1. MIDA X, the Next Generation in Optical Inspection
How Today’s QC-Systems Can Be Made More Powerful
Jochen Koenig
Schenk Vision Inspection Systems

2. Introducing Dr. Schenk
Base Material Inspection
Converted Material Inspection
Properties Monitoring
Summary

3. Dr. Schenk – The Solution Provider
Local defect detection & overall properties monitoring
Design & manufacture
Modular in-line and off-line inspection and measurement systems
Quality & process control of flat surfaces for the following industries:
Nonwoven Inspection
Textile Inspection
Paper Inspection
Plastic Inspection
Metal Inspection
Glass Inspection
Display & Touch Panel Inspection
Solar Inspection
Material Handling
Customized Solutions

4. Ready for Your Project

5. Production Line with In-Line Inspection
base film
after coating
Extrusion, .
Coating
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after drying
Drying

6. Quality & Process Control for Coated Materials
Final Inspection
of Base Material / Incoming Quality
Inclusions
Fish-eyes
Gels, Knots ...
Inspection of Converting Steps / Final Quality
Coating voids
Pinholes
Inclusions in coating layer
Bubbles
Coating streaks …
Production of Base Material
Converting of Material
Coating …
Blow Line
Castline
Extruder
Delivery to customer
Defect Detection
Grammage
Reflectivity, gloss
...
Layer thickness
Surface structures (haze)
...
Material Properties Monitoring 6

7. MIDA Camera Technology
System Configuration
Reflection Darkfield + Brightfield Transmission Brightfield
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Illumination
BRIGHT_LINE
MIDA Camera Technology
Material
Illumination
BRIGHT_LINE

8. MIDA: Single Camera – Multiple Illuminations
Example: combination reflection + transmission channels
Transmission
Material
Camera
Illumination for transmission
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Reflection
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Illumination for reflection
Reflection DF
Reflection HF
Transmission HF
High sensitivity for many different defects (e.g. inclusions, holes, contaminations, embossing defects, lines, cluster, wrinkles, …)
Comprehensive defect analysis for reliable defect classification
Only one camera - ► saves footprint and investment costs

9. EasyInspect with EasyMeasure is a complete & unique solution
One System – Two Tasks
Shared Hardware
Local Defects
Material Analysis
EasyInspect with EasyMeasure
is a complete & unique solution

10. Base Film: Detection of Local Defects
Introducing Dr. Schenk
Base Material Inspection
Converted Material Inspection
Properties Monitoring
Summary
Base Film: Detection of Local Defects

11. Inspection & Measurement of Plastic Films
Problem
Cause
Effect
Solution
Local defects
in base material
Gels, fisheyes:
P-gel (polymerization)
E-gel (extrusion)
Carbon specs (die pickoff)
Air bubbles
Striations (die-/weld-lines)
Scratches
Wrinkles
Insects
Roller marks
……..
Poor production process
Poor material quality
P-gels: bad incoming resin
E-gels: mostly unmelted / degraded resins
Poor crystallization
Inhomogeneous film, danger of tearing
Performance in end product (sealing capability of goods)
Cosmetic problems
Local Defect Detection
after coating
Coating voids
Pinholes
Inclusions
MD-Streaks
…….
Poor pre-treatment of base material
Particles on base material before coating
Defective coating die
Loss of coating function (e.g. sealing capability)
Problems with printing
Film / coating inhomogeneity
Layer thickness
Surface topology
Clarity of the film
Reflectivity
Poor material deposition
Poor surface of rollers
Inhomogeneous mixture of granulate with master batch (M.B.) (i.e. because of heavier M.B.)
Performance of end product
Cosmetic problem in end product
Film Properties Monitoring

12. Inspection Results Base Film
Material: Flexible Packaging Base Film
Defect: Particle, Inclusion
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Camera
RBF
RDF
TBF
Transmission Brightfield Reflection Brightfield Reflection Darkfield

13. Inspection Results Base Film
Material: Flexible Packaging Base Film
Defect: Gels
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Camera
TBF
Transmission Brightfield Transmission Brightfield
Knife Edge

