Metallurgical bond integrity of C45 ultra fine pitch with 18m copper wire
Nowadays, increasing of gold price and decreasing of dielectric let copper and low-k dielectric materials become a new technology and are increasingly chosen as preferred interconnect insulated material in semiconductor applications. In this paper, a C45 ultra low k wafer technology with bond-over-a...
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my.uniten.dspace-303492023-12-29T15:46:58Z Metallurgical bond integrity of C45 ultra fine pitch with 18m copper wire Kid W.B. Leng E.P. Seong L.B. Weily C. Kar Y.B. 36992192300 26423002500 36004755800 36992593400 26649255900 Copper Dielectric materials Gold Intermetallics Shear flow Spheres Thermal aging Aluminum wires Ball diameter Ball shear strength Ball size Ball-shear test BGA package Body sizes Bond pad Bonding capillary Bonding parameters Copper wires Critical factors Critical response Gold prices Gold wire IMC thickness Insulated materials Low-k dielectric materials Metallurgical bonds Peel strength Semiconductor applications Ultra fine pitch Ultra low-k Wafer technology Wire bonding Wire pull strength Wire Nowadays, increasing of gold price and decreasing of dielectric let copper and low-k dielectric materials become a new technology and are increasingly chosen as preferred interconnect insulated material in semiconductor applications. In this paper, a C45 ultra low k wafer technology with bond-over-active bond pads, on a thermally enhanced BGA package with 3131mm large body size is selected to study. Aluminum wire type, bonding capillary, and wire bonding parameters, were selected as critical factors in this study. Both were used for bonding parameters optimization. Critical responses such as ball size, ball height/bonded ball diameter ratio, wire pull strength, ball shear strength, and wire peel strength were studied to understand the wire bonding effect of C45 ultra low k and 40m pad pitch. Analysis between copper and gold wire were performed for comparison purpose at different thermal aging read point. The thermal aging read point were studied at 175�C for 168, 504 and 1008 hours while at temperature of 225�C for 4.5, 13.5, 26, 52 and 97 hours respectively. This is used to study the IMC thickness of Cu-Al. To investigate the effects of IMC formation on the copper wire on Al pad, wire pull, wire peel and ball shear test has to be construct. � 2011 IEEE. Final 2023-12-29T07:46:58Z 2023-12-29T07:46:58Z 2011 Conference paper 10.1109/RSM.2011.6088332 2-s2.0-83755196507 https://www.scopus.com/inward/record.uri?eid=2-s2.0-83755196507&doi=10.1109%2fRSM.2011.6088332&partnerID=40&md5=9123a3d969ccf9708f5963f9a3a80acf https://irepository.uniten.edu.my/handle/123456789/30349 6088332 236 240 Scopus |
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Copper Dielectric materials Gold Intermetallics Shear flow Spheres Thermal aging Aluminum wires Ball diameter Ball shear strength Ball size Ball-shear test BGA package Body sizes Bond pad Bonding capillary Bonding parameters Copper wires Critical factors Critical response Gold prices Gold wire IMC thickness Insulated materials Low-k dielectric materials Metallurgical bonds Peel strength Semiconductor applications Ultra fine pitch Ultra low-k Wafer technology Wire bonding Wire pull strength Wire |
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Copper Dielectric materials Gold Intermetallics Shear flow Spheres Thermal aging Aluminum wires Ball diameter Ball shear strength Ball size Ball-shear test BGA package Body sizes Bond pad Bonding capillary Bonding parameters Copper wires Critical factors Critical response Gold prices Gold wire IMC thickness Insulated materials Low-k dielectric materials Metallurgical bonds Peel strength Semiconductor applications Ultra fine pitch Ultra low-k Wafer technology Wire bonding Wire pull strength Wire Kid W.B. Leng E.P. Seong L.B. Weily C. Kar Y.B. Metallurgical bond integrity of C45 ultra fine pitch with 18m copper wire |
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Nowadays, increasing of gold price and decreasing of dielectric let copper and low-k dielectric materials become a new technology and are increasingly chosen as preferred interconnect insulated material in semiconductor applications. In this paper, a C45 ultra low k wafer technology with bond-over-active bond pads, on a thermally enhanced BGA package with 3131mm large body size is selected to study. Aluminum wire type, bonding capillary, and wire bonding parameters, were selected as critical factors in this study. Both were used for bonding parameters optimization. Critical responses such as ball size, ball height/bonded ball diameter ratio, wire pull strength, ball shear strength, and wire peel strength were studied to understand the wire bonding effect of C45 ultra low k and 40m pad pitch. Analysis between copper and gold wire were performed for comparison purpose at different thermal aging read point. The thermal aging read point were studied at 175�C for 168, 504 and 1008 hours while at temperature of 225�C for 4.5, 13.5, 26, 52 and 97 hours respectively. This is used to study the IMC thickness of Cu-Al. To investigate the effects of IMC formation on the copper wire on Al pad, wire pull, wire peel and ball shear test has to be construct. � 2011 IEEE. |
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36992192300 |
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36992192300 Kid W.B. Leng E.P. Seong L.B. Weily C. Kar Y.B. |
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Conference paper |
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Kid W.B. Leng E.P. Seong L.B. Weily C. Kar Y.B. |
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Kid W.B. |
title |
Metallurgical bond integrity of C45 ultra fine pitch with 18m copper wire |
title_short |
Metallurgical bond integrity of C45 ultra fine pitch with 18m copper wire |
title_full |
Metallurgical bond integrity of C45 ultra fine pitch with 18m copper wire |
title_fullStr |
Metallurgical bond integrity of C45 ultra fine pitch with 18m copper wire |
title_full_unstemmed |
Metallurgical bond integrity of C45 ultra fine pitch with 18m copper wire |
title_sort |
metallurgical bond integrity of c45 ultra fine pitch with 18m copper wire |
publishDate |
2023 |
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1806426258415812608 |
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13.222552 |