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Abstract
New technological and packaging solutions are more and more being employed for power semiconductor switches in an automotive environment, especially the SiC- and GaN-based ones. In this framework, new front-end and back-end solutions have been developed, and many more are in the design stage. New and more integrated power devices are useful to guarantee the performances in electric vehicles, in terms of thermal management, size reduction, and low power losses. In this paper, a GaN-based system in package solution is simulated to assess the structure temperature submitted to a Joule heating power loss. The monolithic package solution involves a half-bridge topology, as well as a driver logic. A novel integrated electromagnetic and thermal method, based on finite element simulations, is proposed in this work. More specifically, dynamic electric power losses of the copper interconnections are computed in the first simulation stage, by an electromagnetic model. In the second stage, the obtained losses’ geometrical map is imported in the finite element thermal simulation, and it is considered as the input. Hence, the temperature distribution of the package’s copper traces is computed. The simulation model verifies the proper design of copper traces. The obtained temperature swing avoids any thermal-related reliability bottleneck.
Highlights
The last map represents the losses due to the Joule heating phenomenon in copper traces. It is the link between electromagnetic and thermal simulation due to the fact that such a geometrical map represents the output of electromagnetic finite element model (FEM) and the input of thermal FEM employed with COMSOL Multiphysics
The temperature swing is of paramount importance in this regard, and it must be kept at low values
The so-obtained Rth,j-a is ~41 ◦ C/W, quite aligned with the case in which a 1 W power dissipation occurs in the device
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Power Electronics plays a key role in emerging technologies that require any possible electrical power conversion, from DC to AC or vice versa, or to change the voltage level in electronics equipment. In the automotive field, hybrid and full-electric vehicles power electronics are massively employed. Converters and power devices must withstand more stringent requirements, in terms of performance and reliability, especially in harsh environments [1,2]
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