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Impress

Publisher / Manufacturer

Vision & Control GmbH

Mittelbergstraße 16

98527 Suhl, Germany

Telephone: +49 (0) 3681 7974-0

Telefax: +49 (0) 3681 7974-33

www.vision-control.com

Name of the document

999.995.980.10-en-1.1

Date of first issue

2022-03-09

Date modified

2022-03-15

Copyright

© Vision & Control GmbH 2022

Copyright

It is forbidden to pass this document on to third parties, reproduce and

communicate its contents in as far as this has not been expressly authorized.

Offenders will be liable for damages.
All rights are reserved with respect to patent, utility sample and design patent

registrations, as well as for rights of use within the scope of copyright.
vicotar

®

, vicolux

®

, pictor

®

, vicosys

®

 and vcwin

®

 are registered trademarks of

Vision & Control GmbH.
The products and brand names of other manufacturers or suppliers are

mentioned for information only.

2

--

© Vision & Control GmbH 2022

Summary of Contents for TO44/11.0-110-V-B

Page 1: ... V B Telecentric measurement lens Blue Vision especially colour op timized for the blue spectrum Instructions for Use TO44 11 0 110 V B Telecentric measurement lens Blue Vision especially colour op timized for the blue spectrum 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 2: ...s this document on to third parties reproduce and communicate its contents in as far as this has not been expressly authorized Offenders will be liable for damages All rights are reserved with respect to patent utility sample and design patent registrations as well as for rights of use within the scope of copyright vicotar vicolux pictor vicosys and vcwin are registered trademarks of Vision Contro...

Page 3: ...roduct Identification Designation Description TO Telecentric measurement lens 44 Maximum object field diameter in mm 11 0 Maximum image sensor diagonal in mm 110 Working distance in mm V Variable aperture B Spectral range 400 nm 900 nm visible light optimized at 450 nm 490 nm B blue light Vision Control GmbH 2022 3 ...

Page 4: ...e device 17 5 Technical Data 18 5 1 General Parameters 18 5 2 Optical Parameters 20 5 2 1 Resolution 21 5 2 2 Depth of field 24 5 2 3 Absolute Distortion 25 5 2 4 Telecentricity 26 5 3 Optical characteristics design data 27 5 3 1 MTF depending on the Spatial Frequency 28 5 3 2 MTF depending on the Object Field 37 5 3 3 Lateral chromatic aberration 46 5 3 4 Longitudinal Chromatic Aberration 46 5 3 ...

Page 5: ...0 MTF spatial frequency dependent 525 nm F8 31 11 MTF spatial frequency dependent 525 nm F11 31 12 MTF spatial frequency dependent 525 nm F16 32 13 MTF spatial frequency dependent 635 nm F8 32 14 MTF spatial frequency dependent 635 nm F11 33 15 MTF spatial frequency dependent 635 nm F16 33 16 MTF spatial frequency dependent 850 nm F8 34 17 MTF spatial frequency dependent 850 nm F11 34 18 MTF spati...

Page 6: ...F object field dependent 850 nm F11 43 36 MTF object field dependent 850 nm F16 44 37 MTF object field dependent 450 nm 620 nm F8 44 38 MTF object field dependent 450 nm 620 nm F11 45 39 MTF object field dependent 450 nm 620 nm F16 45 40 Lateral chromatic aberration wavelength dependent 46 41 Longitudinal chromatic aberration wavelength dependent 46 42 Distortion wavelength dependent 47 43 Vignett...

Page 7: ...tions of use carefully and keep them for future reference 1 1 Intended Use The device is intended exclusively for use as an imaging element for industrial image processing The device is intended for use in a confined environment The device may only be used if it is in technically faultless condition and only for its intended purpose and only in accordance with the specifications in this instructio...

Page 8: ... which are not original parts from the manufacturer Using incompatible accessory components Improper maintenance and repair works Unauthorised modifications to the device 1 3 Qualified Personnel The device may only be assembled commissioned operated maintained installed set up cleaned repaired and transported by qualified skilled personnel A qualified person is deemed to be someone who has been tr...

Page 9: ...ual and rejects any warranty derived therefrom Within the bounds of the legal requirements the manufacturer shall only be responsible for the technical safety characteristics of the device if the maintenance repairs and modifications to the device are performed by himself or by authorised skilled personnel in accordance with his instructions Loss of warranty The manufacturer shall accept no liabil...

