A Fast Mechanical Test Technique for Lifetime Estimation of Microjoints

Author(s)
Golta Khatibi, Witold Wroczewski, Brigitte Weiss, T Licht
Abstract

A novel accelerated mechanical testing method for reliability assessment of micro-joints in the electronic devices is presented as an alternative to time consuming thermal and power cycling test procedures. A special experimental set-up in combination with an ultrasonic resonance fatigue testing system and a laser Doppler vibrometer is used to obtain fatigue life curves of micro-joints under shear loading. Using this method fatigue life curves of Al wire bonded micro-joints were obtained up to 109 number of loading cycles and discussed with regard to micro-mechanisms of the bond failure. Failure analysis of the fatigued micro-joints showed that the predominant failure mechanism of power cycling tests, bond wire lift-off, was reproduced by the mechanical testing procedure. Life time of the micro-joints was modelled using a Coffin–Manson type relationship and showed a good correlation to life time curves obtained by power cycling tests. The major advantage of the proposed fast mechanical testing method is the significant reduction of the testing time in comparison with conventional thermal and power cycling tests. Furthermore subsequent examination of the failure surface provides a reliable tool for improvement of the bonding process. The proposed high frequency fatigue testing system can be applied as a rapid qualification and screening tool for various kinds of interconnects in electronic packaging.

Organisation(s)
Physics of Nanostructured Materials
External organisation(s)
Infineon Technologies AG
Journal
Microelectronics Reliability
Volume
48
Pages
1822-1830
No. of pages
9
ISSN
0026-2714
DOI
https://doi.org/10.1016/j.microrel.2008.09.003
Publication date
2008
Peer reviewed
Yes
Austrian Fields of Science 2012
103018 Materials physics
Portal url
https://ucris.univie.ac.at/portal/en/publications/a-fast-mechanical-test-technique-for-lifetime-estimation-of-microjoints(3c59d819-6526-4f8d-b8a8-3801fd5c95d5).html