A Double-Side Cooled SiC MOSFET Power Module With Sintered-Silver Interposers: I-Design, Simulation, Fabrication, and Performance Characterization

Planar, double-side cooled power modules are emerging in electric-drive inverters because of their low profile, better heat extraction, and lower package parasitic inductances. However, there is still a concern about their reliability due to the rigid interconnection between the device chips and two...

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Published in	IEEE transactions on power electronics Vol. 36; no. 10; pp. 11672 - 11680
Main Authors	Ding, Chao, Liu, Heziqi, Ngo, Khai D. T., Burgos, Rolando, Lu, Guo-Quan
Format	Journal Article
Language	English
Published	New York IEEE 01.10.2021 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Bonding Cooling Double-side cooled power module ENGINEERING Formability Heat treatment Low temperature Modules MOSFETs reduction of thermo-mechanical stress reduction of thermomechanical stress Silicon carbide Silver sintered-Ag die-attach sintered-Ag interposer Sintering (powder metallurgy) Stress Substrates Surface finishing Thermomechanical processes
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Abstract	Planar, double-side cooled power modules are emerging in electric-drive inverters because of their low profile, better heat extraction, and lower package parasitic inductances. However, there is still a concern about their reliability due to the rigid interconnection between the device chips and two substrates of the power module. In this article, a porous interposer made of low-temperature sintered silver is introduced to reduce the thermomechanical stresses in the module. A double-side cooled half-bridge module consisting of two 1200 V, 149 A SiC MOSFETs was designed, fabricated, and characterized. By using the sintered-Ag instead of solid copper interposers, our simulation results showed that, at a total power loss of 200 W, the thermomechanical stress at the most vulnerable interfaces (interposer-attach layer) was reduced by 42% and in the SiC MOSFET by 50% with a tradeoff of only 3.6% increase in junction temperature. The sintered-Ag interposers were readily fabricated into the desired dimensions without postmachining and did not require any surface finishing for die bonding and substrate interconnection by silver sintering. The porous interposers were also deformable under a low force or pressure, which helped to accommodate chip thickness and/or substrate-to-substrate gap variations in the planar module structure, thus simplifying module fabrication. The experimental results on the electrical performance of the fabricated SiC modules validated the success of using the porous silver interposers for fabricating planar, double-side cooled power modules.
AbstractList	Planar, double-side cooled power modules are emerging in electric-drive inverters because of their low profile, better heat extraction, and lower package parasitic inductances. However, there is still a concern about their reliability due to the rigid interconnection between the device chips and two substrates of the power module. In this article, a porous interposer made of low-temperature sintered silver is introduced to reduce the thermomechanical stresses in the module. A double-side cooled half-bridge module consisting of two 1200 V, 149 A SiC MOSFETs was designed, fabricated, and characterized. By using the sintered-Ag instead of solid copper interposers, our simulation results showed that, at a total power loss of 200 W, the thermomechanical stress at the most vulnerable interfaces (interposer-attach layer) was reduced by 42% and in the SiC MOSFET by 50% with a tradeoff of only 3.6% increase in junction temperature. The sintered-Ag interposers were readily fabricated into the desired dimensions without postmachining and did not require any surface finishing for die bonding and substrate interconnection by silver sintering. The porous interposers were also deformable under a low force or pressure, which helped to accommodate chip thickness and/or substrate-to-substrate gap variations in the planar module structure, thus simplifying module fabrication. The experimental results on the electrical performance of the fabricated SiC modules validated the success of using the porous silver interposers for fabricating planar, double-side cooled power modules. Planar, double-side cooled power modules are emerging in electric-drive inverters because of their low profile, better heat extraction, and lower package parasitic inductances. However, there is still concern about their reliability due to the rigid interconnection between the device chips and two substrates of the power module. In this paper, a porous interposer made of low-temperature sintered silver is introduced to reduce the thermo-mechanical stresses in the module. A double-side cooled half-bridge module consisting of two 1200 V, 149 A SiC MOSFETs was designed, fabricated, and characterized. By using the sintered-Ag instead of solid copper interposers, our simulation results showed that at a total power loss of 200 W, the thermo-mechanical stress at the most vulnerable interfaces (interposer-attach layer) was reduced by 42 % and in the SiC MOSFET by 50 % with a trade-off of only 3.6 % increase in junction temperature. The sintered-Ag interposers were readily fabricated into desired dimensions without post-machining and did not require any surface finishing for die-bonding and substrate interconnection by silver sintering. Here, the porous interposers were also deformable under a low force or pressure, which helped to accommodate chip thickness and/or substrate-to-substrate gap variations in the planar module structure, thus simplifying module fabrication. Experimental results on the electrical performance of the fabricated SiC modules validated the success of using the porous silver interposers for fabricating planar, double-side cooled power modules.
Author	Ngo, Khai D. T. Ding, Chao Liu, Heziqi Lu, Guo-Quan Burgos, Rolando
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SubjectTerms	Bonding Cooling Double-side cooled power module ENGINEERING Formability Heat treatment Low temperature Modules MOSFETs reduction of thermo-mechanical stress reduction of thermomechanical stress Silicon carbide Silver sintered-Ag die-attach sintered-Ag interposer Sintering (powder metallurgy) Stress Substrates Surface finishing Thermomechanical processes
Title	A Double-Side Cooled SiC MOSFET Power Module With Sintered-Silver Interposers: I-Design, Simulation, Fabrication, and Performance Characterization
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