Silicon carbide(SiC) MOSFETs are widely used in high-voltage, high-frequency and high-power-density applications for new energy electric vehicles owing to their superior material properties. During the process of double-sided cooling, the effect of chip layout spacing on heat dissipation and chip temperature uniformity was usually ignored, and the effect of chip temperature uniformity on the parallel current uniformity of multiple chips was not taken into account. A double-sided cooling package structure was designed, the effect on chip temperature uniformity due to chip layout spacing was analyzed, and the influences of different junction temperatures and different chip layouts on parasitic parameters and switching characteristics were also discussed. Aimed at different chip layout spacings and different cooling conditions, the effectiveness of the proposed method was verified through a large number of simulations and the response face analysis and comparison, providing technical method guidance and quantitative analysis for the influences of SiC power module packaging on chip temperature uniformity and switching characteristics.
关键词
SiC双面水冷模块/芯片布局/温度均匀性/开关特性
Key words
SiC double-sided cooling module/chip layout/temperature uniformity/switching characteristics
维普
万方数据