UittrekselThermal management is a key design aspect of power converters since it determines reliability, durability as well as the performance and power density. A critical challenge in power electronics design is removing the heat caused by losses from the power devices. Several studies have been conducted to determine the importance of cooling technologies in the ﬁeld of power electronics.
In this thesis, an overview and classiﬁcation of the main thermal management and thermal modelling techniques are presented. This thesis concentrates on an indirect liquid cooling system for a non-isolated interleaved bidirectional converter with two diﬀerent semiconductor devices: SiC MOSFET and Si IGBT.
The thesis develops two models: an electro-thermal network and a numerical model in ANSYS AIM. Two hardware prototypes of the converter, including the cooling system, have been constructed for experimental testing. The validation between the simulation and experimental results indicates that the electro-thermal model has the fastest calculation time and gives accurate results. Meanwhile, the simulation on the numerical model highly relies on the inputs’ accuracy, which leads to many diﬀerent simulation results.