This paper focuses on the thermal investigation of SiC-based power modules with the purpose to support their design in terms of cooling techniques and material choices. The analyses are aimed to compare the widespread single-sided cooling technology with an innovative double-sided cooling variant. The comparison is carried out by simulating extremely detailed 3-D FEM structures realized through an in-house routine developed to automatically perform extensive simulation sessions. First, the effects of convective boundary conditions on the thermal resistance and the heat spreading mechanism are thoroughly examined in both technologies; then, the role of ceramic layers composing the power module substrate is evaluated and quantified in terms of thermal performances.
Optimum thermal design of high-voltage double-sided cooled multi-chip SiC power modules / Catalano, ANTONIO PIO; Scognamillo, Ciro; Castellazzi, Alberto; D'Alessandro, Vincenzo. - (2019). (Intervento presentato al convegno IEEE 25th international workshop on THERMal INvestigations of ICs and systems (THERMINIC) tenutosi a Lecco, Italy nel Sep. 2019) [10.1109/THERMINIC.2019.8923763].
Optimum thermal design of high-voltage double-sided cooled multi-chip SiC power modules
Antonio Pio Catalano;Ciro Scognamillo;Alberto Castellazzi;Vincenzo d'Alessandro
2019
Abstract
This paper focuses on the thermal investigation of SiC-based power modules with the purpose to support their design in terms of cooling techniques and material choices. The analyses are aimed to compare the widespread single-sided cooling technology with an innovative double-sided cooling variant. The comparison is carried out by simulating extremely detailed 3-D FEM structures realized through an in-house routine developed to automatically perform extensive simulation sessions. First, the effects of convective boundary conditions on the thermal resistance and the heat spreading mechanism are thoroughly examined in both technologies; then, the role of ceramic layers composing the power module substrate is evaluated and quantified in terms of thermal performances.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
