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Vision & Control Blue Vision TO88/9.0-155-V-B Instructions For Use Manual

Telecentric measurement lens
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creating machine vision
Instructions for Use
Instructions for Use
TO88/9.0-155-V-B
TO88/9.0-155-V-B
Telecentric measurement lens
Telecentric measurement lens
Blue Vision - especially colour-
Blue Vision - especially colour-
optimized for the blue spectrum
optimized for the blue spectrum
999.995.995.10-en-1.0
© Vision & Control GmbH 2022
VISION & CONTROL

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Summary of Contents for Vision & Control Blue Vision TO88/9.0-155-V-B

  • Page 1 creating machine vision VISION & CONTROL Instructions for Use Instructions for Use TO88/9.0-155-V-B TO88/9.0-155-V-B Telecentric measurement lens Telecentric measurement lens Blue Vision - especially colour- Blue Vision - especially colour- optimized for the blue spectrum optimized for the blue spectrum 999.995.995.10-en-1.0 ©...
  • Page 2 Impress Publisher / Manufacturer Vision & Control GmbH Mittelbergstraße 16 98527 Suhl, Germany Telephone: +49 (0) 3681 7974-0 www.vision-control.com Name of the document 999.995.995.10-en-1.0 Date of first issue 2022-07-19 Date modified 2022-09-13 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.
  • Page 3 Validity These instructions for use are valid for the following device: Device Order no. TO88/9.0-155-V-B 2-05-811 Product Identification Designation Description Telecentric measurement lens Maximum object field diameter in mm Maximum image sensor diagonal in mm Working distance in mm Variable aperture Spectral range: 400 nm - 900 nm (visible light) optimized at 450 nm - 490 nm (B - blue light) ©...

  • Page 4: Table Of Contents

    TO88/9.0-155-V-B Table of Contents TABLE OF CONTENTS 1 Information about the Instructions of Use..........7 1.1 Intended Use....................7 1.2 Improper Use....................8 1.3 Qualified Personnel..................8 1.4 Warranty and Liability...................9 2 Safety......................10 2.1 Presentation of Safety Instructions.............10 2.2 Safe Handling of the Device..............11 3 Scope of Delivery and Accessories............
  • Page 5 TO88/9.0-155-V-B Table of Contents 6.2.2 Mounting of filters................49 6.2.3 Mounting at the camera..............49 6.3 Configuration....................50 6.3.1 Setting the working distance.............. 50 6.3.2 Adjusting the aperture................ 51 7 Operation...................... 52 8 Maintenance and Service................53 8.1 Maintenance....................53 8.2 Service......................55 9 Disposal......................
  • Page 6 TO88/9.0-155-V-B Table of Contents 27: MTF - object field dependent (470 nm, F16)..........37 28: MTF - object field dependent (525 nm, F6)..........38 29: MTF - object field dependent (525 nm, F10)..........38 30: MTF - object field dependent (525 nm, F16)..........39 31: MTF - object field dependent (635 nm, F6)..........

  • Page 7: Information About The Instructions Of Use

    TO88/9.0-155-V-B Information about the Instructions of Use 1 INFORMATION ABOUT THE INSTRUCTIONS OF This document contains technical information, important instructions for correct installation, commissioning and use, as well as product information which were up-to-date at the time of going to press. Using this document makes it easier for you to familiarise yourself with the device and avoid malfunctions caused by improper operation.

  • Page 8: Improper Use

    TO88/9.0-155-V-B Information about the Instructions of Use 1.2 Improper Use All unintended use and all device-related activities not described in these instructions of use is to be deemed as unauthorised misuse outside the legal limits of indemnity of the manufacturer. Reasonably foreseeable misuse is: •...

  • Page 9: Warranty And Liability

    TO88/9.0-155-V-B Information about the Instructions of Use 1.4 Warranty and Liability The contents of this document have been checked carefully and correspond to current legislation and best practise at the time of going to press. However, the manufacturer shall not be liable for any damage arising from the use of this edition of the manual, and rejects any warranty derived therefrom.

