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Cu-SnAg Interconnects Evaluation for the Assembly at 10µm and 5µm Pitch | IEEE Conference Publication | IEEE Xplore
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Cu-SnAg Interconnects Evaluation for the Assembly at 10µm and 5µm Pitch

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Divya Taneja; Marion Volpert; Gilles Lasfargues; Bertrand Chambion; Boris Bouillard; Sylvie Jarjayes
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Abstract:

Several types of interconnects for the finer pitch assembly are currently being investigated across the globe. Here in this paper, a new type of interconnect Ni3Sn4 Inter...Show More

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Abstract:

Several types of interconnects for the finer pitch assembly are currently being investigated across the globe. Here in this paper, a new type of interconnect Ni3Sn4 Interconnect is proposed and evaluated for assembly at 10 pitch and below. The proposed interconnect is compared to traditional solder interconnect. The comparison is done on the basis of shape of the joints in interconnects, the electric yield and mechanical properties. Later, Ni3Sn4 IMC interconnect is also compared to known Cu3Sn IMC Interconnect.
Published in: 2017 IEEE 67th Electronic Components and Technology Conference (ECTC)
Date of Conference: 30 May 2017 - 02 June 2017
Date Added to IEEE Xplore: 03 August 2017
ISBN Information:
Electronic ISSN: 2377-5726
DOI: 10.1109/ECTC.2017.154
Conference Location: Orlando, FL, USA
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Contents

I. Introduction

According to Moore's law, the number of transistors per unit area on integrated circuits double itself every year which entails the proportional increase of interconnects density on these integrated circuits. As a result, the 2D integration (using wire bonding for interconnect) is replaced by 3D integration (using microbumps and TSVs). Following this trend, in coming years the interconnect density for several applications such as micro display, imaging devices will approach the pitch of and below. Some research centers across the globe are working to achieve the assembly at finer pitch. Many approaches for making these interconnects such as Cu-solder bonding, microtubes, Cu-Cu bonding etc. are proposed, however the research is still in its early stages.

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