DocumentCode
1154874
Title
Investigation of Arrhenius acceleration factor for integrated circuit early life failure region with several failure mechanisms
Author
Cooper, Mark Spencer
Author_Institution
Jet Propulsion Lab., Pasadena, CA, USA
Volume
28
Issue
3
fYear
2005
Firstpage
561
Lastpage
563
Abstract
Use of the Arrhenius equation for analysis of burn-in and life test data has been called into question in recent years. Validity of the Arrhenius activation energy is asserted to be restricted to only one failure mechanism. Therefore, if multiple failure mechanisms apply to an integrated circuit type, the temperature acceleration factor must be complex. In this study a model is constructed using the Weibull distribution for the failure rate applicable when there are multiple failure mechanisms. In this model a different Arrhenius activation energy corresponds to each failure mechanism. It is shown that under conditions expected to be valid for most integrated circuits, an empirical effective Arrhenius activation energy can be computed that is valid for life test data taken under typical conditions to better than 10%. This provides some justification for the continued usage of a simple Arrhenius equation as an empirical model to analyze life test data.
Keywords
Weibull distribution; failure analysis; integrated circuit reliability; integrated circuit testing; life testing; Arrhenius acceleration factor; Arrhenius activation energy; Arrhenius equation; Weibull distribution; burn-in test; failure mechanisms; infant mortality failure characteristic; integrated circuit; life failure region; life test; mixed population failure mechanism; temperature acceleration factor; Acceleration; Chemicals; Circuit testing; Equations; Failure analysis; Integrated circuit modeling; Integrated circuit testing; Life testing; Temperature dependence; Weibull distribution; Arrhenius activation energy; Arrhenius equation; Weibull distribution; infant mortality failure characteristics; mixed population failure mechanisms;
fLanguage
English
Journal_Title
Components and Packaging Technologies, IEEE Transactions on
Publisher
ieee
ISSN
1521-3331
Type
jour
DOI
10.1109/TCAPT.2005.848581
Filename
1501959
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