电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2014年
9期
2504-2510
,共7页
两电平变流器%空间矢量脉宽调制%简化算法%电压谐波分析
兩電平變流器%空間矢量脈寬調製%簡化算法%電壓諧波分析
량전평변류기%공간시량맥관조제%간화산법%전압해파분석
2-level converter%SVPWM%simplified algorithm%voltage harmonic analysis
传统的两电平空间矢量脉宽调制(space vector pulse width modulation,SVPWM)算法流程复杂,计算量较大。从传统算法的伏秒平衡方程出发,推导并求解了三相上开关器件脉宽时间所满足的线性方程组,提出了一种无需坐标变换和扇区判断的两电平 SVPWM 简化算法。该算法流程简单,计算量少,且在参考电压含不对称分量时仍与传统算法等价。在此基础上,针对采用同步 SVPWM 的两电平变流器,提出了一种电压谐波分析方法,给出了在不同零矢量分配方式下通用的电压谐波频谱计算公式,并定性分析了电压谐波的频谱分布特性。基于PSCAD/EMTDC的仿真结果验证了所提的两电平 SVPWM 简化算法和电压谐波分析方法的准确性。
傳統的兩電平空間矢量脈寬調製(space vector pulse width modulation,SVPWM)算法流程複雜,計算量較大。從傳統算法的伏秒平衡方程齣髮,推導併求解瞭三相上開關器件脈寬時間所滿足的線性方程組,提齣瞭一種無需坐標變換和扇區判斷的兩電平 SVPWM 簡化算法。該算法流程簡單,計算量少,且在參攷電壓含不對稱分量時仍與傳統算法等價。在此基礎上,針對採用同步 SVPWM 的兩電平變流器,提齣瞭一種電壓諧波分析方法,給齣瞭在不同零矢量分配方式下通用的電壓諧波頻譜計算公式,併定性分析瞭電壓諧波的頻譜分佈特性。基于PSCAD/EMTDC的倣真結果驗證瞭所提的兩電平 SVPWM 簡化算法和電壓諧波分析方法的準確性。
전통적량전평공간시량맥관조제(space vector pulse width modulation,SVPWM)산법류정복잡,계산량교대。종전통산법적복초평형방정출발,추도병구해료삼상상개관기건맥관시간소만족적선성방정조,제출료일충무수좌표변환화선구판단적량전평 SVPWM 간화산법。해산법류정간단,계산량소,차재삼고전압함불대칭분량시잉여전통산법등개。재차기출상,침대채용동보 SVPWM 적량전평변류기,제출료일충전압해파분석방법,급출료재불동령시량분배방식하통용적전압해파빈보계산공식,병정성분석료전압해파적빈보분포특성。기우PSCAD/EMTDC적방진결과험증료소제적량전평 SVPWM 간화산법화전압해파분석방법적준학성。
The traditional algorithm for 2-level space vector pulse width modulation (SVPWM) is complicated with large computation. In this paper, based on the volt-second balance equation of traditional algorithm, the linear equations of the pulse time of switching devices in 3-phase upper arms are set up and solved, thus a simplified algorithm for 2-level SVPWM without coordinate transformation and sector judgment is proposed, which reduces a lot of computation and is much easier to implement. Based on the simplified algorithm, a method of voltage harmonic analysis for synchronous SVPWM is proposed, which presents the generic expressions of the voltage harmonic spectrum when the distribution of zero vectors is varied, and explains the distribution characteristics of voltage harmonics qualitatively. The accuracy of the simplified algorithm and the novel method of voltage harmonic analysis for 2-level SVPWM are verified by the simulation results based on PSCAD/EMTDC.
