Title : ( Heat transfer improvement in quasi-monolithic integration technology )
Authors: Mojtaba Joodaki , Günter Kompa , Hartmut Hillmer , Rainer Kassing ,
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Abstract
Static thermal analyses for the earlier concept and the enhanced quasi-monolithic integration technology (QMIT) are performed in detail. The effects of several parameters such as the properties of the materials involved and different geometries in all possible structures are described. Simulation results confirm a very low thermal resistance for the enhanced QMIT structure and highlight its superiority to the earlier concept of QMIT structures. This leads to a longer lifetime, a higher reliability and a better performance of the packaging.
Keywords
, Epoxies, Gallium arsenide, Simulations, Resistance
@article{paperid:1037009,
author = {Joodaki, Mojtaba and Günter Kompa and Hartmut Hillmer and Rainer Kassing},
title = {Heat transfer improvement in quasi-monolithic integration technology},
journal = {Journal of Micro/Nanolithography, MEMS, and MOEMS},
year = {2005},
volume = {4},
number = {3},
month = {July},
issn = {1932-5150},
pages = {33011--33011},
numpages = {0},
keywords = {Epoxies; Gallium arsenide; Simulations; Resistance},
}
%0 Journal Article
%T Heat transfer improvement in quasi-monolithic integration technology
%A Joodaki, Mojtaba
%A Günter Kompa
%A Hartmut Hillmer
%A Rainer Kassing
%J Journal of Micro/Nanolithography, MEMS, and MOEMS
%@ 1932-5150
%D 2005
