This works describes the use of electro-thermal numerical simulations for the design, modeling, and reliability evaluation of semiconductor devices and electronic circuits. Examples at the device level focus on 2D and 3D simulations of GaAs-based HFETs and HBTs, while a case study of hybrid highpower DC/DC converters is shown to illustrate the possibilities and challenges of thermal simulation at board level
A CAD approach (using a hybrid finite-element Green's function strategy) is described for the therma...
In this work we present a novel simulation environment for analysis of electro-thermal interaction i...
This paper presents the application of advanced compact models of the IGBT and PIN diode to the full...
Abstract: This papers describes a computer environment that supports the simultaneous electrical and...
This paper deals with using device-level numerical simulations for the investigation of the electro-...
Nonisothermal steady-state and transient simulation capabilities have been implemented in the ATLAS ...
In this work, an overview on the importance of reliability and its main methodologies will be provid...
The device level electro-thermal simulation of analog circuits and the logical gate level logi-therm...
With the ever increasing integration density of electronic circuits and devices thermal issues due t...
In this paper, a new thermal model based on the Fourier series solution of heat conduction equation ...
AbstractThis paper deals with the integration of a reduced thermal model based on tree dimensional F...
Abstract- The paper presents a methodology for simulating the static and dynamic performance of inte...
A fully coupled electro-thermal hydrodynamic model is described which is suitable for modelling acti...
The development of power electronics in the field of transportations (automotive, aeronautics) requi...
With increasing power levels and power densities in electronics systems, thermal issues are becoming...
A CAD approach (using a hybrid finite-element Green's function strategy) is described for the therma...
In this work we present a novel simulation environment for analysis of electro-thermal interaction i...
This paper presents the application of advanced compact models of the IGBT and PIN diode to the full...
Abstract: This papers describes a computer environment that supports the simultaneous electrical and...
This paper deals with using device-level numerical simulations for the investigation of the electro-...
Nonisothermal steady-state and transient simulation capabilities have been implemented in the ATLAS ...
In this work, an overview on the importance of reliability and its main methodologies will be provid...
The device level electro-thermal simulation of analog circuits and the logical gate level logi-therm...
With the ever increasing integration density of electronic circuits and devices thermal issues due t...
In this paper, a new thermal model based on the Fourier series solution of heat conduction equation ...
AbstractThis paper deals with the integration of a reduced thermal model based on tree dimensional F...
Abstract- The paper presents a methodology for simulating the static and dynamic performance of inte...
A fully coupled electro-thermal hydrodynamic model is described which is suitable for modelling acti...
The development of power electronics in the field of transportations (automotive, aeronautics) requi...
With increasing power levels and power densities in electronics systems, thermal issues are becoming...
A CAD approach (using a hybrid finite-element Green's function strategy) is described for the therma...
In this work we present a novel simulation environment for analysis of electro-thermal interaction i...
This paper presents the application of advanced compact models of the IGBT and PIN diode to the full...