改进非隔离高增益DC-DC变换器的控制

IF 0.7 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS Jordan Journal of Electrical Engineering Pub Date : 2021-01-01 DOI:10.5455/JJEE.204-1603694132
Sivaraj Desingu, Arounassalame Mouttou
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引用次数: 1

摘要

本文提出了一种改进的基于二次升压拓扑的非隔离高增益DC-DC变换器。所提出的变换器包含乘法器单元,以提高变换器的输出电压水平。开关电容增益单元充当倍增器并提供必要的增益改进。根据开关通断状态时电容器的物理意义,推导了高增益变换器的数学模型。采用遗传算法优化方法获得控制器参数。所提出的拓扑结构在不使用极端占空比的情况下提供高增益。为了调节输出电压,还提出了一种闭环PID控制方案用于高增益变换器。在MATLAB/Simulink环境下对所提出的电路,即带PID控制器的高增益DC-DC闭环变换器进行了测试。结果表明,该电路在输入和负载发生变化时也能提供稳定的高压输出。
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Control of Improved Non-Isolated High Gain DC-DC Converter
— This paper proposes an improved non-isolated high gain DC-DC converter based on quadratic boost topology. The proposed converter contains multiplier cells to boost the output voltage level of the converter. The switched capacitor gain cell acts as multiplier and provides necessary gain improvement. A mathematical model of the high gain converter is derived based on the physical significance of the capacitors during on and off states of the switches. The controller parameters are obtained using the genetic algorithm optimization method. The proposed topology provides high gain without using extreme duty ratios. To regulate the output voltage, a closed loop PID control scheme is also proposed for the high gain converter. The proposed circuit, i.e., the high gain DC-DC converter in closed loop with PID controller is tested in MATLAB/Simulink environment. The obtained results show that the proposed circuit provides stable high voltage output even during the presence of input and load variations.
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