This paper details a modeling and experimental assessment of the packaging process for a silicon carbide Schottky diode using pressure contacts. The work detailed in this paper is original, as it applies a combined electrothermomechanical modeling analysis to this packaging method supported by experimental validation. A key design objective for this packaging process is to identify suitable contact pad materials, heatsinks, and process variables such as clamping force to meet electrical, thermal, and reliability specifications. Molybdenum and aluminum graphite (ALG) have been identified as two suitable materials for the contact pads. Clamping forces ranging from 300 to 500 N and electric current ranging from 10 to 30 A have been investigated in terms of the resulting electrical and thermal contact resistances, temperatures, and stresses induced across the package. The performance of two heatsink designs with heat dissipation rates of 12893 and 4991 W/m2k has also been investigated. Both the modeling and initial experimental results detailed in this paper show that ALG provides better performance in terms of generating a lower average chip temperature. Both temperature and stress in the diode are predicted as a function of clamping force and load current. This will aid the packaging engineer to identify suitable process parameters to meet junction temperature requirements at different applied load currents.
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机译:本文详细介绍了使用压力触点的碳化硅肖特基二极管封装过程的建模和实验评估。本文详细介绍的工作是原创的,因为它将组合的电热机械模型分析应用于该包装方法并得到了实验验证。此包装过程的主要设计目标是确定合适的接触垫材料,散热器和过程变量(例如夹紧力)以满足电气,热和可靠性规范。钼和铝石墨(ALG)已被确定为接触垫的两种合适材料。根据所产生的电气和热接触电阻,温度以及整个封装所产生的应力,已经研究了300至500 N的夹紧力和10至30 A的电流。还研究了散热速率为12893和4991 W / m2k的两种散热器设计的性能。本文详细介绍的建模和初始实验结果均显示,ALG在产生较低的平均芯片温度方面提供了更好的性能。二极管中的温度和应力都将根据钳位力和负载电流进行预测。这将有助于包装工程师确定合适的工艺参数,以满足不同施加负载电流下的结温要求。
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