Characterization of nickel plated copper heat spreaders with different catalytic activation processes for flip-chip ball grid array package

Characterization of nickel plated copper heat spreaders with different catalytic activation processes for flip-chip ball grid array package

This paper presents the effects of two different catalytic activation techniques on the thermal performance of flip chip heat spreaders. The two activation techniques investigated are i) thin nickel-copper strike and ii) galvanic initiation. Thermal diffusivity of these heat spreaders was studied us...

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Main Authors: Lim V., Ahmad I., Seng F.C., Amin N., Rasid R.
Other Authors: 26432767800
Format: Conference Paper
Published: 2023
Subjects:
Electronics packaging
Flip chip devices
Heating equipment
Mixed convection
Nickel
Nickel alloys
Soldering alloys
Spreaders
Thermal diffusion
Thermal diffusivity
Activation techniques
After high temperature
Catalytic activation
Copper heat spreader
Copper layer
Copper strike
Flip chip
Flip chip ball grid array
Heat spreaders
High temperature storage test
Initial time
Intermetallic diffusion
Intermetallic layer
Pure copper
Semiconductor packages
Thermal Performance
Copper
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Institution: Universiti Tenaga Nasional
id my.uniten.dspace-30917
record_format dspace
spelling my.uniten.dspace-309172024-04-18T10:29:19Z Characterization of nickel plated copper heat spreaders with different catalytic activation processes for flip-chip ball grid array package Lim V. Ahmad I. Seng F.C. Amin N. Rasid R. 26432767800 12792216600 26432892000 7102424614 6507511729 Electronics packaging Flip chip devices Heating equipment Mixed convection Nickel Nickel alloys Soldering alloys Spreaders Thermal diffusion Thermal diffusivity Activation techniques After high temperature Catalytic activation Copper heat spreader Copper layer Copper strike Flip chip Flip chip ball grid array Heat spreaders High temperature storage test Initial time Intermetallic diffusion Intermetallic layer Pure copper Semiconductor packages Thermal Performance Copper This paper presents the effects of two different catalytic activation techniques on the thermal performance of flip chip heat spreaders. The two activation techniques investigated are i) thin nickel-copper strike and ii) galvanic initiation. Thermal diffusivity of these heat spreaders was studied using the Nano-flash Apparatus [1]. High temperature storage tests were run to investigate the extent of intermetallic diffusion between the nickel and copper layers. The results obtained showed that heat spreaders processed with thin nickel-copper strike catalytic activation technique formed thick nickel-copper intermetallic layers compared to those processed with galvanic initiation. Nickel-copper intermetallic layers have lower thermal conductivity compared to pure copper [2]. As a result, heat spreaders processed with thin nickel copper strike have lower thermal diffusivity values averaged at 35-65W/mK XX compared to 60-85W/mK YY measured for those processed with galvanic-initiation. It is also discovered that the nickel-copper intermetallic layers of these heat spreaders grew thicker from 0.2?m at initial time until around 0.55?m after high temperature storage of 168 hours, further degrading the thermal diffusivity of these heat spreaders. As a conclusion, the galvanic initiation technique provides better thermal performance for heat spreaders used in semiconductor packages. Final 2023-12-29T07:55:50Z 2023-12-29T07:55:50Z 2008 Conference Paper 10.1109/IEMT.2008.5507785 2-s2.0-77955104271 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77955104271&doi=10.1109%2fIEMT.2008.5507785&partnerID=40&md5=1cc851eee520cc2f0f2677978ca6ec7f https://irepository.uniten.edu.my/handle/123456789/30917 5507785 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 Electronics packaging
Flip chip devices
Heating equipment
Mixed convection
Nickel
Nickel alloys
Soldering alloys
Spreaders
Thermal diffusion
Thermal diffusivity
Activation techniques
After high temperature
Catalytic activation
Copper heat spreader
Copper layer
Copper strike
Flip chip
Flip chip ball grid array
Heat spreaders
High temperature storage test
Initial time
Intermetallic diffusion
Intermetallic layer
Pure copper
Semiconductor packages
Thermal Performance
Copper
spellingShingle Electronics packaging
Flip chip devices
Heating equipment
Mixed convection
Nickel
Nickel alloys
Soldering alloys
Spreaders
Thermal diffusion
Thermal diffusivity
Activation techniques
After high temperature
Catalytic activation
Copper heat spreader
Copper layer
Copper strike
Flip chip
Flip chip ball grid array
Heat spreaders
High temperature storage test
Initial time
Intermetallic diffusion
Intermetallic layer
Pure copper
Semiconductor packages
Thermal Performance
Copper
Lim V.
Ahmad I.
Seng F.C.
Amin N.
Rasid R.
Characterization of nickel plated copper heat spreaders with different catalytic activation processes for flip-chip ball grid array package
description This paper presents the effects of two different catalytic activation techniques on the thermal performance of flip chip heat spreaders. The two activation techniques investigated are i) thin nickel-copper strike and ii) galvanic initiation. Thermal diffusivity of these heat spreaders was studied using the Nano-flash Apparatus [1]. High temperature storage tests were run to investigate the extent of intermetallic diffusion between the nickel and copper layers. The results obtained showed that heat spreaders processed with thin nickel-copper strike catalytic activation technique formed thick nickel-copper intermetallic layers compared to those processed with galvanic initiation. Nickel-copper intermetallic layers have lower thermal conductivity compared to pure copper [2]. As a result, heat spreaders processed with thin nickel copper strike have lower thermal diffusivity values averaged at 35-65W/mK XX compared to 60-85W/mK YY measured for those processed with galvanic-initiation. It is also discovered that the nickel-copper intermetallic layers of these heat spreaders grew thicker from 0.2?m at initial time until around 0.55?m after high temperature storage of 168 hours, further degrading the thermal diffusivity of these heat spreaders. As a conclusion, the galvanic initiation technique provides better thermal performance for heat spreaders used in semiconductor packages.
author2 26432767800
author_facet 26432767800
Lim V.
Ahmad I.
Seng F.C.
Amin N.
Rasid R.
format Conference Paper
author Lim V.
Ahmad I.
Seng F.C.
Amin N.
Rasid R.
author_sort Lim V.
title Characterization of nickel plated copper heat spreaders with different catalytic activation processes for flip-chip ball grid array package
title_short Characterization of nickel plated copper heat spreaders with different catalytic activation processes for flip-chip ball grid array package
title_full Characterization of nickel plated copper heat spreaders with different catalytic activation processes for flip-chip ball grid array package
title_fullStr Characterization of nickel plated copper heat spreaders with different catalytic activation processes for flip-chip ball grid array package
title_full_unstemmed Characterization of nickel plated copper heat spreaders with different catalytic activation processes for flip-chip ball grid array package
title_sort characterization of nickel plated copper heat spreaders with different catalytic activation processes for flip-chip ball grid array package
publishDate 2023
_version_ 1806423967938904064

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