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Improvement of Cu-Al bond integrity on low k pad structures

Gold wires are commonly used for wire-bonding and it fits well the industrial requirements. However, the price of Gold wires increasing significantly, Copper wires is a potential replacement for Gold due to their superior electrical and mechanical properties. In order to incorporate Cu in the wire-b...

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Main Authors: Kid W.B., Leng E.P., Yong C.C., Yi O.X., Kar Y.B.
Other Authors: 36992192300
Format: Conference paper
Published: 2023
Subjects:
Copper
Electric properties
Gold
Intermetallics
Mechanical properties
Thermal aging
Wire
Bond integrities
Copper wires
Diffusion rate
Electrical and mechanical properties
Gold wire
Higher temperatures
Industrial requirements
Intermetallic formation
Pad structures
Wire bonds
Wirebonding
Aluminum
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id my.uniten.dspace-30356
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spelling my.uniten.dspace-303562023-12-29T15:47:01Z Improvement of Cu-Al bond integrity on low k pad structures Kid W.B. Leng E.P. Yong C.C. Yi O.X. Kar Y.B. 36992192300 26423002500 24726352800 54785740300 26649255900 Copper Electric properties Gold Intermetallics Mechanical properties Thermal aging Wire Bond integrities Copper wires Diffusion rate Electrical and mechanical properties Gold wire Higher temperatures Industrial requirements Intermetallic formation Pad structures Wire bonds Wirebonding Aluminum Gold wires are commonly used for wire-bonding and it fits well the industrial requirements. However, the price of Gold wires increasing significantly, Copper wires is a potential replacement for Gold due to their superior electrical and mechanical properties. In order to incorporate Cu in the wire-bonding process, substantial data regarding aging and intermetallic formation of Cu-Al bonds is required and the results are compared with Au samples. In this study, the bond integrity and thermal aging of Cu-Al and Au-Al wire-bonds were investigated. The Copper and Gold wire-bonds samples were heat-treated at temperature of 225�C for 4.5, 13.5, 26, 52 and 97 hours respectively. The intermetallics of the wire-bonds, and in particular the Al-Cu interface, were studied. Discontinuous and non-uniform of Cu-Al intermetallics regions were found in the thermal aging samples. The thickness of Cu-Al intermetallics is growing linearly with the temperature as the diffusion rate increases in higher temperature. The Cu-Al bond is weak compare to Au-Al in accordance with aging through wire pull test. � 2011 IEEE. Final 2023-12-29T07:47:01Z 2023-12-29T07:47:01Z 2011 Conference paper 10.1109/RSM.2011.6088325 2-s2.0-83755194849 https://www.scopus.com/inward/record.uri?eid=2-s2.0-83755194849&doi=10.1109%2fRSM.2011.6088325&partnerID=40&md5=43bb7e1d67201cd4e08d06baa0b2a7b7 https://irepository.uniten.edu.my/handle/123456789/30356 6088325 207 210 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 Copper
Electric properties
Gold
Intermetallics
Mechanical properties
Thermal aging
Wire
Bond integrities
Copper wires
Diffusion rate
Electrical and mechanical properties
Gold wire
Higher temperatures
Industrial requirements
Intermetallic formation
Pad structures
Wire bonds
Wirebonding
Aluminum
spellingShingle Copper
Electric properties
Gold
Intermetallics
Mechanical properties
Thermal aging
Wire
Bond integrities
Copper wires
Diffusion rate
Electrical and mechanical properties
Gold wire
Higher temperatures
Industrial requirements
Intermetallic formation
Pad structures
Wire bonds
Wirebonding
Aluminum
Kid W.B.
Leng E.P.
Yong C.C.
Yi O.X.
Kar Y.B.
Improvement of Cu-Al bond integrity on low k pad structures
description Gold wires are commonly used for wire-bonding and it fits well the industrial requirements. However, the price of Gold wires increasing significantly, Copper wires is a potential replacement for Gold due to their superior electrical and mechanical properties. In order to incorporate Cu in the wire-bonding process, substantial data regarding aging and intermetallic formation of Cu-Al bonds is required and the results are compared with Au samples. In this study, the bond integrity and thermal aging of Cu-Al and Au-Al wire-bonds were investigated. The Copper and Gold wire-bonds samples were heat-treated at temperature of 225�C for 4.5, 13.5, 26, 52 and 97 hours respectively. The intermetallics of the wire-bonds, and in particular the Al-Cu interface, were studied. Discontinuous and non-uniform of Cu-Al intermetallics regions were found in the thermal aging samples. The thickness of Cu-Al intermetallics is growing linearly with the temperature as the diffusion rate increases in higher temperature. The Cu-Al bond is weak compare to Au-Al in accordance with aging through wire pull test. � 2011 IEEE.
author2 36992192300
author_facet 36992192300
Kid W.B.
Leng E.P.
Yong C.C.
Yi O.X.
Kar Y.B.
format Conference paper
author Kid W.B.
Leng E.P.
Yong C.C.
Yi O.X.
Kar Y.B.
author_sort Kid W.B.
title Improvement of Cu-Al bond integrity on low k pad structures
title_short Improvement of Cu-Al bond integrity on low k pad structures
title_full Improvement of Cu-Al bond integrity on low k pad structures
title_fullStr Improvement of Cu-Al bond integrity on low k pad structures
title_full_unstemmed Improvement of Cu-Al bond integrity on low k pad structures
title_sort improvement of cu-al bond integrity on low k pad structures
publishDate 2023
_version_ 1806426084575543296
score 13.18916

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