基于碳化硅的DC-DC变换器电路及工作分析

Ł. Niewiara, T. Tarczewski, L. Grzesiak
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引用次数: 0

摘要

本文对DC-DC变换器进行了工作分析。研究了基于碳化硅的DC-DC变换器。使用SiC功率开关(即mosfet和二极管)。变频器结构采用同步降压拓扑。给出了直流-直流变换器的数学模型。利用所示方程计算了LC电路的参数。工作条件决定了LC电路的输出值(电感和电容)。在输出和输入电容中配备了实功率半导体。此特性可能会影响生成的输入信号。路径的寄生电容和电感引起输入PWM信号的振荡和电压超调。为了避免这种现象,有必要使用缓冲电路。本文也提出了这个问题。对不同开关频率下的工作状态进行了分析。对不同工作点的无源元件(LC)尺寸进行了比较。给出了实验测试结果。给出了电压和电流信号的波形。
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Analysis of circuit and operation for DC–DC converter based on silicon carbide
In this paper operating analysis of DC–DC converter is presented. Silicon Carbide based DC–DC converter is investigated. SiC power switches (i.e. MOSFETs and diodes) were used. Synchronous buck topology is applied for converter structure. The DC–DC converter mathematical model is also presented. The parameters of LC circuit were calculated using shown equations. Working conditions determine the values of output LC circuit (inductance and capacitance). Real power semiconductors are equipped in output and input capacitances. This feature may influence the generated input signal. Parasitic capacitances and inductances of the paths causes oscillations and voltage overshoots of the input PWM signal. To avoid such phenomenon, it is necessary to use a snubber circuit. This issue is also presented. The analysis of working conditions is presented for different switching frequencies. The size of passive components (LC) is compared for different operating points. Experimental tests results were presented. Waveforms of voltage and current signals were also shown.
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