mems development at maxim using sts vpx · sem micrographs sem micrograph for a 200- ... • no...
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MEMS Development at
Maxim Using STS VPX
Yaqiang Wang, Quanbo Zou, Dino Lei, Uppili Sridhar, and Tito Chowdhury
Dallas Semiconductor-Maxim4401 S. Beltwood Parkway
Dallas, TX 75244 www.maxim-ic.com
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Outline
• STS VPX Introduction
• MEMS Development Examples
• Summary
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STS VPX Platform
• Released January 2006, up to three process chambers
to share a common automated wafer transport platform
• Provide advanced high rate for silicon and compound
semiconductor DRIE
• Well-suited for pilot production markets to transfer
new device technology from R&D
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General Principle – ASE™ Bosch Process
CFx polymer
ASE Anisotropic Etching schematic (Top)
Typical STS ICPsystem schematic(Bottom)
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Maxim STS VPX System
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Process Development 1EtchCharacteristics
Specification STS UKResults
Dallas Results
Depth (μm) 200 227.3 188Etch Rate (μm/min) 10 10.3 11.8Uniformity ( ±%) 3 1.9 1.3Repeatability (%) 3 0.3 2.2Selectivity to PR 80:1 90:1 >90:1Profile ( º ) 90±1 90.7 91Initial Mask Undercut (μm/edge)
<1 0.52 0.3
Scalloping (nm) <500 352.4 438.8
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SEM Micrographs
SEM micrograph for a 200-μm-deep trench with 382 nm scalloping
(a) (b)
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Process Development 2EtchCharacteristics
Specification STS UKResults
Dallas Results
Depth (μm) 200 200 203Etch Rate (μm/min) >7 9.1 9.3Uniformity ( ±%) 3 1.3 1Repeatability (%) 3 1.3 1.1Selectivity to PR 60 72 >61:1Profile ( º ) 90±1 90.6 90.6Initial Mask Undercut (μm/edge)
<1 0.33 0.26
Scalloping (nm) <300 290.8 236.4
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SEM Micrographs
(a) (b)
SEM micrograph for a 200-μm-deep trench with 242 nm scalloping
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Process Development 3
EtchCharacteristics
Specification Dallas Results
Depth (μm) 100 101Etch Rate (μm/min) >10 12Uniformity ( ±%) 3 1.23Selectivity to PR 70:1 >78:1Profile ( º ) slightly positive 89.6Initial Mask Undercut (μm/edge)
<1.2 0.83
Scalloping (nm) <1000 800
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SEM Micrographs
(a) (b)
SEM micrograph for a 100-μm-deep trench with 600 nm scalloping
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Process Development 4
• 80-100 μm silicon DRIE on SOI substrate without
micro-grassing, good selectivity over oxide layer
• No notching issue at the interface of device silicon
layer and buried oxide layer
• ARDE ratio should be less than 2:1
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SEM Micrographs
(a) (b)
SOI 100-μm-deep release with 210 nm scalloping
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Other Development for Process 4
Positive slope
No ARDE effect for 50 μm etch
No notching at the silicon and oxide interface with ER 8 μm/min and selectivity to oxide over 200:1
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Production Implement Example • High throughput for Process 3 (100 μm trench): 5 wafer/hr, including loading, wafer transfer, and unloading.• Lot manufacturing is stable and meets IOS target
STS CV1 ETCH Lot2 Trend
100102104106108110112
0 5 10 15 20 25
Slot Number
Etch
Dep
th (u
m)
Top Center
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Current Issue for the VPX Platform •Wafer handling repeatability is not 100% guaranteed.
During a 1000-wafer handling test, thescheduler log showed anerror for wafer transfer ineither robot or aligner stagefor the No. 764 wafer.
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Summary
• High Etch Rate• High selectivity over oxide and photoresist• Good uniformity• Versatile tunable parameters provide the flexibility for varied MEMS device structures realization• Wafer handling repeatability is not so stable yet due to glitches in the operation software and Brooks Robot control
Powerful and convenient platform for MEMS production