Page 10: ...es of the danger These measures must be taken DANGER Indicates an imminent danger with high risk resulting in severe injuries or death if not avoided WARNING Indicates a hazardous situation with medium risk possibly resulting in severe injuries or death if not avoided CAUTION Indicates a hazardous situation with low risk resulting in minor or medium injuries if not avoided NOTICE Indicates a situa...

Page 11: ...instructions are referred to separately at the relevant points in this manual CAUTION Eye damage Do not look directly through the lens CAUTION Cutting injuries caused by glass breakage The lenses of the objective are made of glass Protect the objective against impact and do not drop it In case of glass breakage do not touch any breakage edges In case of glass breakage use cut resistant protective ...

Page 12: ...ngs with 32 mm clamping diameter for vibration free attachment 2 90 122 Deflection mirror Designation Description Order no Deflection mirror 90 56 90 deflection attachment for telecentric lens es and lightings with 56 mm front diameter 2 25 115 Beam Splitter Unit Designation Description Order no STE60x60 VIS Beam splitter unit merges the optical axis of the lens or camera with the axis oft the lig...

Page 13: ...o Adjustment aid 10 for easy adjustment to 10 mm depth of field for image scale 0 5 0 2 5 10 112 Adjustment aid 20 for easy adjustment to 20 mm depth of field for image scale 0 2 0 1 5 10 113 CS to C mount adapter Extension rings Designation Description Order no CS to C mount adapter 5 0 mm for connecting C mount lenses with CS mount cameras length 5 mm 2 90 414 Extension tube set C mount consist ...

Page 14: ...ter in the range from 350 nm to 600 nm 2 91 290 Colour filter green M52x0 75 Band pass filter in the range from 430 nm to 620 nm 2 91 303 Colour filter yel low M52x0 75 Long pass filter with edge length λ 530 nm 2 91 277 Pole filter M52x0 75 Linear polarizing filter in the range of 420 nm to 780 nm 2 91 144 ND filter 0 6 M52x0 75 Optical density 0 6 25 transmission f stop reduction 2 2 91 154 ND f...

Page 15: ...ilter from 830 nm daylight absorb ing filter 2 91 131 Colour filter red M20 5x0 5 Long pass filter with edge length λ 630 nm 2 91 259 ND filter 0 6 M20 5x0 5 Optical density 0 6 25 transmission f stop reduction 2 2 91 151 ND filter 1 2 M20 5x0 5 Optical density 1 2 6 3 transmission f stop reduction 4 2 91 161 ND filter 3 0 M20 5x0 5 Optical density 3 0 0 1 transmission f stop reduction 10 2 91 171...

Page 16: ...w 1 Filter thread M52x0 75 4 C mount camera connection 2 Type plate 5 Filter thread M20 5x0 5 3 Aperture setting ring 6 Contact edge camera 4 2 Operating Elements The device provides a rotatable aperture setting ring with fixation for adjusting the aperture 16 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 17: ... 3 Notices on the device Type plate Type TO44 11 0 110 V B SN XXXXXXXX Type TO44 11 0 110 V B SN XXXXXXXX 2 3 1 Image 2 Type plate 1 Position on the lens 2 Device designation 3 Serial number Vision Control GmbH 2022 999 995 980 10 en 1 1 17 ...

Page 18: ... mm Diameter aperture ring 35 mm Clamping diameter 56 mm und 32 mm Filter thread object side M52 x 0 75 Filter thread camera side M20 5 x 0 5 Lens mount C mount Camera distance 310 mm working distance and lens length Flange focal distance 17 526 mm Aperture Variable F8 F22 Maximum object field diagonal 44 mm Maximum image field diagonal 11 0 mm Maximum sensor size 2 3 Weight 328 g 18 999 995 980 1...

Page 19: ...0 mm 1 1 8 7 2 mm 5 4 mm 8 mm 1 2 6 4 mm 4 8 mm 6 0 mm 1 3 4 8 mm 3 6 mm 4 1 mm 1 4 3 4 mm 2 2 mm Sensor Object field Type Size Diagonal Size 2 3 8 8 mm x 6 6 mm 11 0 mm 35 2 mm x 26 4 mm 1 1 8 7 2 mm x 5 4 mm 9 0 mm 28 8 mm x 21 6 mm 1 2 6 4 mm x 4 8 mm 8 0 mm 25 6 mm x 19 2 mm 1 3 4 8 mm x 3 6 mm 6 0 mm 19 2 mm x 14 4 mm 1 4 3 4 mm x 2 2 mm 4 1 mm 13 6 mm x 8 8 mm Vision Control GmbH 2022 999 99...

