Dependence of thermal resistance on ambient and actual temperature
JCJ Paasschens, S Harmsma… - … /BiCMOS Circuits and …, 2004 - ieeexplore.ieee.org
JCJ Paasschens, S Harmsma, R Van der Toorn
Bipolar/BiCMOS Circuits and Technology, 2004. Proceedings of the …, 2004•ieeexplore.ieee.orgWe investigate the temperature dependence of thermal resistance. We extract the thermal
resistance as a function of ambient temperature. The increase of thermal resistance due to
self-heating leads to a non-linear relation between temperature and power dissipation. We
show how to implement this in a compact model and what its effect is on simulations at high
power dissipation.
resistance as a function of ambient temperature. The increase of thermal resistance due to
self-heating leads to a non-linear relation between temperature and power dissipation. We
show how to implement this in a compact model and what its effect is on simulations at high
power dissipation.
We investigate the temperature dependence of thermal resistance. We extract the thermal resistance as a function of ambient temperature. The increase of thermal resistance due to self-heating leads to a non-linear relation between temperature and power dissipation. We show how to implement this in a compact model and what its effect is on simulations at high power dissipation.
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