Title :
Thermal Measurement and Modeling of Multi-Die Packages
Author :
Poppe, András ; Zhang, Yan ; Wilson, John ; Farkas, Gábor ; Szabó, Péter ; Parry, John ; Rencz, Márta ; Székely, Vladimír
Author_Institution :
MicReD Div., Mentor Graphics, Budapest, Hungary
fDate :
6/1/2009 12:00:00 AM
Abstract :
Thermal measurement and modeling of multi-die packages with vertical (stacked) and lateral arrangement became a hot topic recently in different fields like RAM chip packaging or LEDs and LED assemblies. In our present study, we present results for a more complex structure: an opto-coupler device with four chips in a combined lateral and vertical arrangement. The paper gives an overview of measurement and modeling techniques and results for stacked and multichip module (MCM) structures. It describes actual measurement results along with our structure function-based methodology which helps validating the detailed model of the package being studied. For stack-die packages, we suggest an extension of the DELPHI model topology. Also, we show how one can derive junction-to-pin thermal resistances with a technique using structure functions.
Keywords :
electronics packaging; light emitting diodes; multichip modules; network topology; random-access storage; thermal resistance; DELPHI model topology; LED assembly; RAM chip packaging; junction-to-pin thermal resistances; lateral arrangement; multichip module; multidie packages; opto-coupler device; structure function-based methodology; thermal measurement; Compact thermal modeling; multi-die packages; stacked-die package modeling; structure functions; thermal transient testing;
Journal_Title :
Components and Packaging Technologies, IEEE Transactions on
DOI :
10.1109/TCAPT.2008.2004578