  • Page 10: Safety

    TO88/9.0-155-V-B Safety 2 SAFETY 2.1 Presentation of Safety Instructions Each safety instruction is introduced by a key word and colour highlighted. The key word indicates the degree of danger. The danger and its cause are described, and then the measures to prevent conceivable consequences of the danger.

  • Page 11: Safe Handling Of The Device

    TO88/9.0-155-V-B Safety 2.2 Safe Handling of the Device Read the following applicable safety instructions carefully and completely. Follow the instructions for your own safety, the safety of other people, and to avoid damage to the device and the connected technical equipment. Hazards going beyond the general safety instructions are referred to separately at the relevant points in this manual.

  • Page 12: Scope Of Delivery And Accessories

    TO88/9.0-155-V-B Scope of Delivery and Accessories 3 SCOPE OF DELIVERY AND ACCESSORIES 3.1 Scope of Delivery Designation Quantity Device TO88/9.0-155-V-B Covering cap Hex-wrench, width across flats AF = 1.5 mm 3.2 Accessories The following accessories are available for the lens. Lens holder Designation Description...
  • Page 13 TO88/9.0-155-V-B Scope of Delivery and Accessories Adjustment Aids Designation Description Order no. Adjustment aid for easy adjustment to 20 mm depth of field, 5-10-113 for image scale 0.2 - 0.1 CS to C-mount adapter / Extension rings Designation Description Order no. CS to C-mount for connecting C-mount lenses with CS-mount 2-90-414...
  • Page 14 TO88/9.0-155-V-B Scope of Delivery and Accessories Filter for filter thread object-side Designation Description Order no. UV blocking filter Long-pass filter from 350 nm, usable as 2-91-126 M100x1 protective glass IR-Filter M100x1 Long-pass filter from 830 nm (daylight 2-91-136 absorbing filter) Colour filter red Long-pass filter with edge length λ...

  • Page 15: Device Description

    TO88/9.0-155-V-B Device Description 4 DEVICE DESCRIPTION 4.1 Device Views Image 1: Device view Filter thread M100x1 C-mount camera connection Type plate Filter thread M20.5x0.5 Aperture setting ring Contact edge camera 4.2 Operating Elements The device provides a rotatable aperture setting ring with fixation for adjusting the aperture.

  • Page 16: Notices On The Device

    TO88/9.0-155-V-B Device Description 4.3 Notices on the device Type plate Type: TO88/9.0-155-V-B SN.: XXXXXXXX Image 2: Type plate Position on the lens Device designation Serial number 999.995.995.10-en-1.0 © Vision & Control GmbH 2022...

  • Page 17: Technical Data

    TO88/9.0-155-V-B Technical Data 5 TECHNICAL DATA 5.1 General Parameters Parameter Value Housing material Aluminium, black anodised Optical material Glass Housing dimensions Length: 205.9 mm (without connection thread) Diameter max.: 104 mm Diameter aperture ring: 35 mm Clamping diameter: 45 mm und 32 mm Filter thread object-side M100 x 1 Filter thread camera-side...

  • Page 18: Optical Parameters

    TO88/9.0-155-V-B Technical Data Sensor Object field Type Size Diagonal Size 1/1.8" 7.2 mm x 5.4 mm 9.0 mm 69.9 mm x 52.4 mm 1/2" 6.4 mm x 4.8 mm 8.0 mm 62.1 mm x 46.6 mm 1/3" 4.8 mm x 3.6 mm 6.0 mm 46.6 mm x 34.9 mm 1/4"...

