A time-domain method for the analysis of thermal impedance response preserving the convolution form

Author

Carmona, Manuel ; Marco, Santiago ; Palacín, Jordi ; Samitier, Josep

Author_Institution

Dept. of Electron., Barcelona Univ., Spain

Volume

22

Issue

2

fYear

1999

fDate

6/1/1999 12:00:00 AM

Firstpage

238

Lastpage

244

Abstract

The study of the thermal behavior of complex packages such as multichip modules (MCMs) is usually carried out by measuring the so-called thermal impedance response, that is: the transient temperature after a power step. From the analysis of this signal, the thermal frequency response can be estimated, and consequently, compact thermal models may be extracted. We present a method to obtain an estimate of the time constant distribution underlying the observed transient. The method is based on an iterative deconvolution that produces an approximation to the time constant spectrum while preserving a convenient convolution form. This method is applied to the obtained thermal response of a microstructure as analyzed by finite element method as well as to the measured thermal response of a transistor array integrated circuit (IC) in a SMD package

Keywords

convolution; finite element analysis; integrated circuit packaging; iterative methods; multichip modules; thermal resistance; time-domain analysis; SMD package; compact thermal models; convolution form; finite element method; iterative deconvolution; multichip modules; thermal frequency response; thermal impedance response; thermal response; time constant distribution; time-domain method; transient temperature; transistor array integrated circuit; Frequency estimation; Frequency response; Impedance measurement; Iterative methods; Multichip modules; Packaging; Power measurement; Signal analysis; Temperature; Time domain analysis;

fLanguage

English

Journal_Title

Components and Packaging Technologies, IEEE Transactions on

Publisher

ieee

ISSN

1521-3331

Type

jour

DOI

10.1109/6144.774738

Filename

774738