一种新的单相-三相矩阵变换器调制策略

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摘要针对直接型单相-三相矩阵变换器,提出一种基于正弦脉宽调制（Sine Pulse Width Modulation,SPWM）的调制方法。假定单相输入电压为余弦函数,通过构造含有输出电流频率和一族输入频率奇数倍频率的余弦函数,进行简单的加减运算作为调制波,可以获得对称的三相输出电压,并且输出电压的谐波次数、频率和幅值可控。对于感性负载,输出电流近似为正弦波形,获得了单相-三相矩阵变换器的输入电流计算公式。建立Matlab/Simulink的仿真模型,构造相应的调制函数,进行了阻感负载的仿真实验。使用DSP芯片和双向开关搭建了单相-三相矩阵变换器的实验平台,实验结果表明提出的调制策略扩大了矩阵变换器输出频率的调节范围,减小了输出电流的总谐波失真度（Total Harmonic Distortion,THD）,并能保持输入功率因数为1,具有良好的性能。

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	邢毅川
	牟宪民
	齐琛

关键词 ：单相-三相矩阵变换器, SPWM, 变频范围, THD, 功率因数

Abstract：For direct single-phase to three-phase matrix converter, a new SPWM strategy is proposed. Single-phase to three-phase matrix converter can output three-phase balanced voltage with tunable amplitude and frequency, while assuming single-phase input power source is a cosine function and employs a special modulate function signal defined as a cosine series, which frequency is the summation of output frequency and odd multiple of input frequency. Assuming that the delivered current to the load is a sinusoidal balanced one, the input current equation can be obtained. Simulation experience with ohmic-inductive load is done by using the proposed control method via Matlab/ Simulink software. And the experimental results on a laboratory proto-type converter verify that, the converter can provide balanced sinusoidal currents with a wide frequency tuning range through the proposed modulation strategy. Besides, the output currents have low THD and the input power factor always remains unity. Clearly, the converter has an improved performance.

Key words： Single-phase to three-phase matrix converter SPWM frequency tuning range THD input power factor

收稿日期: 2013-04-30 出版日期: 2015-05-25

PACS:

TM461

作者简介: 邢毅川男,1988年生,硕士研究生,研究方向为电力电子技术、单相-三相变换技术。牟宪民男,1973年生,博士,讲师,研究方向为电网无功补偿、电力电子技术。

引用本文:

邢毅川, 牟宪民, 齐琛. 一种新的单相-三相矩阵变换器调制策略[J]. 电工技术学报, 2015, 30(8): 90-96. Xing Yichuan, Mu Xianmin, Qi Chen. A New Modulation Strategy for Single-Phase to Three-Phase Matrix Converter. Transactions of China Electrotechnical Society, 2015, 30(8): 90-96.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2015/V30/I8/90

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