摘要:如今,交流调速已经成为电气传动系统实现自动化和节能重要手段。作为交流调速系统的核心,交流变换技术已经成为目前各相关领域最炙手可热的研究方向之一。
矩阵变换器能任意调节输出频率,并且控制输入电流和输出电压的相位,使得输入功率因素能任意调节,是一个十分先进的电能变换器。但其缺点也相当明显,最高电压传输比仅为0.866,以及换流比较复杂。34448
本文进行了原理的研究,对控制单元进行设计,对于传统的矩阵拓扑结构一举突破,新型研究出炉了一种泵式矩阵的结构,使得电压传输比任意可调,并从机理上解决了其传输比过低的问题,并且在模拟工程环境中取得了理想的效果。最后利用PSIM软件对仿真波形进行分析,验证实验的有效性和正确性。
毕业论文关键词: 矩阵式电力变换器,电压传输比,PSIM软件
A Three-phase Matrix Converter with High Voltage Transfer Ratio based on Pump-type Circuit
Abstract:
Nowadays, AC speed regulation has become an important means to realize the automation of electric drive system and energy saving. As the core of the AC adjustable speed system of AC converter technology has become one of the research direction in the field of the hottest.
Matrix converter can adjust the output frequency, phase and control the input current and output voltage, the input power factor can be adjusted, is one of the most advanced power converters. But its disadvantages are also obvious, the maximum voltage transfer ratio is only 0.866, and the converter is more complex.
This paper completes the theory research and the design of the control unit, broke through the traditional topology of matrix converter, the study and design of a pump type matrix converter, the voltage transfer ratio is adjustable, and the mechanism to solve the problem of low transmission ratio, and has obtained the ideal effect and simulation engineering environment. Finally the simulation waveform is analyzed by using the PSIM software, the correctness and effectiveness of the verification experiment.
Keywords: Matrix converter, the voltage transfer ratio of the bidirectional switch, PSIM software
目录
摘要 i
Abstract i
目录 ii
1 绪论 2
1.1 传统交流变化技术存在的问题 2
1.2 矩阵式电力变换器 3
2 泵式矩阵拓扑结构基本原理 7
2.1 升压斩波电路 8
2.2 升降压斩波电路和CUK斩波电路 9
2.3 拓扑结构的引入 10
3 泵式矩阵变换器的控制策略 12
3.1 数学模型 12
3.2 调制策略及原理 13
3.21 坐标变换法 13
3.22 谐波注入法 14
3.23 双电压控制法 15
3.24空间矢量研究法 15
3.3 坐标变换法的研究 13
4 仿真 16
4.1 仿真软件 17
4.2 建立波形 18
4.3 仿真波形分析 20
4.4 整体仿真及其分析 22
5 总结 26
参考文献 28 PSIM三相泵式矩阵变换器控制算法研究:http://www.youerw.com/zidonghua/lunwen_31946.html