The analysis of IGBT module based on thermal simulation technology

The failure analysis of IGBT modules based on thermal simulation technology is implemented. The thermal distributions of good and defective modules are revealed by using the Finite Element Method-based analytical software ANSYS. The results show that the highest temperature of a good module during operating is 154.3 degrees C. Meanwhile, that of the defective module is 162.7 degrees C, owing to the missing solder layer, which may cause the overheating failure of chips. Moreover, in order to improve the reliability of the solder layer, a novel preform based on Cu@Sn@Ag core-shell particles was adopted to interconnect the IGBT module. Compared with conventional solder, the preform has less porosity and higher flatness. In addition, the thermal simulation results show that compared with the conventional solder, the novel preform can reduce the working temperature by 1 degrees C.