Fluxless Flip‐chip Bonding on Flexible Substrates: A Comparison between Adhesive Bonding and Soldering*-Reference-Cited by-同舟云学术

Fluxless Flip‐chip Bonding on Flexible Substrates: A Comparison between Adhesive Bonding and Soldering*

Published:1996-08-01 Issue:2 Volume:8 Page:5-11
ISSN:0954-0911
Container-title:Soldering & Surface Mount Technology
language:en
Short-container-title:

Author:

Aschenbrenner R.,Zakel E.,Azdasht** G.,Kloeser A.,Reichl H.

Abstract

During the last few years an increasing number of flip‐chip (FC) interconnection technologies have emerged. While flip‐chip assembly offers many advantages compared with conventional packaging techniques, several aspects prevent this technology from entering the high volume market. Among these are the availability of bumped chips and the costs of the substrates, i.e., ceramic substrates with closely matching coefficient of thermal expansion (CTE) to the chip, in order to maintain high reliability. Only recently, with the possibility of filling the gap between chip and organic substrate with an encapsulant, was the reliability of flip‐chips mounted on organic substrates significantly enhanced. This paper presents two approaches to a fluxless process, one based on soldering techniques using Au‐Sn metallurgy and the other on adhesive joining techniques. Soldering is performed with a thermode and with a laser based system. For both of these FC‐joining processes, alternative bump mettallurgies based on electroplated gold, electroplated gold‐tin, mechanical gold and electroless nickel gold bumps are applied.

Publisher

Emerald

Subject

Electrical and Electronic Engineering,Condensed Matter Physics,General Materials Science,Electrical and Electronic Engineering,Condensed Matter Physics,General Materials Science

Reference37 articles.

1. 1Hayden, T. and Partridge, J.,‘Practical Flip Chip Integration into Standard FR‐4 Surface‐Mount Process: Assembly, Repair and Manufacturing Issues’, Proceedings ITAP & Flip Chip, San Jose, p. 1 (1994).

2. 2Lau, J., Krulevitch, T., Schar, W., Heydinger, M., Erasmus, S. and Gleason, J., ‘Experimental and Analytical studies of Encapsulated Flip Chip, solder Bumps on Surface Laminar Circuit Boards’, Proceedings Nepcon West, Anaheim, CA, p. 184 (1993).

3. 3Totta, P. and Puttlitz, K., ‘Flip Chip Technology’, Workshop on Flip Chip (C4) , TAB and Ball Grid Arays held at the International Flip Chip, TAB and Advanced Packaging Symposium, San Jose, February (1994).

4. 4Giesler, J., Machuga, S., O’Malley G. and Williams, M., ‘Reliability of Flip Chip on Board Assemblies’, Proceedings ITAP & Flip Chip, San Jose. p. 127 (1994).

5. 5Lowe, H., ‘No‐Clean Flip Chip Attach process’, Proceedings ITAP & Flip Chip, San Jose, p. 17 (1994).

Cited by 5 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Current and future trends in micro-joining and nano-joining;Joining Processes for Dissimilar and Advanced Materials;2022

2. Sandwich fixation of electronic elements using free-standing elastomeric nanosheets for low-temperature device processes;Journal of Materials Chemistry C;2017

3. Laser soldering;Microjoining and Nanojoining;2008

4. Surface coatings for fluxless soldering of copper;Circuit World;2003-03

5. Reliability investigations of hard core solder bumps using mechanical palladium bumps and SnPb solder;IEEE Transactions on Electronics Packaging Manufacturing;2002-07