Page 20: ...m 900 nm visible light optimized at 450 nm 490 nm blue light Effective F number F8 F22 Object sided numerical aperture 0 0057 0 0213 Image sided numerical aperture 0 0227 0 0848 Image scale 0 250 Working distance 110 2 mm Image length 327 4 mm 20 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 21: ...50 LP mm 44 51 52 59 55 60 70 LP mm 34 28 43 09 46 31 Green 525 nm 100 LP mm 25 20 32 84 36 15 50 LP mm 43 04 47 22 48 41 70 LP mm 28 14 32 36 33 66 Red 635 nm 100 LP mm 21 83 24 63 25 50 50 LP mm 41 76 43 23 43 49 70 LP mm 30 79 31 79 31 95 Infrared 850 nm 100 LP mm 14 77 17 80 19 28 50 LP mm 35 33 43 86 47 34 70 LP mm 23 85 30 26 33 28 White 450 650 nm 100 LP mm 13 02 17 93 20 06 Vision Control ...

Page 22: ...mm 46 69 49 21 50 22 70 LP mm 32 51 34 82 35 79 Green 525 nm 100 LP mm 21 89 23 17 23 70 50 LP mm 34 46 35 46 35 86 70 LP mm 23 10 23 79 24 07 Red 635 nm 100 LP mm 14 65 14 86 14 95 50 LP mm 31 89 31 82 31 75 70 LP mm 19 26 19 22 19 19 Infrared 850 nm 100 LP mm 1 74 1 76 1 79 50 LP mm 36 68 39 67 40 96 70 LP mm 22 20 24 64 25 76 White 450 650 nm 100 LP mm 13 27 14 73 15 43 22 999 995 980 10 en 1 1...

Page 23: ...74 13 84 13 88 50 LP mm 40 86 41 43 41 68 70 LP mm 25 61 25 93 26 07 Green 525 nm 100 LP mm 7 23 7 25 7 26 50 LP mm 31 63 31 76 31 82 70 LP mm 15 90 15 93 15 95 Red 635 nm 100 LP mm 50 LP mm 19 09 19 06 19 05 70 LP mm 1 02 1 05 1 08 Infrared 850 nm 100 LP mm 50 LP mm 36 90 37 79 38 19 70 LP mm 22 54 23 14 23 41 White 450 650 nm 100 LP mm 7 81 7 93 7 98 Vision Control GmbH 2022 999 995 980 10 en 1 ...

Page 24: ... 5 20 mm 5 70 mm 20 LP mm 12 90 mm 13 20 mm 13 40 mm White 450 650 nm 50 LP mm 5 10 mm 5 60 mm 5 70 mm Aperture F11 Image field diagonal Spectral range spatial fre quency 11 0 mm 8 0 mm 6 0 mm 20 LP mm 17 80 mm 17 90 mm 18 30 mm Blue 470 nm 50 LP mm 7 50 mm 7 70 mm 8 10 mm 20 LP mm 17 70 mm 18 00 mm 18 40 mm Green 525 nm 50 LP mm 7 40 mm 7 70 mm 8 20 mm 20 LP mm 17 60 mm 18 20 mm 18 70 mm Red 635 ...

Page 25: ...P mm 27 60 mm 28 50 mm 29 10 mm Red 635 nm 50 LP mm 12 30 mm 13 30 mm 13 90 mm 20 LP mm 29 00 mm 30 20 mm 30 90 mm Infrared 850 nm 50 LP mm 20 LP mm 26 20 mm 27 00 mm 27 70 mm White 450 650 nm 50 LP mm 11 10 mm 11 30 mm 12 10 mm 5 2 3 Absolute Distortion Image field diagonal Spectral range 11 0 mm 8 0 mm 6 0 mm Blue 470 nm 0 0870 0 0108 0 0025 Green 525 nm 0 0653 0 0013 0 0073 Red 635 nm 0 0647 0 ...

