摘要:本文阐明了此次课题的研究背景和意义,并对国内外电动汽车的发展进行了分析和 对比,来证明电动汽车的优越性和研究发展电动汽车的必要性,预测了未来电动汽车的发 展趋势。同时分析了电动汽车运行的特性,对驱动电机进行选型。论述了永磁同步电机的 数学模型和控制策略的选择,详细介绍了永磁同步电机的结构和特性并进行参数设计。重 点是对空间电压矢量调制 SVPWM 技术和坐标变换进行了说明,在 Matlab/Simulink 环境 中搭建永磁同步电机矢量控制体系仿真模型。建模后详细介绍仿真模型中没一个模块的 具体功能和作用,调整 PI 参数让体系趋于稳定后,增加扰动例如突加负载、上升负载模 拟爬坡等到体系中,以此来模拟电动汽车在不同工况下的运行状况。66242
毕业论文关键词: 电动汽车;永磁同步电机;坐标变换;矢量控制;控制仿真
The simulation of permanent magnet synchronous motor control system for electric vehicle
Abstract: This paper illustrates the research background and significance of the subject. It analyzes the development of electric vehicles in China and some foreign countries and proves the superiority of the electric cars and the necessity of developing electric vehicles. Also it forecasts the development trend of the electric vehicles in the future. It analyzes the characteristics of the electric cars and analyzes the special characteristics of the electric motors. This paper discusses the mathematical model and control strategy of permanent magnet synchronous motor and introduces the structure and characteristics of the permanent magnet synchronous motor. The key is to make a description of the spatial voltage vector modulation SVPWM technology and
coordinate transformation, and the simulation model of the permanent magnet synchronous
motor vector control system is set up in the Matlab/Simulink environment. It introduces the function of every simulation model and it adds some disturbances to the system after finishing adjusting the PI parameter to make the system stable in order to simulate electric vehicles in running status under different working conditions.
Keywords: Electric Vehicle; Permanent Magnet Synchronous Motor; Coordinate Transformation; Vector Control; Matlab/Simulation
目录
绪论 1
研究背景和意义 1
电动汽车国内外的发展现状 2
电动汽车的优越性 6
电动汽车的发展趋势 7
本文的工作内容 7
电动汽车运行特性 8
电动汽车的结构 8
电动汽车电机的特殊要求 9
电动汽车电机运行特性分析 10
永磁同步电机的模型与控制 12
电动汽车对电机的选择要求 12
永磁同步电机的结构和特性 12
永磁同步电机的特性和应用优势 12
正弦波永磁同步电机的结构 13
永磁同步电机参数设计 15
永磁同步电机控制策略的选择