14. Inspection Results Base Film
Material: Flexible Packaging Base Film
Defect: Wrinkles
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Camera
RBF
RDF
TBF
Transmission Brightfield Reflection Darkfield

15. Coated Film: Detection of Local Defects
Introducing Dr. Schenk
Base Material Inspection
Converted Material Inspection
Properties Monitoring
Summary
Coated Film: Detection of Local Defects

16. Examples for Defects and Inhomogeneities
Examples for local defects in coated films
Coating agglomeration
Inclusion, stain
Through hole
Stain, particle
Overcoated particle
Pinhole
Scratch
Coating layer
Plastic film
Examples for layer inhomogeneities in coated films
Variation in layer thickness
Variation in layer surface topology (haze)
Coating layer
Plastic film

17. Inspection & Measurement of Plastic Films
Problem
Cause
Effect
Solution
Local defects
in base material
Gels, fisheyes:
P-gel (polymerization)
E-gel (extrusion)
Carbon specs (die pickoff)
Air bubbles
Striations (die-/weld-lines)
Scratches
Wrinkles
Insects
Roller marks
……..
Poor production process
Poor material quality
P-gels: bad incoming resin
E-gels: mostly unmelted / degraded resins
Poor crystallization
Inhomogeneous film, danger of tearing
Performance in end product (sealing capability of goods)
Cosmetic problems
Local Defect Detection
after coating
Coating voids
Pinholes
Inclusions
MD-Streaks
…….
Poor pre-treatment of base material
Particles on base material before coating
Defective coating die
Loss of coating function (e.g. sealing capability)
Problems with printing
Film / coating inhomogeneity
Layer thickness
Surface topology
Clarity of the film
Reflectivity
Poor material deposition
Poor surface of rollers
Inhomogeneous mixture of granulate with master batch (M.B.) (i.e. because of heavier M.B.)
Performance of end product
Cosmetic problem in end product
Film Properties Monitoring

18. Inspection Results Coated Film
Material: Packaging film, coated
Defect: Spot / coating void
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Camera
RBF
TBF
Brightfield Transmission Brightfield Reflection

19. Inspection Results Coated Film
Material: Packaging film, coated
Defect: Coating void / particles
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Camera
RBF
RDF
Brightfield Reflection Darkfield Reflection

20. Inspection Results Coated Film
Material: Packaging film, coated
Defect: Oil contamination
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Camera
RBF
TBF
Transmission Brightfield Reflection Brightfield

21. Inspection Results Coated Film
Material: Packaging film, coated
Defect: Orange peel, gels
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Camera
TBF
Transmission Brightfield Transmission Brightfield/
Knife Edge

22. Inspection Results Coated Film
Material: Plastic film, waterbased coating
Defect: Dewetting
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Camera
RBF
RDF
Reflection Brightfield Reflection Darkfield

23. Inspection Results Coated Film
Material: Plastic film, extrusion coating
Defect: Coating streak
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Camera
RBF
Reflection Brightfield Reflection Brightfield
Streak detection
AWD

24. Inspection Results Coated Film
Material: Plastic film
Defect: Bubbles in extrusion coating
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Camera
RBF
RDF
TBF
Transmission Brightfield Reflection Brightfield Reflection Darkfield
AWD

25. Inspection Results Metallized Film
Material: Packaging Film / Metallized
Defect: Metal void, pinholes
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Camera
RBF
TBF
Transmission Brightfield Reflection Brightfield Knife Edge

26. MIDA → MIDA X: Closing the Intelligence Gap
The 1st revolution in optical inspection
The 2nd revolution in optical inspection
Hardware
Multi-CPU / GPU Architecture
Multi-Processor Technology
Software
Multi-threading capability
Architecture EXPLOITS hardware optimally

27. MIDA X: Visual Intelligence
The way to higher yield
Gray image with reduced noise
MIDA X: real defect size
Enhanced
evaluation

28. MIDA X: Visual Intelligence
MIDA X: Precise defect differentiation
Gray Image
Standard Inspection
MIDA X
Contamination
Insect

29. Dr. Schenk MCI Technology
Filter Mat / Nonwoven
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Conventional: white light + color line camera
MCI Technology: 3x more light ! Multi-Color-Illumination + monochrome line camera