  • Page 19: Resolution

    TO88/9.0-155-V-B Technical Data 5.2.1 Resolution Aperture: F6 Spectral range spatial Image field diagonal frequency 9.0 mm 8.0 mm 6.0 mm Blue: 470 nm 50 LP/mm 69.28% 70.33 % 73.33 % 70 LP/mm 59.83% 60.99 % 64.36 % 100 LP/mm 48.59% 49.80 % 53.23 % Green: 525 nm...
  • Page 20 TO88/9.0-155-V-B Technical Data Aperture: F10 Spectral range spatial Image field diagonal frequency 9.0 mm 8.0 mm 6.0 mm Blue: 470 nm 50 LP/mm 69.51 % 69.53 % 69.12 % 70 LP/mm 57.78 % 57.81 % 57.28 % 100 LP/mm 41.15 % 41.25 % 40.90 % Green: 525 nm...
  • Page 21 TO88/9.0-155-V-B Technical Data Aperture: F16 Spectral range spatial Image field diagonal frequency 9.0 mm 8.0 mm 6.0 mm Blue: 470 nm 50 LP/mm 52.31 % 52.45 % 52.54 % 70 LP/mm 35.02 % 35.22 % 35.45 % 100 LP/mm 13.00 % 13.24 % 13.63 % Green: 525 nm...

  • Page 22: Depth Of Field

    TO88/9.0-155-V-B Technical Data 5.2.2 Depth of field Aperture: F6 Spectral range spatial Image field diagonal frequency 9.0 mm 8.0 mm 6.0 mm Blue: 470 nm 20 LP/mm 57.20 mm 57.30 mm 57.80 mm 50 LP/mm 23.70 mm 24.00 mm 13,10 mm Green: 525 nm 20 LP/mm 57.30 mm...

  • Page 23: Absolute Distortion

    TO88/9.0-155-V-B Technical Data Aperture: F16 Spectral range spatial Image field diagonal frequency 9.0 mm 8.0 mm 6.0 mm Blue: 470 nm 20 LP/mm 165.70 mm 165.70 mm 166.60 mm 50 LP/mm 78.30 mm 78.60 mm 79.50 mm Green: 525 nm 20 LP/mm 167.70 mm 167.70 mm 168.50 mm 50 LP/mm...

  • Page 24: Telecentricity

    TO88/9.0-155-V-B Technical Data 5.2.4 Telecentricity Telecentricity type: Object-sided Parameter Spectral range Image field diagonal 9.0 mm 8.0 mm 6.0 mm Object-side Blue: 470 nm 0.0379° 0.0163° 0.0276° telecentricity angle φ Green: 525 nm 0.0062° 0.0105° 0.0466° Red: 635 nm 0.0507° 0.0595°...

  • Page 25: Optical Characteristics (Design Data)

    TO88/9.0-155-V-B Technical Data 5.3 Optical characteristics (design data) 2/3" Image 3: Illustrative sketch of optical characteristics Image plane Image field Image centre (axis points) Line grid tangential (T) Image sensor Line grid sagittal (S) ADVICE The following design data was determined with the optics design software Zemax.

  • Page 26: Mtf Depending On The Spatial Frequency

    TO88/9.0-155-V-B Technical Data 5.3.1 MTF depending on the Spatial Frequency Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 4: MTF - spatial frequency dependent (450 nm - 490 nm, F6) Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 5: MTF - spatial frequency dependent (450 nm - 490 nm, F10)

  • Page 27: 6: Mtf - Spatial Frequency Dependent (450 Nm - 490 Nm, F16)

    TO88/9.0-155-V-B Technical Data Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 6: MTF - spatial frequency dependent (450 nm - 490 nm, F16) Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 7: MTF - spatial frequency dependent (470 nm, F6) ©...

  • Page 28: 8: Mtf - Spatial Frequency Dependent (470 Nm, F10)

    TO88/9.0-155-V-B Technical Data Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 8: MTF - spatial frequency dependent (470 nm, F10) Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 9: MTF - spatial frequency dependent (470 nm, F16) 999.995.995.10-en-1.0 ©...

