Title :
Self-consistent simulations of transient heating effects in electrical devices using the finite integration technique
Author :
Clemens, Markus ; Gjonaj, Erion ; Pinder, Philipp ; Weiland, Thomas
Author_Institution :
Darmstadt Univ. of Technol., Germany
fDate :
9/1/2001 12:00:00 AM
Abstract :
A newly developed method for coupled electromagnetic and thermal simulations of electrical devices with heat losses is presented. The method is based on the finite integration technique (FIT). Temperature dependent device-material properties, as well as radiant and convective boundary conditions are accommodated in the model. The performance of the method is demonstrated in the simulation of a high precision eddy current welding application and in the calculation of the transient response of a multifinger AlGaAs/GaAs heterojunction bipolar power transistor (HBT). In the latter, a discussion of the effects of thermal shunting in the self-heating process is given
Keywords :
eddy currents; heat losses; heterojunction bipolar transistors; integration; power bipolar transistors; semiconductor device models; thermal analysis; transient response; AlGaAs-GaAs; convective boundary conditions; coupled electromagnetic-thermal simulations; finite integration technique; heat losses; heterojunction bipolar power transistor; high precision eddy current welding; radiant boundary conditions; self-consistent simulations; temperature dependent device-material properties; thermal shunting; transient heating effects; transient response; Boundary conditions; Eddy currents; Electromagnetic coupling; Electromagnetic devices; Electromagnetic heating; Electromagnetic transients; Resistance heating; Temperature dependence; Transient response; Welding;
Journal_Title :
Magnetics, IEEE Transactions on
