The thermal cycling reliability of candidate copper and aluminium power substrates has been assessed for use at temperatures exceeding 300°C peak using a combination of thermal cycling, nanoindentation and finite element modelling to understand the relative stresses and evolution of the mechanical properties. The results include the relative cycling lifetimes up to 350°C, demonstrating almost an order of magnitude higher lifetime for active metal brazed Al / AlN substrates over Cu / Si3N4, but four times more severe roughening and cracking of the Ni-P plating's on the Al / AlN (DBA) substrates. The nonlinear finite element modelling illustrated that the yield strength of the metal and the thickness of the ceramic are the main stress control...
International audiencePower electronics modules (>100 A, >500 V) are essential components for the de...
Purpose – Power electronics are usually soldered to Al2-O3 direct-bond-copper (DBC) substrates to in...
EPE 2005 - 11th European Conférence on Power Electronics and Applications, Dresde, ALLEMAGNE, 11-/09...
The Publisher's final version can be found by following the URI link.The thermal cycling reliability...
The thermal cycling life of direct bonded aluminum (DBA) and active metal brazing (AMB) substrates w...
In this article, we propose a new packaging technology enabling the development of a high-performan...
Insulating substrates for high temperature power electronics are in the focus of this paper. The tar...
The aim of this paper is to evaluate a new packaging technology developed for high power density and...
Abstract: Electronic power devices used for transportation applications (automotive and avionics) ex...
In avionic applications, semiconductor devices can be placed on the engine with an ambient temperatu...
New wide-band gap semiconductors (SC) for power electronics such as SiC, GaN and diamond will allow ...
This paper focuses on the properties of Si3N4 substrate material with AMB (active metal brazing) cop...
In this work we report on a reliability investigation regarding heavy copper wires ultrasonically bo...
The effect of the elemental composition of AlxSi1−xN coatings deposited on Cu substrates by magnetro...
13.5 mm × 13.5 mm sintered nano-silver attachments for power devices onto AlN substrates were prepar...
International audiencePower electronics modules (>100 A, >500 V) are essential components for the de...
Purpose – Power electronics are usually soldered to Al2-O3 direct-bond-copper (DBC) substrates to in...
EPE 2005 - 11th European Conférence on Power Electronics and Applications, Dresde, ALLEMAGNE, 11-/09...
The Publisher's final version can be found by following the URI link.The thermal cycling reliability...
The thermal cycling life of direct bonded aluminum (DBA) and active metal brazing (AMB) substrates w...
In this article, we propose a new packaging technology enabling the development of a high-performan...
Insulating substrates for high temperature power electronics are in the focus of this paper. The tar...
The aim of this paper is to evaluate a new packaging technology developed for high power density and...
Abstract: Electronic power devices used for transportation applications (automotive and avionics) ex...
In avionic applications, semiconductor devices can be placed on the engine with an ambient temperatu...
New wide-band gap semiconductors (SC) for power electronics such as SiC, GaN and diamond will allow ...
This paper focuses on the properties of Si3N4 substrate material with AMB (active metal brazing) cop...
In this work we report on a reliability investigation regarding heavy copper wires ultrasonically bo...
The effect of the elemental composition of AlxSi1−xN coatings deposited on Cu substrates by magnetro...
13.5 mm × 13.5 mm sintered nano-silver attachments for power devices onto AlN substrates were prepar...
International audiencePower electronics modules (>100 A, >500 V) are essential components for the de...
Purpose – Power electronics are usually soldered to Al2-O3 direct-bond-copper (DBC) substrates to in...
EPE 2005 - 11th European Conférence on Power Electronics and Applications, Dresde, ALLEMAGNE, 11-/09...