3D-MEMS Probe for Fine Pitch Probing - Semiconductor Wafer Test ...

3D-MEMS Probe for 

Fine Pitch Probing 

Ryuichiro Mori 

R&D 

Japan Electronic Materials Corp. 

June 3-6, 3 

2007 IEEE SW Test Workshop 1

Presentation Overview 

1. Introduction 

• JEM product overview 

2. Objectives 

• Challenges in fine pitch probing 

• Development of 3D-MEMS probe 

3. Evaluation 

• Individual fine pitch cantilever 

• Actual probe layout 

4. Conclusions 

5. Next steps 

June 3-6, 3 


1. Introduction 

June 3-6, 3 


JEM Product Overview 

MPU-Logic 

MB series 

Fine pitch Logic 

(SoC/LCD-driver) 

VS series 

MA series 

Memory 

CEN series 

Cantilever 

(CE series) 

VC series 

MC series 

Cantilever 

Vertical 

MEMS 

Innovation of Device- & Test- technology 

June 3-6, 3 


Application of 3D-MEMS probe (MA) 

Straight 24μm pitch 

Staggered 20μm pitch 

500μm 

LCD-driver 

June 3-6, 3 


2. Objectives 

June 3-6, 3 


Challenges in Fine Pitch Probing 

• LCD-driver 

– Pad pitch shrink 

•20μm staggered, 24μm inline 

– Stable contact with low force 

– Avoid gold bump damage 

– Multi dut probing 

June 3-6, 3 


Challenges in Fine Pitch Probing 

•SoC 

– Pad pitch shrink 

• 30μm pitch 

– Stable contact with low force 

– Avoid pad damage 

•Low-k 

• CUP (Circuit Under Pad) 

– Multi dut Probing 

June 3-6, 3 


Development of 3D-MEMS Probe 

• Develop fine pitch cantilever 

with mechanical endurance 

• Achieve lower contact force 

with good contact resistance 

• Achieve precise xyz alignment 

in actual probe layout 

June 3-6, 3 


3. Evaluation 

June 3-6, 3 


3D-MEMS Probe Process 

Sacrificial layer 

on substrate 

Sacrificial layer 

Substrate 

Probe 

on sacrificial layer 

Remove 

sacrificial layer 

Contact tip 

Probe 

Substrate 

Substrate 

June 3-6, 3 


SEM Image of Fine Pitch 

Cantilever 

June 3-6, 3 


Evaluation Items 

•Individual fine pitch cantilever 

•Contact force/Scrub mark/OT 

•Contact resistance 

•Contact tip wear 

•Actual probe layout 

•XY alignment 

•Planarity 

•Actual device 

June 3-6, 3 


Contact Force / Scrub Mark / OT 

0.7 

7 

Contact force(gf) 

0.6 

0.5 

0.4 

0.3 

0.2 

0.1 

0 

0 

0.0 5.0 10.0 15.0 20.0 25.0 30.0 35.0 40.0 45.0 

Over travel(um) 

Max. Contact Force 

Min. Contact Force 

Scrub mark 

6 

5 

4 

3 

2 

1 

Scrub mark(um) 

June 3-6, 3 


Cres (Ω) 

Contact Resistance(Au Plated 

1.00 

0.90 

0.80 

0.70 

0.60 

0.50 

0.40 

0.30 

0.20 

0.10 

0.00 

Wafer) 

0.00 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 

Probe Force(g) force Tip material 

June 3-6, 3 

2007 IEEE SW Test Workshop 15 

A 

B 

C 

D 

E 

F

Contact Tip Wear 

Contact tip abrasion(um) 

wear(um) 

3 

2 

1 

0 

0 300 500 700 1000 

Touch Down down (thousands) 

Contact Tip 

Wear 

June 3-6, 3 


Image of Contact Tip Wear 

TD : 0 TD : 300,000 TD : 500,000 

TD : 700,000 

TD:1,000,000 

No significant change 

was observed after 

1M touchdowns 

(no cleaning) 

June 3-6, 3 


Actual Probe Layout 

18mm 

25μm pitch 

staggered 

Total 900probes 

June 3-6, 3 


SEM Image of Probes 

June 3-6, 3 


XY Alignment (Initial) 

10 

8 

6 

4 

Target 

2 

⊿Y [μm ] 

0 

-10 -8 -6 -4 -2 -2 

0 2 4 6 8 10 

-4 

-6 

-8 

-10 

⊿X [μm ] 

June 3-6, 3 


XY Alignment (after 1M TD) 

10 

8 

6 

4 

2 

Target 

⊿Y [μm ] 

0 

-10 -8 -6 -4 -2 -2 

0 2 4 6 8 10 

-4 

-6 

-8 

-10 

⊿X [μm ] 

June 3-6, 3 


Planarity (Initial) 

20 

15 

Planarity [μm ] 

10 

5 

0 

-10 -5 -5 

0 5 

Target 

10 

-10 

-15 

-20 

Probe X position [mm] 

June 3-6, 3 


Planarity (After 1M TD) 

20 

15 

Planarity [μm ] 

10 

5 

Target 

0 

-10 -5 -5 

0 5 10 

-10 

-15 

-20 

Probe X position [mm] 

June 3-6, 3 


Evaluation on Actual Device 

•Prober setup was done very well. 

•Alignment 

•Tip recognition 

•Planarity 

•Contact 

•Electrical function test was 

completed. 

June 3-6, 3 


4. Conclusions 

June 3-6, 3 


Conclusions 

1. Fine pitch cantilever (MA) has been 

developed by using the 3D-MEMS 

probe technology. 

2. Excellent contact with low force (0.2gf) 

against Au plated wafer. 

3. Mechanical stability over 1M 

touchdowns has been achieved. 

4. Evaluation on the actual device has 

been demonstrated. 

June 3-6, 3 


5. Next Steps 

June 3-6, 3 


Next Steps 

1. Proceed the MA card into a volume 

production 

2. Apply for SoC devices 

Optimize probe design, probe force, 

probe material, probe layout 

3. Improve the assembly technology for 

multi-DUT probing 

4. Next target for LCD-driver 

15μm staggered, 20μm inline 

June 3-6, 3 


Thank You. 

June 3-6, 3

3D-MEMS Probe for Fine Pitch Probing - Semiconductor Wafer Test ...

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