1.2 kV SiC mosfet雪崩性能的表征与预测

C. Dimarino, B. Hull
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引用次数: 25

摘要

本文报道了商用1.2 kV SiC mosfet的雪崩性能。为了充分评估SiC mosfet的坚固性,测试了各种非重复雪崩条件,如雪崩中的电流、能量和时间。从这个测试中,绘制了一个边界来确定每个设备的典型雪崩坚固性。结果表明,与类似额定的Si CoolMOS器件不同,SiC mosfet可以承受超过其额定电流两倍的雪崩电流。还确定雪崩边界可扩展到Cree的整个1.2 kV SiC mosfet系列的器件有效面积。这是Cree SiC mosfet的一个值得注意的特性,因为它表明不同器件之间的行为一致。
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Characterization and prediction of the avalanche performance of 1.2 kV SiC MOSFETs
This paper reports the avalanche capabilities of commercial 1.2 kV SiC MOSFETs. Various non-repetitive avalanche conditions, such as current, energy, and time in avalanche, were tested in order to fully evaluate the ruggedness of the SiC MOSFETs. From this testing, a boundary was drawn to identify the typical avalanche ruggedness of each device. It was shown that, unlike similarly-rated Si CoolMOS devices, the SiC MOSFETs could withstand avalanche currents that are more than twice that of their rated current. It was also determined that the avalanche boundary is scalable to the entire family of Cree's 1.2 kV SiC MOSFETs by the device active area. This is a noteworthy characteristic of the Cree SiC MOSFETs, as it indicates consistent behavior among the different devices.
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