1/4週期對稱波形,根據分區內PWM波形與參攷信號波形的重心相對位置,選三種典型多電平PWM方案,以五電平逆變器為例,研究併髮現瞭在較低開關頻率下輸齣電壓諧波含量與基波控製精度隨1/4週期內每箇分區中PWM波重心位置的變化規律,以此為依據,提齣瞭基于等麵積法的數字化PWM控製的最優算法,可以同時實現高基波控製精度和低波形畸變繫數。該PWM方法不受拓撲結構和電平數的約束,適用于所有的多電平逆變器,併且具有計算簡單、易于編程和實現等優點,特彆適用于對快速性、靈活性和輸齣波形質量有較高要求的應用場閤。以五電平逆變器為例,對多電平逆變器的新型PWM方法進行瞭倣真和實驗研究,結果證明瞭該PWM方法的有效性和實用性。
종맥관조제적기본원리——충량정리출발,침대1/4주기대칭파형,근거분구내PWM파형여삼고신호파형적중심상대위치,선삼충전형다전평PWM방안,이오전평역변기위례,연구병발현료재교저개관빈솔하수출전압해파함량여기파공제정도수1/4주기내매개분구중PWM파중심위치적변화규률,이차위의거,제출료기우등면적법적수자화PWM공제적최우산법,가이동시실현고기파공제정도화저파형기변계수。해PWM방법불수탁복결구화전평수적약속,괄용우소유적다전평역변기,병차구유계산간단、역우편정화실현등우점,특별괄용우대쾌속성、령활성화수출파형질량유교고요구적응용장합。이오전평역변기위례,대다전평역변기적신형PWM방법진행료방진화실험연구,결과증명료해PWM방법적유효성화실용성。
According to the impulse principle and the relative location of baricenter of PWM signal and reference signal in a section, take an five-level inverter for example, three typical PWM schemes are investigated to examine the variation of harmonics contents and fundamental control precision with the location of the baricenter of the PWM waveform in a section at a low switching frequency for PWM method of quarter wave symmetry. Based on the investigation, a novel optimum digital PWM scheme is proposed. The advantages of the new PWM method include easiness for calculating and programming, high flexibility, high quality in output waveform, high precision in fundamental control and so on. The new PWM method is not restricted to the topology and number of output levels of the multilevel inverters, and can be used in all kinds of multilevel inverters. Take five-level inverter as an example, the new PWM method is investigated by simulation and experiment. The results agree with each other very well and prove the validity, advantages and practicability.