  • Page 29: 10: Mtf - Spatial Frequency Dependent (525 Nm, F6)

    TO88/9.0-155-V-B Technical Data Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 10: MTF - spatial frequency dependent (525 nm, F6) Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 11: MTF - spatial frequency dependent (525 nm, F10) ©...

  • Page 30: 12: Mtf - Spatial Frequency Dependent (525 Nm, F16)

    TO88/9.0-155-V-B Technical Data Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 12: MTF - spatial frequency dependent (525 nm, F16) Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 13: MTF - spatial frequency dependent (635 nm, F6) 999.995.995.10-en-1.0 ©...

  • Page 31: 14: Mtf - Spatial Frequency Dependent (635 Nm, F10)

    TO88/9.0-155-V-B Technical Data Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 14: MTF - spatial frequency dependent (635 nm, F10) Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 15: MTF - spatial frequency dependent (635 nm, F16) ©...

  • Page 32: 16: Mtf - Spatial Frequency Dependent (850 Nm, F6)

    TO88/9.0-155-V-B Technical Data Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 16: MTF - spatial frequency dependent (850 nm, F6) Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 17: MTF - spatial frequency dependent (850 nm, F10) 999.995.995.10-en-1.0 ©...

  • Page 33: 18: Mtf - Spatial Frequency Dependent (850 Nm, F16)

    TO88/9.0-155-V-B Technical Data Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 18: MTF - spatial frequency dependent (850 nm, F16) Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 19: MTF - spatial frequency dependent (450 nm - 620 nm, F6) ©...

  • Page 34: 20: Mtf - Spatial Frequency Dependent (450 Nm - 620 Nm, F10)

    TO88/9.0-155-V-B Technical Data Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 20: MTF - spatial frequency dependent (450 nm - 620 nm, F10) Object Field Height [mm]: Diff. Limit 0 T/S Spatial Frequency [LP/mm] Image 21: MTF - spatial frequency dependent (450 nm - 620 nm, F16) 999.995.995.10-en-1.0 ©...

  • Page 35: Mtf Depending On The Object Field

    TO88/9.0-155-V-B Technical Data 5.3.2 MTF depending on the Object Field Spatial Frequency [LP/mm]: 20 T 40 T 50 T 60 T 70 T 80 T 20 S 40 S 50 S 60 S 70 S 80 S 13.2 17.6 22.0 26.4 30.8 35.2...

  • Page 36: 24: Mtf - Object Field Dependent (450 Nm - 490 Nm, F16)

    TO88/9.0-155-V-B Technical Data Spatial Frequency [LP/mm]: 20 T 40 T 50 T 60 T 70 T 80 T 20 S 40 S 50 S 60 S 70 S 80 S 13.2 17.6 22.0 26.4 30.8 35.2 39.6 44.0 Object Field Height [mm] Image 24: MTF - object field dependent (450 nm - 490 nm, F16) Spatial Frequency [LP/mm]: 20 T...

  • Page 37: 26: Mtf - Object Field Dependent (470 Nm, F10)

    TO88/9.0-155-V-B Technical Data Spatial Frequency [LP/mm]: 20 T 40 T 50 T 60 T 70 T 80 T 20 S 40 S 50 S 60 S 70 S 80 S 13.2 17.6 22.0 26.4 30.8 35.2 39.6 44.0 Object Field Height [mm] Image 26: MTF - object field dependent (470 nm, F10) Spatial Frequency [LP/mm]: 20 T...

  • Page 38: 28: Mtf - Object Field Dependent (525 Nm, F6)

    TO88/9.0-155-V-B Technical Data Spatial Frequency [LP/mm]: 20 T 40 T 50 T 60 T 70 T 80 T 20 S 40 S 50 S 60 S 70 S 80 S 13.2 17.6 22.0 26.4 30.8 35.2 39.6 44.0 Object Field Height [mm] Image 28: MTF - object field dependent (525 nm, F6) Spatial Frequency [LP/mm]: 20 T...

