low temperature bonding based on solder for flexible iot platforms kwang-seong choi, haksun lee,...
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Low Temperature Bonding Based on Solder for Flexible IoT Platforms
Kwang-Seong Choi, Haksun Lee, Hyun-Cheol Bae, and Yong-Sung Eom
2014. 10. 16.
IT Materials and Components Lab.
Kwang-Seong Choi, Slide 1
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Outline
Kwang-Seong Choi, Slide 2
I. IoT (Internet of Things)
II. Motivations
III. Bumping Process using Solder Bump Maker (SBM)
IV. Bonding Process using Fluxing Underfill
V. Resistance Comparison
VI. Summary
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IoT (Internet of Things)
Kwang-Seong Choi, Slide 3
Source: Microsoft
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Supply Chain of IoT
Kwang-Seong Choi, Slide 4
Source: Microsoft
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Device + Service + Software
Kwang-Seong Choi, Slide 5
Source: Microsoft
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Device + Service + Software
Kwang-Seong Choi, Slide 6
Source: Microsoft
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Devices for IoT
Kwang-Seong Choi, Slide 7
Source: Internet
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Packaging Technologies of Devices for IoT
Kwang-Seong Choi, Slide 8
Source: Internet
Human
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Packaging Technologies of Devices for IoT
Kwang-Seong Choi, Slide 9
Source: Internet
Human
Low cost Miniaturization High performance
Human-compatible Low cost High performance
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Sensors on Human Body
Kwang-Seong Choi, Slide 10
Source: Rogue Valley Microdevices
Blood monitoring Blood levels of sodium,
glucose, kidney func-tion, etc
Smart contact lens Controlling intra-ocu-
lar pressure levels Mounted on a flexible
substrate
Treatment and predic-tion of cardiac disor-ders
3D elastic membrane made of a soft, flexi-ble, silicon material
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Soft Assemblies of Sensors for the Skin
Kwang-Seong Choi, Slide 11
Source: Sheng Xu, et al. Science 344, 70 (2014)
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Motivations
Kwang-Seong Choi, Slide 12
Example of Flexible DisplaySource: Internet
One of the Technical Key words: Flexible
• Candidate Substrates
– PET (Tg = 67 to 81 )℃
– PEN (Tg = 120 )℃
– PES (Tg = 185 )℃
• Requirements for Interconnections
– Lower Bonding Temperature
e.g. Lower Than 150℃
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Motivations
Kwang-Seong Choi, Slide 13
ACF used as Interconnection Material for Display
Process Flow of ACF Bonding
Source: Internet
• Characteristics of ACF Bonding
– Randomly distributed particles
– Mechanical Contacts
– High Electrical Contact Resistance
– Reliability Issues
• Characteristics of ACF Bonding
– Randomly distributed particles
– Mechanical Contacts
– High Electrical Contact Resistance
– Reliability Issues
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Motivations
Kwang-Seong Choi, Slide 14
How to Reduce the Bonding Temperature?
How to Reduce the Electrical Contact Resistance?
Glass or FPCB
FPCB or Glass or IC
Heat, Pressure
Electrode
ACF
Conductive particles
Glass or FPCB
FPCB or Glass or IC
Glass or FPCB
FPCB or Glass or ICFluxing underfill
Electrode
Heat, Pressure
InSn solder
Glass or FPCB
FPCB or Glass or IC
ACF Bonding
Bonding using Solder and Fluxing Underfill
• Bumping Process?
• Bonding Process?
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Bumping Process using Solder Bump Maker (SBM)
Kwang-Seong Choi, Slide 15
Bumping Process
SnAgCu305
Ref.: Haksun Lee, et al, “Novel interconnection technology for flex-on-glass (FOG) applications,” EMPC 2013.
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Bonding Process using Fluxing Underfill
Kwang-Seong Choi, Slide 16
Bonding Process
Ref.: Haksun Lee, et al, “Novel interconnection technology for flex-on-glass (FOG) applications,” EMPC 2013.
Cross-sectional SEM of Bonded Joints
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Solder Bump Maker (SBM) Technology
Kwang-Seong Choi, Slide 17
Component Functions and Requirements
Polymer matrix- Carrying solder powder- Proper viscosity with temperature- Proper surface tensions
Deoxidizing agent and Additives
- Elimination of the oxide layer on the sol-der powder
- Minimal chemical reactions- No void formation- No out-gassing
Solder powder- Sn3.0Ag0.5Cu (SAC305), SnBi, 52InSn- Solder bump formation- Size distribution
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How to Reduce the Bonding Temperature?
Kwang-Seong Choi, Slide 18
Applying Nano-sized Solder Powder
Behavior of Melting Temp. of Nano powder
Source: Prof. Lee, SNUST
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How to Reduce the Bonding Temperature?
Kwang-Seong Choi, Slide 19
Applying Solder Alloy with Lower Melting Point
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Solder with Lower Melting Point
Kwang-Seong Choi, Slide 20
Tm : 84.35C
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Solder Powder
Kwang-Seong Choi, Slide 21
(> 38um) (20 ~ 38um)
(< 20um) (< 20um) 2nd Hopper
100um
100um
100um
100um
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Design of Test Vehicle
Kwang-Seong Choi, Slide 22
FPCB
Substrate FPCB + Cu OSP
Pad Length 2650 µm
Pad Pitch 243 µm
Pad Width 86 µm
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Maskless Printing Process using SBM
Kwang-Seong Choi, Slide 23
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Solder Bump Array
Kwang-Seong Choi, Slide 24
0 5 10 15 20 25 30 35 40 45 500
10
20
30
40
50
60
Bump number
Mea
sure
d H
eig
ht
[um
]
Number of bumps 46
Minimum height 23.1 µm
Maximum height 33.4 µm
Average height 27.44 µm
Standard Deviation 2.39
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SEM Images of Solder Bump Array
Kwang-Seong Choi, Slide 25
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Bonding Conditions
Kwang-Seong Choi, Slide 26
(a) Dispensing (b) Bonding (c) Post Cure
Bonding
Temp Ramp Hold Time Force
Upper 130ºC0.2ºC/sec. 180 sec. 200gf
(4gf / bump)Lower 130ºC
Post Cure(Hot Plate)
Temp Ramp Hold Time Force
Upper -
- 600 sec. 0gfLower 130ºC
FU130-LI20
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Cross-Sectional SEM Image
Kwang-Seong Choi, Slide 27
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Resistance Comparison
Kwang-Seong Choi, Slide 28
Solder ACF
Contact Re-sistance 0.21 mΩ 18.82 mΩ
ACFSolder
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Summary
Kwang-Seong Choi, Slide 29
For the flexible IoT flatform, the low temperature bonding is re-
quired to obtain the reliable interconnections.
Solder Bump Maker and Fluxing Underfill technologies are in-
troduced, and their features are low temperature process and low
electrical contact resistance.
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Kwang-Seong Choi, Slide 30
Thank you!Thank you!