Page 26: ...470 nm 0 0309 0 0545 0 0670 Green 525 nm 0 0454 0 1068 0 1051 Red 635 nm 0 1416 0 1727 0 1533 Object side telecen tricity angle φ Infrared 850 nm 0 2387 0 2394 0 2020 Image resizing at 1 mm object depth Blue 470 nm 0 27 μm 0 48 μm 0 59 μm Image resizing at 10 mm object depth Blue 470 nm 2 70 μm 4 76 μm 5 85 μm 26 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 27: ... of optical characteristics 1 Image plane 4 Image field 2 Image centre axis points 5 Line grid tangential T 3 Image sensor 6 Line grid sagittal S ADVICE The following design data was determined with the optics design software Zemax The values refer to the image space Vision Control GmbH 2022 999 995 980 10 en 1 1 27 ...

Page 28: ...00 0 10 20 30 40 70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 4 MTF spatial frequency dependent 450 nm 490 nm F8 Spatial Frequency LP mm 0 0 2 0 4 0 6 0 8 1 Diff Limit Object Field Height mm MTF 60 80 100 0 10 20 30 40 70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 5 MTF spatial frequency dependent 450 nm 490 nm F11 28 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 29: ... 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 6 MTF spatial frequency dependent 450 nm 490 nm F16 Spatial Frequency LP mm 0 0 2 0 4 0 6 0 8 1 Diff Limit Object Field Height mm MTF 60 80 100 0 10 20 30 40 70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 7 MTF spatial frequency dependent 470 nm F8 Vision Control GmbH 2022 999 995 980 10 en 1 1 29 ...

Page 30: ... 70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 8 MTF spatial frequency dependent 470 nm F11 Spatial Frequency LP mm 0 0 2 0 4 0 6 0 8 1 Diff Limit Object Field Height mm MTF 60 80 100 0 10 20 30 40 70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 9 MTF spatial frequency dependent 470 nm F16 30 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 31: ...70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 10 MTF spatial frequency dependent 525 nm F8 Spatial Frequency LP mm 0 0 2 0 4 0 6 0 8 1 Diff Limit Object Field Height mm MTF 60 80 100 0 10 20 30 40 70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 11 MTF spatial frequency dependent 525 nm F11 Vision Control GmbH 2022 999 995 980 10 en 1 1 31 ...

Page 32: ...70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 12 MTF spatial frequency dependent 525 nm F16 Spatial Frequency LP mm 0 0 2 0 4 0 6 0 8 1 Diff Limit Object Field Height mm MTF 60 80 100 0 10 20 30 40 70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 13 MTF spatial frequency dependent 635 nm F8 32 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 33: ...70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 14 MTF spatial frequency dependent 635 nm F11 Spatial Frequency LP mm 0 0 2 0 4 0 6 0 8 1 Diff Limit Object Field Height mm MTF 60 80 100 0 10 20 30 40 70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 15 MTF spatial frequency dependent 635 nm F16 Vision Control GmbH 2022 999 995 980 10 en 1 1 33 ...

Page 34: ...70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 16 MTF spatial frequency dependent 850 nm F8 Spatial Frequency LP mm 0 0 2 0 4 0 6 0 8 1 Diff Limit Object Field Height mm MTF 60 80 100 0 10 20 30 40 70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 17 MTF spatial frequency dependent 850 nm F11 34 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 35: ...90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 18 MTF spatial frequency dependent 850 nm F16 Spatial Frequency LP mm 0 0 2 0 4 0 6 0 8 1 Diff Limit Object Field Height mm MTF 60 80 100 0 10 20 30 40 70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 19 MTF spatial frequency dependent 450 nm 620 nm F8 Vision Control GmbH 2022 999 995 980 10 en 1 1 35 ...

Page 36: ...0 10T 10S 15T 15S 22 T 22 S 0 T S Image 20 MTF spatial frequency dependent 450 nm 620 nm F11 Spatial Frequency LP mm 0 0 2 0 4 0 6 0 8 1 Diff Limit Object Field Height mm MTF 60 80 100 0 10 20 30 40 70 90 50 10T 10S 15T 15S 22 T 22 S 0 T S Image 21 MTF spatial frequency dependent 450 nm 620 nm F16 36 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 37: ...T 20 S 40 T 40 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 22 MTF object field dependent 450 nm 490 nm F8 0 2 0 4 0 6 0 8 1 Object Field Height mm Spatial Frequency LP mm 11 0 13 2 15 4 22 0 0 2 2 4 4 6 6 8 8 17 6 19 8 MTF 20 T 20 S 40 T 40 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 23 MTF object field dependent 450 nm 490 nm F11 Vision Control GmbH 2022 999 995 980 10 en 1 1 37 ...

