The thermal fatigue of the bond-wire contacts at the topside interconnections of power electronic devices is one of the main reliability issues. This paper presents a new methodological approach to characterize and model the damages during aging by a combination of fracture mechanics and physicochemical approaches. The approach relies first on correlating the change of the microstructure with aging at the bond-wire contact, then on looking for possible links between the microstructure and the parameters of damage models. After reviewing the effect of the microstructure on the whole cycling process, the correlation is made by relating the driving force of the device failure which is the crack propagation to some physicochemical properties an...
Solder-attached IGBT power modules are widely use in renewable energy and smart grid applications wh...
Power electronic modules undergo electro-thermal stresses due to power losses that lead to several k...
The paper reports on thermo-mechanical performance analyses of power semiconductors. Realistic trans...
The thermal fatigue of the bond-wire contacts at the topside interconnections of power electronic de...
Insulated-gate bipolar transistors (IGBTs) are widely used components in power electronics applicati...
Under the action of a complex and harsh working environment, the damage of the IGBT power module...
Reliability of power electronic equipment can be enhanced with the ability to predict its health sta...
International audienceThis paper proposes an analysis for the main microstructural changes at the ch...
Electro-thermal and thermo-mechanical aging of topside metallic components of semiconductor power de...
29th European Symposium on Reliability of Electron Devices, Failure Physics and Analysis, ESREF 2018...
ESREF 2020, 31st European Symposium on Reliability of Electron Devices, Failure Physics and Analysis...
Fatigue cracking in the inter-face between the heavy Al wire and the Al metallization of the power s...
Power modules based on insulated gate bipolar transistors have become very widely used units in ener...
New demands on the thermo-mechanical design of sintered silver interconnections emerge. Development ...
In this study a high frequency mechanical fatigue testing procedure for evaluation of interfacial re...
Solder-attached IGBT power modules are widely use in renewable energy and smart grid applications wh...
Power electronic modules undergo electro-thermal stresses due to power losses that lead to several k...
The paper reports on thermo-mechanical performance analyses of power semiconductors. Realistic trans...
The thermal fatigue of the bond-wire contacts at the topside interconnections of power electronic de...
Insulated-gate bipolar transistors (IGBTs) are widely used components in power electronics applicati...
Under the action of a complex and harsh working environment, the damage of the IGBT power module...
Reliability of power electronic equipment can be enhanced with the ability to predict its health sta...
International audienceThis paper proposes an analysis for the main microstructural changes at the ch...
Electro-thermal and thermo-mechanical aging of topside metallic components of semiconductor power de...
29th European Symposium on Reliability of Electron Devices, Failure Physics and Analysis, ESREF 2018...
ESREF 2020, 31st European Symposium on Reliability of Electron Devices, Failure Physics and Analysis...
Fatigue cracking in the inter-face between the heavy Al wire and the Al metallization of the power s...
Power modules based on insulated gate bipolar transistors have become very widely used units in ener...
New demands on the thermo-mechanical design of sintered silver interconnections emerge. Development ...
In this study a high frequency mechanical fatigue testing procedure for evaluation of interfacial re...
Solder-attached IGBT power modules are widely use in renewable energy and smart grid applications wh...
Power electronic modules undergo electro-thermal stresses due to power losses that lead to several k...
The paper reports on thermo-mechanical performance analyses of power semiconductors. Realistic trans...