Reduction of Parasitic Inductance and Thermal Management in a Multichip SiC Half-Bridge Module
Konferenz: PCIM Europe digital days 2021 - International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management
03.05.2021 - 07.05.2021 in Online
Tagungsband: PCIM Europe digital days 2021
Seiten: 7Sprache: EnglischTyp: PDF
Autoren:
Ubostad, Tobias Nieckula; Giannakis, Andreas; Rodal, Gard Lyng; Phillips, Daniel Alexander; Peftitsis, Dimosthenis (Norwegian University of Science and Technology, Norway)
Inhalt:
The advantages of using silicon carbide (SiC) devices can only be utilized if they are properly packaged. Existing packaging technology is based on silicon (Si) packaging technology. However, SiC semiconductor devices are much more sensitive to the stray inductance present in the module layout due to their considerably faster dynamics. This can lead to high overvoltages and oscillations during high dI/dt switching. In this paper, modifications to the inner structure of an existing SiC multichip module are proposed, while keeping the outer dimensions fixed. A detailed circuit model of the module is created by using parasitics extracted from ANSYS Q3D Extractor. This model is simulated in LTspice and compared with experimental switching waveforms of the commercial module to confirm the improved characteristics. Furthermore, increased thickness of the baseplate is investigated in terms of thermal and switching performance.