Page 38: ... 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 24 MTF object field dependent 450 nm 490 nm F16 0 2 0 4 0 6 0 8 1 Object Field Height mm Spatial Frequency LP mm 11 0 13 2 15 4 22 0 0 2 2 4 4 6 6 8 8 17 6 19 8 MTF 20 T 20 S 40 T 40 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 25 MTF object field dependent 470 nm F8 38 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 39: ...0 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 26 MTF object field dependent 470 nm F11 0 2 0 4 0 6 0 8 1 Object Field Height mm Spatial Frequency LP mm 11 0 13 2 15 4 22 0 0 2 2 4 4 6 6 8 8 17 6 19 8 MTF 20 T 20 S 40 T 40 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 27 MTF object field dependent 470 nm F16 Vision Control GmbH 2022 999 995 980 10 en 1 1 39 ...

Page 40: ...0 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 28 MTF object field dependent 525 nm F8 0 2 0 4 0 6 0 8 1 Object Field Height mm Spatial Frequency LP mm 11 0 13 2 15 4 22 0 0 2 2 4 4 6 6 8 8 17 6 19 8 MTF 20 T 20 S 40 T 40 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 29 MTF object field dependent 525 nm F11 40 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 41: ...0 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 30 MTF object field dependent 525 nm F16 0 2 0 4 0 6 0 8 1 Object Field Height mm Spatial Frequency LP mm 11 0 13 2 15 4 22 0 0 2 2 4 4 6 6 8 8 17 6 19 8 MTF 20 T 20 S 40 T 40 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 31 MTF object field dependent 635 nm F8 Vision Control GmbH 2022 999 995 980 10 en 1 1 41 ...

Page 42: ...0 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 32 MTF object field dependent 635 nm F11 0 2 0 4 0 6 0 8 1 Object Field Height mm Spatial Frequency LP mm 11 0 13 2 15 4 22 0 0 2 2 4 4 6 6 8 8 17 6 19 8 MTF 20 T 20 S 40 T 40 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 33 MTF object field dependent 635 nm F16 42 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 43: ...0 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 34 MTF object field dependent 850 nm F8 0 2 0 4 0 6 0 8 1 Object Field Height mm Spatial Frequency LP mm 11 0 13 2 15 4 22 0 0 2 2 4 4 6 6 8 8 17 6 19 8 MTF 20 T 20 S 40 T 40 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 35 MTF object field dependent 850 nm F11 Vision Control GmbH 2022 999 995 980 10 en 1 1 43 ...

Page 44: ... 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 36 MTF object field dependent 850 nm F16 0 2 0 4 0 6 0 8 1 Object Field Height mm Spatial Frequency LP mm 11 0 13 2 15 4 22 0 0 2 2 4 4 6 6 8 8 17 6 19 8 MTF 20 T 20 S 40 T 40 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 37 MTF object field dependent 450 nm 620 nm F8 44 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 45: ...T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 38 MTF object field dependent 450 nm 620 nm F11 0 2 0 4 0 6 0 8 1 Object Field Height mm Spatial Frequency LP mm 11 0 13 2 15 4 22 0 0 2 2 4 4 6 6 8 8 17 6 19 8 MTF 20 T 20 S 40 T 40 S 50 T 50 S 60 T 60 S 70 T 70 S 80 T 80 S 0 Image 39 MTF object field dependent 450 nm 620 nm F16 Vision Control GmbH 2022 999 995 980 10 en 1 1 45 ...

Page 46: ... 20 Object Field Height mm Deviation µm Wavelength Image 40 Lateral chromatic aberration wavelength dependent 5 3 4 Longitudinal Chromatic Aberration Wavelength nm Deviation µm 450 460 470 480 490 0 4 8 12 16 20 20 16 12 8 4 Image 41 Longitudinal chromatic aberration wavelength dependent 46 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 47: ...25nm 0 2 0 2 Object Field Height mm Distortion Wavelength Image 42 Distortion wavelength dependent 5 3 6 Vignetting 0 0 2 0 4 0 6 0 8 15 4 17 6 19 8 22 0 0 2 2 6 6 11 0 13 2 1 4 4 8 8 Relative Illumination Object Field Height mm Image 43 Vignetting Vision Control GmbH 2022 999 995 980 10 en 1 1 47 ...