  • Page 39: 30: Mtf - Object Field Dependent (525 Nm, F16)

    TO88/9.0-155-V-B Technical Data Spatial Frequency [LP/mm]: 20 T 40 T 50 T 60 T 70 T 80 T 20 S 40 S 50 S 60 S 70 S 80 S 13.2 17.6 22.0 26.4 30.8 35.2 39.6 44.0 Object Field Height [mm] Image 30: MTF - object field dependent (525 nm, F16) Spatial Frequency [LP/mm]: 20 T...

  • Page 40: 32: Mtf - Object Field Dependent (635 Nm, F10)

    TO88/9.0-155-V-B Technical Data Spatial Frequency [LP/mm]: 20 T 40 T 50 T 60 T 70 T 80 T 20 S 40 S 50 S 60 S 70 S 80 S 13.2 17.6 22.0 26.4 30.8 35.2 39.6 44.0 Object Field Height [mm] Image 32: MTF - object field dependent (635 nm, F10) Spatial Frequency [LP/mm]: 20 T...

  • Page 41: 34: Mtf - Object Field Dependent (850 Nm, F6)

    TO88/9.0-155-V-B Technical Data Spatial Frequency [LP/mm]: 20 T 40 T 50 T 60 T 70 T 80 T 20 S 40 S 50 S 60 S 70 S 80 S 13.2 17.6 22.0 26.4 30.8 35.2 39.6 44.0 Object Field Height [mm] Image 34: MTF - object field dependent (850 nm, F6) Spatial Frequency [LP/mm]: 20 T...

  • Page 42: 36: Mtf - Object Field Dependent (850 Nm, F16)

    TO88/9.0-155-V-B Technical Data Spatial Frequency [LP/mm]: 20 T 40 T 50 T 60 T 70 T 80 T 20 S 40 S 50 S 60 S 70 S 80 S 13.2 17.6 22.0 26.4 30.8 35.2 39.6 44.0 Object Field Height [mm] Image 36: MTF - object field dependent (850 nm, F16) Spatial Frequency [LP/mm]: 20 T...

  • Page 43: 38: Mtf - Object Field Dependent (450 Nm - 620 Nm, F10)

    TO88/9.0-155-V-B Technical Data Spatial Frequency [LP/mm]: 20 T 40 T 50 T 60 T 70 T 80 T 20 S 40 S 50 S 60 S 70 S 80 S 13.2 17.6 22.0 26.4 30.8 35.2 39.6 44.0 Object Field Height [mm] Image 38: MTF - object field dependent (450 nm - 620 nm, F10) Spatial Frequency [LP/mm]: 20 T...

  • Page 44: Lateral Chromatic Aberration

    TO88/9.0-155-V-B Technical Data 5.3.3 Lateral chromatic aberration Wavelength: 450 nm 470 nm 490 nm 525nm 635nm - 10 Deviation [µm] Image 40: Lateral chromatic aberration - wavelength dependent 5.3.4 Longitudinal Chromatic Aberration - 20 - 16 - 12 Deviation [µm] Image 41: Longitudinal chromatic aberration - wavelength dependent 999.995.995.10-en-1.0 ©...

  • Page 45: Distortion

    TO88/9.0-155-V-B Technical Data 5.3.5 Distortion Wavelength: 450 nm 470 nm 490 nm 525nm 635nm - 0.2 Distortion [%] Image 42: Distortion - wavelength dependent 5.3.6 Vignetting 13.2 17.6 30.8 35.2 39.6 44.0 22.0 26.4 Object Field Height [mm] Image 43: Vignetting ©...

  • Page 46: Conditions For Operation, Storage And Transport

    TO88/9.0-155-V-B Technical Data 5.4 Conditions for Operation, Storage and Transport NOTICE Damage to the device as a result of improper storage or improper transport • Shipping and storage only in its original or adequately padded packaging. • The cover caps (scope of delivery) must be mount for protection during storage and transport.

