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TC CORE PLUS series
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Magnification
0.027 - 0.059 x
Compact

Key advantages

  • Large FOV in a super compact form factor
    TC CORE PLUS telecentric lenses are up to 45% shorter than other telecentric lenses on the market. They are designed to image extremely large FOVs in a reduced space.
  • Optimized working distance
    The working distance of TC CORE PLUS series has been reduced to greatly minimize system dimensions.
  • Smart integration
    TC CORE PLUS lenses integrate a mounting flange for easy mounting without additional clamps.
  • Boost your sales
    TC CORE PLUS lenses allow you to reduce the size of your vision system, resulting in less manufacturing, shipping and storage costs.
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Real-world application examples and case histories

Applications example

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Last update 05 Sep 2023

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Notes

  1. Given the squared shape of the front window, the lens forms a rectangular image.
  2. Working distance: distance between the front end of the mechanics and the object. Set this distance within ± 5% of the nominal value for maximum resolution and minimum distortion.
  3. Working f-number (wf/N): the real f-number of a lens in operating conditions.
  4. Maximum angle between chief rays and optical axis on the object side. Typical (average production) values and maximum (guaranteed) values are listed.
  5. Percent deviation of the real image compared to an ideal, undistorted image: maximum (guaranteed) values of the uncorrected image are listed.
  6. Residual distortion after calibration with TCLIB Suite software library, using a PTCP calibrations pattern and a fully GenICam compliant camera. For setup information see related table.
  7. At the borders of the field depth the image can be still used for measurement but, to get a very sharp image, only half of the nominal field depth should be considered. Pixel size used for calculation is 3.45 μm.
  8. Object side, calculated with the Rayleigh criterion with λ= 520 nm
  9. Indicates the availability of an integrated camera phase adjustment feature.
  10. Maximum dimension of the clamping flange.
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Technical documents

Product user guide
Back focal adjustment

Recommended setup

Recommended setup

  • TC CORE PLUS telecentric lens
  • PTCPxxxxx calibration chessboard pattern
  • TCLIB Software library & stand-alone tools for the optimization of telecentric setups
  • Fully GenICam® compliant camera
Part numberCalibrations softwareCalibrations patternSetup cameraRecommended camerasRecommended sensores
TCCP12144TCLIB SuitePTCP-S1-HR1-CRT-mvBF3-2124aGCOE-032-x-POE-040-yy-C, RT-mvBF3-2032a, RT-mvBC-XD104h, RT-mvBC-X104iIMX252, IMX265
TCCP23144TCLIB SuitePTCP-S1-HR1-CRT-mvBF3-2124aGCOE-050-x-z-050-yy-C, RT-mvBF3-2051G, RT-mvBF3-2051aG, RT-mvBC-XD105a, RT-mvBC-X105bIMX250, IMX264
TCCP12192TCLIB SuitePTCP-L1-LR1-CRT-mvBF3-2124aGCOE-032-x-POE-040-yy-C, RT-mvBF3-2032a, RT-mvBC-XD104h, RT-mvBC-X104iIMX252, IMX265
TCCP23192TCLIB SuitePTCP-L1-LR1-CRT-mvBF3-2124aGCOE-050-x-z-050-yy-C, RT-mvBF3-2051G, RT-mvBF3-2051aG, RT-mvBC-XD105a, RT-mvBC-X105bIMX250, IMX264
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Specifications

Example: comparison between TC12192 (left) and TCCP12192 (right) lenses with 0.033x mag. and a FOV of 195 x 146mm
Example: comparison between TC12192 (left) and TCCP12192 (right) lenses with 0.033x mag. and a FOV of 195 x 146mm

Specifications

Mag 1/1.8" sensor
FOV
WD Lens length Overall System
heigth
(x) (mm x mm) (mm) (mm) (mm)
TC12192 0.33 216 x 162 527 602 1129
TCCP12192 0.33 216 x 162 336 345 681
With CORE PLUS
telecentric lens
you save:
%
(mm)
36%
191
43%
257
40%
448
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TCCP12192 provides a 216mm x 162mm FOV with a 1/1.8” sensor (same as TC12192). Being 257mm smaller and having a 191mm shorter working distance, it allows you to save almost 450mm.

Press & marketing content

Metrology white paper