汽车工业
转换器
背景(考古学)
功率半导体器件
电源模块
功率(物理)
电压
可靠性(半导体)
有限元法
半导体器件
电子工程
计算机科学
工程类
电气工程
机械工程
材料科学
物理
生物
航空航天工程
古生物学
复合材料
结构工程
量子力学
图层(电子)
作者
Giuseppe Mauromicale,Michele Calabretta,G. Scarcella,Giacomo Scelba,Alessandro Sitta
摘要
Abstract Power converters and semiconductor devices are spreading their application fields, due to new renewable energy and automotive frameworks. In the electrified vehicles context, the even more stringent requirements, both in terms of performances and reliability, pose new challenges in the design phase of power switches. This paper analyzes, by means of finite-element simulations, a low-voltage power semiconductor system-in-package devoted to automotive applications, which integrates a MOSFET-based half bridge and a controller. Three simulation physical domains integrated in a unique flow are considered: thermo-mechanical, electromagnetic, and thermal numerical models. The aim is to develop a new comprehensive methodology which starts with a thermo-structural simulation of the package, then computes the on-state resistance and parasitic components to assess the electrical behavior of the package. Finally, a simulation check is made to verify if the power device performances are thermally consistent with applicative conditions.
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