Process optimization approach in fine pitch Cu wire bonding

With SiO2 dielectric under aluminum pads, a 60 m bond pad pitch with 52 um bond pad opening Cu wire bonding process was developed in PBGA Hip 7 PGE wafer technology. The critical factors (wire type, capillary, and bonding parameter) and critical responses (bonded ball diameter, bonded ball height, w...

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Main Authors: Wong B.K., Yong C.C., Eu P.L., Yap B.K.
Other Authors: 36992192300
Format: Conference paper
Published: 2023
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spelling my.uniten.dspace-304752023-12-29T15:48:17Z Process optimization approach in fine pitch Cu wire bonding Wong B.K. Yong C.C. Eu P.L. Yap B.K. 36992192300 24726352800 55911544700 26649255900 Design of experiments Dielectric materials Optimization Silicon compounds Spheres Thermal aging Thermoelectric equipment Wafer bonding Aluminum pad Ball diameter Ball shear Ball-shear test Bond pad Bonding parameters Bonding quality Critical factors Critical response Fine pitch Wafer technology Wire bonding Wire With SiO2 dielectric under aluminum pads, a 60 m bond pad pitch with 52 um bond pad opening Cu wire bonding process was developed in PBGA Hip 7 PGE wafer technology. The critical factors (wire type, capillary, and bonding parameter) and critical responses (bonded ball diameter, bonded ball height, wire pull, ball shear and number of metal lift/peeling and ball lift after wire pull) are affecting bonding quality. Design of experiment and response of surface were used to optimize the bonding parameters. The wire pull and ball shear test at three thermal aging read points were studied. � 2011 IEEE. Final 2023-12-29T07:48:17Z 2023-12-29T07:48:17Z 2011 Conference paper 10.1109/ICEDSA.2011.5959077 2-s2.0-80055092447 https://www.scopus.com/inward/record.uri?eid=2-s2.0-80055092447&doi=10.1109%2fICEDSA.2011.5959077&partnerID=40&md5=b5475216c175b77de9b5449fc14838a6 https://irepository.uniten.edu.my/handle/123456789/30475 5959077 147 151 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Design of experiments
Dielectric materials
Optimization
Silicon compounds
Spheres
Thermal aging
Thermoelectric equipment
Wafer bonding
Aluminum pad
Ball diameter
Ball shear
Ball-shear test
Bond pad
Bonding parameters
Bonding quality
Critical factors
Critical response
Fine pitch
Wafer technology
Wire bonding
Wire
spellingShingle Design of experiments
Dielectric materials
Optimization
Silicon compounds
Spheres
Thermal aging
Thermoelectric equipment
Wafer bonding
Aluminum pad
Ball diameter
Ball shear
Ball-shear test
Bond pad
Bonding parameters
Bonding quality
Critical factors
Critical response
Fine pitch
Wafer technology
Wire bonding
Wire
Wong B.K.
Yong C.C.
Eu P.L.
Yap B.K.
Process optimization approach in fine pitch Cu wire bonding
description With SiO2 dielectric under aluminum pads, a 60 m bond pad pitch with 52 um bond pad opening Cu wire bonding process was developed in PBGA Hip 7 PGE wafer technology. The critical factors (wire type, capillary, and bonding parameter) and critical responses (bonded ball diameter, bonded ball height, wire pull, ball shear and number of metal lift/peeling and ball lift after wire pull) are affecting bonding quality. Design of experiment and response of surface were used to optimize the bonding parameters. The wire pull and ball shear test at three thermal aging read points were studied. � 2011 IEEE.
author2 36992192300
author_facet 36992192300
Wong B.K.
Yong C.C.
Eu P.L.
Yap B.K.
format Conference paper
author Wong B.K.
Yong C.C.
Eu P.L.
Yap B.K.
author_sort Wong B.K.
title Process optimization approach in fine pitch Cu wire bonding
title_short Process optimization approach in fine pitch Cu wire bonding
title_full Process optimization approach in fine pitch Cu wire bonding
title_fullStr Process optimization approach in fine pitch Cu wire bonding
title_full_unstemmed Process optimization approach in fine pitch Cu wire bonding
title_sort process optimization approach in fine pitch cu wire bonding
publishDate 2023
_version_ 1806427529041412096
score 13.214268