Simulation and measurement of the solder bumps with a plastic core

authored by
J. Schlobohm, K. Weide-Zaage, R. Rongen, F. Voogt, R. Roucou
Abstract

With the aim to miniaturize and to reduce the cost, the increasing demand, regarding to advanced 3D-packages as well as high performance applications, accelerates the development of 3D-silicon integrated circuits. The trend to smaller and lighter electronics has highlighted many efforts towards size reduction and increased performance in electronic products. RF performances are limited by parasitic effects due to the RLC network between the wirebond from the dies to the leadframe. The use of flip-chip bonding technology for very fine pitch packaging allows high integration and limits parasitic inductances. Electromigration (EM) and thermomigration (TM) may have serious reliability issues for fine-pitch Pb-free solder bumps in the flip-chip technology used in consumer electronic products. A possibility to extend the reliability is the use of plastic ball in the solder bumps. Bumps containing a plastic solder balls have an excellent reliability. Using a plastic ball with a low Young modulus, the solder hardness is moderated and the stress on a ball is relaxed. Due to this the stress doesn't concentrate on the solder joint which prolongs the lifetime. In this investigation the thermal-electrical-mechanical influence of electromigration on bumps containing a plastic solder is investigated.

Organisation(s)
Laboratorium f. Informationstechnologie
External Organisation(s)
NXP Semiconductors N.V.
Type
Conference contribution
Publication date
2013
Publication status
Published
Peer reviewed
Yes
ASJC Scopus subject areas
Electrical and Electronic Engineering, Modelling and Simulation
Electronic version(s)
https://doi.org/10.1109/EuroSimE.2013.6529979 (Access: Unknown)