TY - Type of reference
TI - Thermal modeling of high power transistor HEMT type
AU - Abdelkhalak El Hami
AU - Bouchaïb Radi
AU - Abdelhamid Amar
AB - Mechatronics is a discipline that combines mechanics, electronics and computer science. The
appearance of mechatronic systems gives rise to failure and degradation phenomena that develop over time and are not well controlled. To study these failures we will use the finite element method, is a numerical scheme (method) that allows to simulate (solve) complicated physics problems via the computer tool. This is made by approximating the mathematical model based on a partial differential equation whose number of unknowns is infinite with a matrix algebraic model whose number of unknowns is finite. The implementation of this method is made with two software programs COMSOL and ANSYS, and the simulations will allow us to observe the behavior of our component and detect the origin of the failures.
DO - 10.21494/ISTE.OP.2019.0431
JF - Uncertainties and Reliability of Multiphysical Systems
KW - Thermal modelling, mechatronic systems, transistor HEMT, performance, Temperature, power
dissipated, Modélisation thermique, système mécatronique, transistor HEMT, performance, Temperature, puissance dissipée,
L1 - http://openscience.fr/IMG/pdf/iste_incertfia19v3n1_3.pdf
LA - en
PB - ISTE OpenScience
DA - 2020/01/6
SN - 2514-569X
TT - La modélisation thermique de transistor a haute puissance de type HEMT
UR - http://openscience.fr/Thermal-modeling-of-high-power-transistor-HEMT-type
IS - Issue 1
VL - 3
ER -