review of new, flexible mems technology to reduce cost of
TRANSCRIPT
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Review of New, Flexible MEMS Technology to Reduce Cost of Test for
Multi-site Wire Bond Applications
Dan Stillman
Texas Instruments
Ben Eldridge
FormFactor
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Overview
• Project Background & Objective
• Probe spec - FFI
• Data Results - TI
– Planarity
– Thermal agility
– Pad damage
– Cres performance
– Yield performance
– Life time data
• Summary 2 Stillman/Eldridge
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Background
• Previously evaluated and released to production a new MEMS vertical technology for flip chip bumps
– Results presented at SWTW 2014 (S07_01_Stillman_5-28-2014)
• For wire bond applications, wanted to combine the strong operational performance of MEMS cantilever technology with the pad layout flexibility and repair –ability of MEMS vertical technology
• Leverage success of production worthiness of flip chip applications to expand design coverage for wire bond applications
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Motivation From Previous Work
4
• Conclusion from 2014 SWTW presentation
– Low-force MEMS Probe Card Technology, such as FormFactor’s K-Probe, demonstrated several advantages for solder flip-chip probing in high-volume production • Production stability for high pin counts, > 20,000 pins
• Scalability for multi-DUTs probing, >= 8 DUTs
• Long life-time, >2M touchdowns demonstrated
• Controlled Cres in production
– As flip-chip pitch continues to shrink, requiring finer vertical probes, MEMS probe technology is proven to be a viable path to continue lowering cost of test
• Extend the MEMS vertical spring technology to Al pad probing for wire bond applications
Stillman/Eldridge
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Project Objective
• Evaluate, then release to production a new MEMS vertical probe technology for Al pads
– Low force probe without sacrificing CCC
– Contact stability – tight planarity and CRES
– Thermal Agility –probe card stability with wide temperature range of -40oC to 140oC
– Minimal pad damage and ILD cracking
– Production support with field replaceable probes
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Basic Spring Performance
6
Probe Force vs. Over Travel
6 probes
measured at once
Full Probe cycle of being compressed
and released
Data after 1.5M cycles
Stillman/Eldridge
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Basic Spring Performance
7
ISMI Current Carrying Capacity performance of low force vertical spring
Data after 1.5M cycles
Stillman/Eldridge
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Qualification Results
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Auto Z Performance
9
< 20um planarity
• Probe card layout – x8, 1256 springs, 608 mm2 array
Stillman/Eldridge
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• Once the card gets to temp, thermal movement is very stable
Thermal Agility
10
-40oC 140oC
X, Y and Z optical movement under 10 um across 35 wafers
X, Y and Z optical movement under 20 um across 9 wafers
Stillman/Eldridge
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Minimal Pad Damage
• Probing at 80um OT
11 Stillman/Eldridge
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AVI Performance (Automated Visual Inspection of Pad Damage)
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Dielectric Cracking & Punch Through
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Max CRES – Production Data
14
Much tighter CRES distribution compared to non-MEMS vertical probe cards
Stillman/Eldridge
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CRES Over Time
15
100K TD Life
time testing
Stillman/Eldridge
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Much tighter yield distribution compared to non-MEMS vertical
probe
Yield Comparison
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Life Time Data
• Initial projects of ~1M TD lifetime in production 17
Number of TD 100,000 Tip Length Loss (um) 2.0
Tip loss for 500k (um) 10.0 Usable Tip Length (um) 19.0
Projected TD Life 950,000
Probe Settings: Production wafers in demo mode
- 33 TDs per wafer
Production cleaning and over travel
32 probes measured across array
- Very aggressive test
Stillman/Eldridge
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Summary • Production performance stand out
– Production performance
• Planarity
• Thermal agility over wide temperature range
• Minimal pad damage, stable AVI and no ILD cracking
• CRES and Yield
• Lifetime
• Compelling new technology to replace existing high volume technologies
• Flexible MEMS Technology to Reduce Cost of Test for Multi-site Wire Bond Applications
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Acknowledgement
• Al Wegleitner, Texas Instruments
• Frank Meza, FormFactor
• Doug Shuey, FormFactor
• Kevin Hughes, FormFactor
19 Stillman/Eldridge