Page 48: ...erences Do not subject the device to large temperature fluctuations After storage and transport allow the device to adjust slowly to the ambient temperature at the place of use Do not remove the covering caps during the acclimatisation to prevent the formation of condensation water Observe the specified ambient conditions when transporting and storing the device For accessories connected devices a...

Page 49: ...44 11 0 110 V B 57 96 138 152 201 22 3 8 1 2 3 4 5 1 2 3 4 5 A A B B C C D D clamping area Ø32 g7 clamping area Ø32 g7 aperture ring Ø35 clamping area Ø56 g7 M3 locking screw contact edge camera Valid for Mittelbergstraße 16 98527 Suhl Ø 25 4 1 C Mount Image 44 Technical Drawings dimensions in mm Vision Control GmbH 2022 999 995 980 10 en 1 1 49 ...

Page 50: ...y after complete installation and shortly before use at the place of use 4 Dispose or store the packaging material 6 2 Mounting Assembly regions 1 2 3 5 4 Image 45 Assembly regions 1 Filter thread M52x0 75 depth 6 9 mm 2 Clamping area diameter 56 mm 3 Clamping area diameter 32 mm 4 Filter thread M20 5x0 5 depth 6 0 mm 5 C mount thread 1 32 UN 2A 50 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 51: ...n the clamping area 3 Tighten the socket head cap screws of the objective holder by hand 6 2 2 Mounting of filters Lens filters are connected to the lens via the filter connection 1 Insert the filter into the filter thread of the lens 2 Screw the filter to the lens hand tight 6 2 3 Mounting at the camera The lens is connected to a suitable camera via the C mount connector 1 Attach the lens to the ...

Page 52: ...ge of the lens to the test object Mount the lens at this working distance above the test object ADVICE Optical elements e g filters protective glasses deflecting mirrors and mechanical accessories can slightly change the working distance working distance test object lens Image 46 Illustrative sketch working distance 52 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 53: ...4 Image 47 Adjusting the aperture 1 Aperture setting ring 2 Scale ring 3 Marking 4 Aperture scale 5 M3 Locking screw 1 Loosen the locking screws 5 on the aperture setting ring 1 using the enclosed tool scope of delivery 2 Turn the marking 3 on the aperture setting ring to the desired aperture number of the aperture scale 4 on the scale ring 2 3 Hand tighten the locking screws again Vision Control ...

Page 54: ...eep the lens away from foreign objects dusts mist water splashes or similar during operation These substances can damage the optical surfaces Vapours may be permanently deposited on the front lens and affect imaging performance If possible use the covering caps scope of delivery outside the factory to protect against foreign objects 54 999 995 980 10 en 1 1 Vision Control GmbH 2022 ...

Page 55: ...the support When cleaning the outside cover the lenses with the caps scope of delivery Perform cleaning operations on optics in bright dust free dry wind and weather proof workplaces When cleaning the lenses wear clean dust lint and grease free gloves Do not apply cleansers directly to the housing or the lens Do not bathe the device Cleaning the outside non optical surfaces Clean the outside with ...

Page 56: ...ager non adherent contaminants such as chips or granules by dabbing with a cloth Never rub under any circumstances 3 When all non adherent particles have been removed use an untreated lens cleaning paper for lenses or an optical cleaning cloth that was soaked in an especially for optics suitable detergent Observe the instructions of the manufacturer Cleaning by the manufacturer The device can be s...

Page 57: ...glad to be of service Monday to Thursday 8 00 to 17 00 and Friday 8 00 to 15 00 Vision Control GmbH Mittelbergstraße 16 98527 Suhl Germany Phone 49 0 3681 7974 0 www vision control com Defective device If the device has a defect the manufacturer can repair or exchange it Please contact your local sales partner or technical support Vision Control GmbH 2022 999 995 980 10 en 1 1 57 ...

Page 58: ... way that does not harm the environment that is it must be done in accordance with the currently valid legal regulations Please contact the manufacturer your local specialist dealer or the relevant national authority for the proper disposal of old devices The components must be sent to a specialist recycling company or to the manufacturer for proper disposal 58 999 995 980 10 en 1 1 Vision Control...

Page 59: ...TO44 11 0 110 V B Vision Control GmbH 2022 999 995 980 10 en 1 1 59 ...

Page 60: ...Vision Control GmbH Mittelbergstraße 16 98527 Suhl Germany Telephone 49 0 3681 7974 0 Telefax 49 0 3681 7974 33 Vision Control GmbH ...

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