电测与仪表
電測與儀錶
전측여의표
Electrical Measurement & Instrumentation
2015年
17期
6-11
,共6页
陈杰%王金梅%崔剑%杨国华
陳傑%王金梅%崔劍%楊國華
진걸%왕금매%최검%양국화
矩阵变换器%间接矢量调制%谐波分析%AC-DC-AC变换器%换流策略
矩陣變換器%間接矢量調製%諧波分析%AC-DC-AC變換器%換流策略
구진변환기%간접시량조제%해파분석%AC-DC-AC변환기%환류책략
matrix converter%indirect vector modulation%harmonic analysis%AC-DC-AC converter%commutation strategy
矩阵变换器具有网侧功率因数和输出电压频率灵活可调、输入电流谐波低,能量双向流动,无中间直流环节等优势。文章首先分析了矩阵变换器拓扑结构、给出了矩阵变换器的交-直-交等效电路。详细的介绍了间接矢量调制技术实现过程,给出了实现过程的主要步骤,并且分析了不同步骤下关键参数的计算和选取原则。为了避免传统间接矢量调制存在两次切换以及对电流和电压波形质量造成不利影响等问题,对调制矢量占空比进行了优化配置。最后通过仿真软件对其进行仿真研究,并着重对矩阵变换器谐波进行仿真分析,结果验证了所研究的改进型间接矢量调制技术的有效性和可行性。
矩陣變換器具有網側功率因數和輸齣電壓頻率靈活可調、輸入電流諧波低,能量雙嚮流動,無中間直流環節等優勢。文章首先分析瞭矩陣變換器拓撲結構、給齣瞭矩陣變換器的交-直-交等效電路。詳細的介紹瞭間接矢量調製技術實現過程,給齣瞭實現過程的主要步驟,併且分析瞭不同步驟下關鍵參數的計算和選取原則。為瞭避免傳統間接矢量調製存在兩次切換以及對電流和電壓波形質量造成不利影響等問題,對調製矢量佔空比進行瞭優化配置。最後通過倣真軟件對其進行倣真研究,併著重對矩陣變換器諧波進行倣真分析,結果驗證瞭所研究的改進型間接矢量調製技術的有效性和可行性。
구진변환기구유망측공솔인수화수출전압빈솔령활가조、수입전류해파저,능량쌍향류동,무중간직류배절등우세。문장수선분석료구진변환기탁복결구、급출료구진변환기적교-직-교등효전로。상세적개소료간접시량조제기술실현과정,급출료실현과정적주요보취,병차분석료불동보취하관건삼수적계산화선취원칙。위료피면전통간접시량조제존재량차절환이급대전류화전압파형질량조성불리영향등문제,대조제시량점공비진행료우화배치。최후통과방진연건대기진행방진연구,병착중대구진변환기해파진행방진분석,결과험증료소연구적개진형간접시량조제기술적유효성화가행성。
Matrix converter is featured with adjustable gird side power factor and output voltage frequency, low input current harmonics, two-way flow of energy, without intermediate DC link and other advantages.This paper firstly ana-lyzes the matrix converter topology structure and provides the AC-DC-AC equivalent circuit.It also introduces the process of indirect vector modulation technology implementation and different steps of the calculation on key parame-ters and selection principles in detail.In order to avoid the presence of traditional switching and indirect vector modu-lation shifting twice adversely and the effects of current and voltage waveform quality, this project has optimized the configuration of the modulation vector cycle.Finally, this paper studies the simulation through simulation software and analyzes the matrix converter harmonic simulation, and the result proves the effectiveness and feasibility of improved indirect vector modulation technology.