  • Page 47: Technical Drawings

    TO88/9.0-155-V-B Technical Data 5.5 Technical Drawings Image 44: Technical Drawings (dimensions in mm) © Vision & Control GmbH 2022 999.995.995.10-en-1.0...

  • Page 48: Commissioning

    TO88/9.0-155-V-B Commissioning 6 COMMISSIONING 6.1 Unpacking The lens is locked in a rotary pack sleeve. 1. Unscrew the cap of the rotating pack sleeve. 2. Remove the lens. 3. Remove the cover caps only after complete installation and shortly before use at the place of use.

  • Page 49: Mounting At The Clamping Area

    TO88/9.0-155-V-B Commissioning 6.2.1 Mounting at the clamping area The assembly of the lens takes place at the clamping area. The appropriate mounting adapters are available as accessories. see "Lens holder", page 12 1. Loosen the socket head cap screws of the objective holder. 2.

  • Page 50: Configuration

    TO88/9.0-155-V-B Commissioning 6.3 Configuration 6.3.1 Setting the working distance The lens has a fixed working distance. The distance is specified from the front edge of the lens to the test object. Mount the lens at this working distance above the test object. ADVICE Optical elements e.g.

  • Page 51: Adjusting The Aperture

    TO88/9.0-155-V-B Commissioning 6.3.2 Adjusting the aperture The lens features a variable aperture. ADVICE Change in light intensity The light intensity is halved in each case at the transitions 6 / 8 / 11 / 16 / 22 as well as at 10 / 14. Image 47: Adjusting the aperture Aperture setting ring Scale ring...

  • Page 52: Operation

    TO88/9.0-155-V-B Operation 7 OPERATION ADVICE The front lens can be protected from foreign bodies by using the UV filter (protective glass). see "Filter für Filtergewinde objektseitig" Keep 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.

  • Page 53: Maintenance And Service

    TO88/9.0-155-V-B Maintenance and Service 8 MAINTENANCE AND SERVICE 8.1 Maintenance The device is maintenance-free. Depending on the operating environment, it may have to be cleaned. Perform cleaning only if the imaging characteristics are noticeably disrupted. Only clean surfaces accessible from the outside. Do not open the lens. If there is dirt inside the lens, contact the support.
  • Page 54 TO88/9.0-155-V-B Maintenance and Service Cleaning the optical surfaces NOTICE Follow the specified cleaning sequence. Never use dry cloths for cleaning. This allows dust and other contaminants to be rubbed into the lens surface, thereby damaging it. 1. Remove non-adherent dusts with a blower brush or cleaned compressed air.

  • Page 55: Service

    TO88/9.0-155-V-B Maintenance and Service 8.2 Service Technical Support Please contact our technical support if you have any technical questions concerning our products. We will be glad to be of service: Monday to Thursday 8:00 to 17:00, and Friday 8:00 to 15:00. Vision &...

  • Page 56: Disposal

    TO88/9.0-155-V-B Disposal 9 DISPOSAL The device and its accessories and packaging must be sent to environmentally compatible recycling. Disposal, including that of individual components, must also always be in a way that does not harm the environment, that is it must be done in accordance with the currently valid legal regulations.
  • Page 57 TO88/9.0-155-V-B © Vision & Control GmbH 2022 999.995.995.10-en-1.0...
  • Page 58 TO88/9.0-155-V-B 999.995.995.10-en-1.0 © Vision & Control GmbH 2022...
  • Page 59 TO88/9.0-155-V-B © Vision & Control GmbH 2022 999.995.995.10-en-1.0...
  • Page 60 Vision & Control GmbH Mittelbergstraße 16 98527 Suhl, Germany Telephone +49 (0) 3681 7974-0 Vision & Control GmbH...

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