This paper presents the modeling of the electrothermal and electromagnetic behavior in SiC-based multi-chip power modules. The proposed approach is based on a macromodeling technique and is applied to a realistic case-study. Preliminarily, the assembly under analysis was experimentally characterized to estimate its parasitics due to electromagnetic interactions. Extremely fast and efficient electrothermal simulations were then performed in a SPICE-like environment. Parasitics and nonlinear thermal effects were accounted for in simulations at high switching frequencies. Results demonstrate that such an approach can be successfully adopted in the design flow of power modules in any device technology.
Electrothermal Modeling, Simulation, and Electromagnetic Characterization of a 3.3 kV SiC MOSFET Power Module
Codecasa L.
2021-01-01
Abstract
This paper presents the modeling of the electrothermal and electromagnetic behavior in SiC-based multi-chip power modules. The proposed approach is based on a macromodeling technique and is applied to a realistic case-study. Preliminarily, the assembly under analysis was experimentally characterized to estimate its parasitics due to electromagnetic interactions. Extremely fast and efficient electrothermal simulations were then performed in a SPICE-like environment. Parasitics and nonlinear thermal effects were accounted for in simulations at high switching frequencies. Results demonstrate that such an approach can be successfully adopted in the design flow of power modules in any device technology.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