30. Dr. Schenk MCI Technology
Filter Mat / Nonwoven
Conventional Color Camera
Dr. Schenk MCI Technology

31. EasyInspect with EasyMeasure is a complete & unique solution
One System – Two Tasks
Shared Hardware
Local Defects
Material Analysis
EasyInspect with EasyMeasure
is a complete & unique solution

32. Coated Film: Monitoring of Film Properties
Introducing Dr. Schenk
Base Material Inspection
Converted Material Inspection
Properties Monitoring
Summary
Coated Film: Monitoring of Film Properties

33. Inspection & Measurement of Plastic Films
Problem
Cause
Effect
Solution
Local defects
in base material
Gels, fisheyes:
P-gel (polymerization)
E-gel (extrusion)
Carbon specs (die pickoff)
Air bubbles
Striations (die-/weld-lines)
Scratches
Wrinkles
Insects
Roller marks
……..
Poor production process
Poor material quality
P-gels: bad incoming resin
E-gels: mostly unmelted / degraded resins
Poor crystallization
Inhomogeneous film, danger of tearing
Performance in end product (sealing capability of goods)
Cosmetic problems
Local Defect Detection
after coating
Coating voids
Pinholes
Inclusions
MD-Streaks
…….
Poor pre-treatment of base material
Particles on base material before coating
Defective coating die
Loss of coating function (e.g. sealing capability)
Problems with printing
Film / coating inhomogeneity
Layer thickness
Surface topology
Clarity of the film
Reflectivity
Poor material deposition
Poor surface of rollers
Inhomogeneous mixture of granulate with master batch (M.B.) (i.e. because of heavier M.B.)
Performance of end product
Cosmetic problem in end product
Film Properties Monitoring

34. Examples for Defects and Inhomogeneities
Examples for local defects in coated films
Coating agglomeration
Inclusion, stain
Through hole
Stain, particle
Overcoated particle
Pinhole
Scratch
Coating layer
Plastic film
Examples for layer inhomogeneities in coated films
Variation in layer thickness
Variation in layer surface topology (haze)
Coating layer
Plastic film

35. Monitoring Coating Thickness
Material: PET with coating
Samples: V0 V1 V2 V3 V4
Variation in coating layer thickness

36. In-Line Coating after MDO / Monitoring after TDO
MDO-stretching TDO -
Extrusion Coating stretching
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Coating after MDO, thickness 5 µm
Thickness after TDO:
Base film: 30 µm
Coating: 1000 nm
1000 nm ~1.200 Graylevels (GL) => 1 GL~ 0,8 nm

37. Homogeneity Map Material: Plastic film, extrusion coating
Defect: Flow lines
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Camera
RBF
RDF
Reflection Brightfield Reflection Darkfield
Gray Image Homogeneity Map
AWD

38. Monitoring Adhesive Coating / Tapes
Material: Coated paper
Defect: Gloss variation
Camera
RBF
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Gray image  homogeneity map  tile histgram map (e.g. as basis for histogram evaluation)
Reflection Brightfield

39. Film / Coating Properties Monitoring
Material: Battery electrode film
Monitoring of calandering
not
calandered
area
calandered
area
Camera
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Grayvalue count
RDF
Grayvalue count

40. Inspection Results Coated Film
Material: Plastic film
Defect: Missing adhesive
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Camera
RBF
RDF
Reflection Brightfield Reflection Darkfield
AWD

41. Summary and Conclusion
Advantages of AOI
Cost reduction in converting
In-line quality check prior to subsequent process steps
Increased Yield
Continuous monitoring of material/coating layer
 Process remains within process window
Consistent Performance
24 h/day + 7 days/week
ROI < 2 years
Based on customer experience depending on various factors

42. Summary and Conclusion
Delivery
to customer
Rejects
Production process
Quality data
Reports and statistics
Inline
quality
control
Process parmameters adaption
Process optimization
Inspection system
MES (Management
Execution System)
PIs (Performance Indicators)

44. Thank you for your attention
Jochen Koenig
Managing Director
Schenk Vision
Inspection Systems