Add to ORKGThere are many methods of detecting degradation in die-attach materials, e.g. SAM, X-ray, SEM etc. However, these methods are mainly used in offline testing and therefore involve a great amount of time and effort. The method, we present in this work, is non-destructive and enables in-situ monitoring of degradation. Voids or cracks cause the change of thermal behaviour in electronic packages, therefore the thermal behaviour is due to alter over lifetime. Therefore parametric simulation models have been developed, which enable the prediction of influence of delamination areas on transient thermal properties for different die attach materials. The simulation on example COB (chip-on-board) packages show, that an increase of delamination area ca...
Interface delamination is one of the most important issues in the microelectronic packaging industry...
Interface delamination is one of the most important issues in the microelectronic packaging industry...
We have developed a novel, rapid, robust and non-destructive experimental technique for in-situ moni...
This paper presents a method for indicating cracks in die attach materials, which is non-destructive...
Today, there is no non-destructive, simple, inexpensive and yet accurate in-situ monitoring techniqu...
Today, there is no non-destructive, simple, inexpensive and yet accurate in-situ monitoring techniqu...
The continuing trend in the automotive and aviation industries to reduce complexity of electronic sy...
With an increasing demand for high-power electronics, the need to meet stringent automotive norms an...
The challenges to select materials for the development of electronic modules are aligned with the pr...
The operation of electronic packages under increasingly harsh environments is a significant challeng...
Thermal degradation of polymeric materials used in microelectronic packages was studied by means of ...
In this paper measurement experiments prove that the structure function evaluation of the thermal tr...
Failure analysis of complex microelectronic devices is of increasing importance to secure and improv...
Interface delamination is one of the most important issues in the microelectronic packaging industry...
Interface delamination is one of the most important issues in the microelectronic packaging industry...
Interface delamination is one of the most important issues in the microelectronic packaging industry...
Interface delamination is one of the most important issues in the microelectronic packaging industry...
We have developed a novel, rapid, robust and non-destructive experimental technique for in-situ moni...
This paper presents a method for indicating cracks in die attach materials, which is non-destructive...
Today, there is no non-destructive, simple, inexpensive and yet accurate in-situ monitoring techniqu...
Today, there is no non-destructive, simple, inexpensive and yet accurate in-situ monitoring techniqu...
The continuing trend in the automotive and aviation industries to reduce complexity of electronic sy...
With an increasing demand for high-power electronics, the need to meet stringent automotive norms an...
The challenges to select materials for the development of electronic modules are aligned with the pr...
The operation of electronic packages under increasingly harsh environments is a significant challeng...
Thermal degradation of polymeric materials used in microelectronic packages was studied by means of ...
In this paper measurement experiments prove that the structure function evaluation of the thermal tr...
Failure analysis of complex microelectronic devices is of increasing importance to secure and improv...
Interface delamination is one of the most important issues in the microelectronic packaging industry...
Interface delamination is one of the most important issues in the microelectronic packaging industry...
Interface delamination is one of the most important issues in the microelectronic packaging industry...
Interface delamination is one of the most important issues in the microelectronic packaging industry...
We have developed a novel, rapid, robust and non-destructive experimental technique for in-situ moni...