A generic method for thermal multiport model generation of IC packages

Author

Rencz, M. ; Szekely, V.

Author_Institution

MicRed Microelectron. Res. & Dev. Ltd., Hungary

fYear

2001

fDate

2001

Firstpage

145

Lastpage

152

Abstract

The dynamic thermal behaviour of electronic subsystems is characterised by their dynamic compact models. These models must be similar to the steady state models in describing the fact that the heat is usually leaving from different locations (ports), necessitating multi-port description of the thermal behaviour. In this paper, we present a method suitable for direct generation of multi-port dynamic compact thermal models from a series of thermal transient simulations or measurements. The generated RC electrical equivalent circuit model exercised with a network simulator program provided the same transient functions as the simulated ones for various boundary conditions, proving the accuracy of the method. Measurement results are also suitable for compact model generation

Keywords

circuit simulation; cooling; integrated circuit measurement; integrated circuit modelling; integrated circuit packaging; thermal analysis; thermal management (packaging); thermal variables measurement; transient analysis; IC packages; RC electrical equivalent circuit model; boundary conditions; compact model generation; dynamic compact models; dynamic thermal behaviour; electronic subsystems; generic method; heat dissipation; multi-port description; multi-port dynamic compact thermal models; network simulator program; steady state models; thermal behaviour; thermal multiport model generation; thermal transient measurements; thermal transient simulations; transient functions; Admittance; Boundary conditions; Circuit simulation; Electronic packaging thermal management; Equations; Equivalent circuits; Frequency dependence; Integrated circuit modeling; Integrated circuit packaging; Steady-state;

fLanguage

English

Publisher

ieee

Conference_Titel

Semiconductor Thermal Measurement and Management, 2001. Seventeenth Annual IEEE Symposium

Conference_Location

San Jose, CA

Print_ISBN

0-7803-6649-2

Type

conf

DOI

10.1109/STHERM.2001.915164

Filename

915164