带饱和电感的移相全桥软开关变换器的研究
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摘要
由于全桥软开关变换器为强非线性时变系统,工作特性复杂,传统的PID控制器不具有在线自整定功能,控制效果较差。为了解决传统PID控制系统的动态响应速度慢、突加负载时电压跌落大的问题,提出了采用PID参数模糊自整定控制变换器。通过分析带饱和电感的移相全桥变换器工作过程,给出了几个重要参数的设计原则,利用Matlab/Simulink控制器超调量小,调节时间短,加快系统的动态响应速度,有效地减小了负载突变时输出电压的波动。
Because of strongly nonlinear time-varying system of the full-bridge soft switching converter with complex working characteristics,traditional PID controllers do not have online self-tuning function and their poor control effect.In order to solve the traditional PID control system's dynamic response speed slow,the problem of large load voltage drop,using the adaptive fuzzy PID controller. The working process and several important parameters are discussed deeply based on the analysis of the converter working principle. The simulation results based on Matlab/Simulation prove that the dynamic response of the system can be improved with this improved control strategy. Besides,the voltage fluctuation is decreased effectively when load change.
Because of strongly nonlinear time-varying system of the full-bridge soft switching converter with complex working characteristics,traditional PID controllers do not have online self-tuning function and their poor control effect.In order to solve the traditional PID control system's dynamic response speed slow,the problem of large load voltage drop,using the adaptive fuzzy PID controller. The working process and several important parameters are discussed deeply based on the analysis of the converter working principle. The simulation results based on Matlab/Simulation prove that the dynamic response of the system can be improved with this improved control strategy. Besides,the voltage fluctuation is decreased effectively when load change.
引文
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[2]封俊宝,王金梅,贾周.带饱和电感的移相全桥零电压PWM变换器研究[J].电源世界,2010(1):21-24.
[3]林渭勋.现代电力电子技术[M].北京:机械工业出版社,2005:392-395.
[4]史文庆. DC-DC开关电源电荷控制模式应用研究[D].北京:中国科学院研究生院硕士学位论文,2006:27-32.
[5]徐晓峰,赵建明.移相控制ZVS全桥变换器滞后臂死区时间分析[J].电力电子技术,1999(1):15-17.
[6]阮新波,严仰光.脉宽调制DC/DC全桥变换器的软开关技术[M].北京:科学出版社,1999年.
[7]陈国超.移相全桥ZVZCS变换器控制策略的研究[D].成都:西南交通大学,2011:30-36.
[8]殷云华等.基于Matlab的模糊控制器设计及仿真[J].控制工程,2007(5):81-87.