六封装SiC MOSFET和Si IGBT模块在高温半桥结构中并联的实验性能比较

2015 IEEE 3rd Workshop on Wide Bandgap Power Devices and Applications (WiPDA) Pub Date : 2015-11-01 DOI:10.1109/WIPDA.2015.7369260

R. Lund, S. Tiwari, O. Midtgård, Tore Undeland

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引用次数: 11

摘要

采用标准的双脉冲测试方法对六封装SiC MOSFET模块(CCS050M12CM2)的开关性能进行了实验研究。CCS050M12CM2的上三个和下三个mosfet并联形成半桥结构。此外，CCS050M12CM2与相同额定值的引脚对引脚兼容Si IGBT模块(FS75R12KT4_B15)进行了性能比较。因此，开关和驱动能量损失可以公平地进行比较。实验结果表明，在使用相同的栅极电阻的情况下，CCS050M12CM2的开关速度比FS75R12KT4_B15快得多。在25°C时，FS75R12KT4_B15的总驱动和开关能量损耗约为CCS050M12CM2的4倍。此外，CCS050M12CM2的总开关能量损失几乎与温度无关，而FS75R12KT4_B15在结温为175℃时的开关能量损失是25℃时的1.6倍。

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Experimental performance comparison of six-pack SiC MOSFET and Si IGBT modules paralleled in a half-bridge configuration for high temperature applications

The switching performance of a six-pack SiC MOSFET module (CCS050M12CM2) is investigated experimentally using a standard double pulse test method. The upper three and the lower three MOSFETs of the CCS050M12CM2 are paralleled forming a half-bridge configuration. Moreover, the performance comparison of the CCS050M12CM2 is carried out with a pin to pin compatible Si IGBT module (FS75R12KT4_B15) of the same rating. Thus, switching and driving energy losses can be compared fairly. Laboratory results show that CCS050M12CM2 switches much faster compared to FS75R12KT4_B15 provided the same gate resistor is used. The measured total driving and switching energy losses are approximately 4 times in FS75R12KT4_B15 compared to CCS050M12CM2 at 25 °C. Moreover, the total switching energy loss is nearly independent of the temperature for CCS050M12CM2, whereas, FS75R12KT4_B15 has 1.6 times higher switching energy loss at a junction temperature of 175° C compared to 25 °C.

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2015 IEEE 3rd Workshop on Wide Bandgap Power Devices and Applications (WiPDA)

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