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Highly reliable, fine pitch chip on glass (COG) joints fabricated using Sn/Cu bumps and non-conductive adhesives

Authors
Kim, Byeung-GeeLee, Sang-MokJo, Yun-SongKim, Sun-ChulHarr, Kyoung-MooKim, Young-Ho
Issue Date
Apr-2011
Publisher
Elsevier Ltd.
Citation
Microelectronics and Reliability, v.51, no.4, pp 851 - 859
Pages
9
Indexed
SCI
SCIE
SCOPUS
Journal Title
Microelectronics and Reliability
Volume
51
Number
4
Start Page
851
End Page
859
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/202913
DOI
10.1016/j.microrel.2010.11.003
ISSN
0026-2714
Abstract
We have developed a reliable and ultra-fine pitch chip on glass (COG) bonding technique using Sn/Cu bumps and non-conductive adhesive (NCA). Sn/Cu bumps were formed by electroplating and reflowed, forming dome shaped Sn bumps on Cu columns. COG bonding was performed between the reflowed Sn/Cu bumps on the oxidized Si wafer and ITO/Au/Cu/Ti/glass substrate using a thermo-compression bonder. Three different NCAs were applied during bonding. Bonding temperature was 150 degrees C for NCA-A and NCA-B, and 110 degrees C for NCA-C. The electrical properties of COG joints were evaluated by measuring the contact resistance of each joint through the four-point probe method. All joints were successfully bonded and the electrical measurement showed that the average contact resistance of each joint was approximately 30 m Omega, regardless of NCA types. The COG joints were subjected to a series of reliability tests: high temperature storage test (85 degrees C, 160 h); thermal cycling test (-40 degrees C/+85 degrees C, 20 cycle); and a temperature and humidity test (50 degrees C/90%, 160 h) were sequentially performed to evaluate the reliability of the COG joints. The contact resistance measurement showed that there were no failed bumps in all specimens and all joints passed the criterion after reliability test.
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