Optimal design of a power electronics module isolation substrate is assessed using a combination of finite element structural mechanics analysis and response surface optimisation technique. Primary failure modes in power electronics modules include the loss of structural integrity in the ceramic substrate materials due to stresses induced through thermal cycling. Analysis of the influence of ceramic substrate design parameters is undertaken using a design of experiments approach. Finite element analysis is used to determine the stress distribution for each design, and the results are used to construct a quadratic response surface function. A particle swarm optimisation algorithm is then used to determine the optimal substrate design. Analys...
This project presents a numerical investigation on the thermo-mechanical reliability of microelectro...
A high frequency SiC MOSFET-based three-phase, 2-level power module has been designed, simulated, as...
Thesis (Ph.D.), Mechanical Engineering, Washington State UniversityThermoelectric generation (TEG) i...
Optimal design of a power electronics module isolation substrate is assessed using a combination of ...
In this paper the reliability of the isolation substrate and chip mountdown solder interconnect of p...
This paper discusses the reliability of power electronics modules. The approach taken combines numer...
[Departement_IRSTEA]DS [TR1_IRSTEA]METHODO / MODELIXInternational audienceDue to the increasing comp...
International audiencePower electronics modules (>100 A, >500 V) are essential components for the de...
This paper discusses the design for reliability of a wire bond structure in a power electronic modul...
Abstract: Electronic power devices used for transportation applications (automotive and avionics) ex...
An effort to design and build a prototype LED driver system which is energy efficient, highly compac...
Reliability problems in microelectronics package, its interconnection as well as the interfaces, cau...
The development of a framework for the analysis and design optimization of power electronics module ...
The aim of integrating computational mechanics (FEA and CFD) and optimization tools is to speed up d...
The Publisher's final version can be found by following the URI link.The thermal cycling reliability...
This project presents a numerical investigation on the thermo-mechanical reliability of microelectro...
A high frequency SiC MOSFET-based three-phase, 2-level power module has been designed, simulated, as...
Thesis (Ph.D.), Mechanical Engineering, Washington State UniversityThermoelectric generation (TEG) i...
Optimal design of a power electronics module isolation substrate is assessed using a combination of ...
In this paper the reliability of the isolation substrate and chip mountdown solder interconnect of p...
This paper discusses the reliability of power electronics modules. The approach taken combines numer...
[Departement_IRSTEA]DS [TR1_IRSTEA]METHODO / MODELIXInternational audienceDue to the increasing comp...
International audiencePower electronics modules (>100 A, >500 V) are essential components for the de...
This paper discusses the design for reliability of a wire bond structure in a power electronic modul...
Abstract: Electronic power devices used for transportation applications (automotive and avionics) ex...
An effort to design and build a prototype LED driver system which is energy efficient, highly compac...
Reliability problems in microelectronics package, its interconnection as well as the interfaces, cau...
The development of a framework for the analysis and design optimization of power electronics module ...
The aim of integrating computational mechanics (FEA and CFD) and optimization tools is to speed up d...
The Publisher's final version can be found by following the URI link.The thermal cycling reliability...
This project presents a numerical investigation on the thermo-mechanical reliability of microelectro...
A high frequency SiC MOSFET-based three-phase, 2-level power module has been designed, simulated, as...
Thesis (Ph.D.), Mechanical Engineering, Washington State UniversityThermoelectric generation (TEG) i...