基于单神经元PID的高增益DC-DC变换器
HIGH GAIN DC-DC CONVERTER BASED ON SINGLE NEURON PID
周晓燕 1贾海涛 1卢庆轩 1王鹤霖 1袁成功 1张民1
作者信息
- 1. 青岛理工大学信息与控制工程学院,青岛 266520
- 折叠
摘要
为使光伏系统和燃料电池的输出电压适应于并网发电系统所需的电压等级,提出一种基于单神经元PID的高增益DC-DC变换器.基于耦合电感的升压单元,使变换器在原有的开关占空比D上,增加一个新的自由度来调节输出电压.钳位单元的引入,削弱了耦合电感漏感与半导体器件的电压尖峰,提升了变换器的效率.通过单神经元PID,增强变换器抗扰动能力.该文先分析所提变换器的工作模态,推出其性能特点,并与经典变换器做出比较.通过仿真模拟电路运行和搭建实验模型研究,验证理论分析的正确性和实验过程的准确性.
Abstract
To adapt the output voltages of PV systems and fuel cells to the voltage levels required by grid-connected power generation systems.In this paper,a high-gain DC-DC converter based on single-neuron PID is proposed.The boost unit based on coupled inductance enables the converter to add a new degree of freedom to the original switching duty ratio D,to adjust the output voltage.The introduction of clamped units reduces leakage from coupled inductors and voltage spikes in semiconductor devices,and increases the efficiency of the converter.The jamming capability of the converter is enhanced by a single-neuron PID.In this paper,we analyze the mode of operation of the proposed converter,introduce its performance characteristics,and compare it with classical converters.The validity of theoretical analysis and the precision of experimental procedures are confirmed through circuit operation simulations and experimental modeling.
关键词
DC-DC变换器/耦合电感/电压增益/钳位单元/单神经元PIDKey words
DC-DC converters/coupling circuits/voltage gain/clamping unit/single neuron PID引用本文复制引用
基金项目
国家自然科学基金(51477079)
山东省自然科学基金面上项目(ZR2022ME214)
山东省研究生教育优质课程建设项目(SDYKC20113)
山东省优质专业学位教学案例库建设项目(SDYAL2022097)
出版年
2024
NETL
NSTL
万方数据