Saleh S. Alharbi, Salah S. Alharbi, A. M. S. Al-bayati, M. Matin
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引用次数: 17
摘要
用碳化硅(SiC)等宽带隙材料制成的功率半导体器件正在提高变换器的能量转换效率、功率密度和开关性能。本文介绍了在相同的非隔离dc-dc升压转换器中实现的Si IGBT, SiC JFET和SiC MOSFET功率器件的比较性能评估。开关特性和能量损耗被用来比较三种不同器件的性能。通过测量在不同开关频率、负载电流和输出功率水平下的总功率损耗和效率来评估变换器的整体性能。结果表明,SiC MOSFET和SiC JFET具有较低的导通电阻和较低的开关能量损失,在变换器中表现优于Si IGBT。变换器中的SiC功率器件由于在更高频率下具有更好的开关性能而降低了总功率损耗。SiC变换器在增加负载电流和输出功率水平时效率更高。
A comparative performance evaluation of Si IGBT, SiC JFET, and SiC MOSFET power devices for a non-isolated DC-DC boost converter
Power semiconductor devices made with wide-bandgap (WBG) materials such as Silicon Carbide (SiC) are improving the energy conversion efficiency, power density, and switching performance of converters. This paper presents a comparative performance evaluation of Si IGBT, SiC JFET, and SiC MOSFET power devices implemented in an otherwise identical, non-isolated dc-dc boost converter. Switching characteristics and energy loss are used to compare the performance of the three different devices. Overall converter performance is evaluated by measuring the total power loss and efficiency at different switching frequencies, load currents, and output power levels. The results show that the SiC MOSFET and SiC JFET perform better in the converter than the Si IGBT because of their lower on-state resistance and switching energy loss. The SiC power devices in the converter reduce total power loss due to their better switching performance at higher frequencies. The SiC converters are more efficient at increasing load currents and output power levels.
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