Create Color Palette
Input Methods
There are a couple of ways to create a Color Pallete or Library. We recommend creating Color Palette with CC Capture. This is the most accurate and fast method. If you need to use the existing Color Library - you should upload the CxF file.
1. CC Capture
CC Capture is a very fast and efficient tool that can create Color Palettes. The current version supports the following instruments:
| Instrument | M0 | M1 | M2 | M3 | SPIN | SPEX | notes |
| X-Rite i1 Pro 1 |  |
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not recommended |
| X-Rite i1 Pro 1 UV - cut | |
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not recommended |
| X-Rite i1 Pro 2 | |
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| X-Rite i1 Pro 3 | |
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| X-Rite i1 Pro 3 Plus | |
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M3 requires Polarisation Head mounted on the Instrument |
| X-Rite eXact | |
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requires "M1Part 2 Export" enabled in the Instrument menu |
| X-Rite eXact XT | |
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requires "M1Part 2 Export" enabled in the Instrument menu |
| X-Rite eXact 2 | |
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| Techkon SpectroDens 1 | |
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| Techkon SpectroDens 2 | |
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| Nix Spectro 2 | |
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| Variable Spectro 1 | |
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| Variable Spectro 1 PRO | |
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| CC DS-700D | |
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Additional UV on/off feature, Built-in camera |
| ColorChecker Studio | |
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not recommended |
Each of the above instruments will allow for a series of measurements to be averaged. The default value of 3 measurements can be changed by the user. After the series has been completed, the homogeneity analysis will allow assessing whether the sample was sufficiently homogeneous. The maximum error and the average error will be given. If we require strictly set tolerances, when creating a reference, we must be sure that our request is realistic.
CC Capture controls the measuring instrument to achieve all possible M-conditions. This allows for more flexible use of references as well as the assessment of phenomena such as fluorescence.
Spectral data allows you to later simulate any lighting conditions and calculate metamerism. Also, fluorescence can be evaluated when M1 and M2 spectral data are available.
CC Capture can create only Palettes but the website interface enables switching Palette to Library and opposite.
When a non-opaque object is measured use CC Measurement Backer.
To learn step-by-step how to create Color Palette click here.
2. CxF Import
If you have a compatible CxF file you may import it directly to Color Inspector Assets.
If working with Ink-Kitchen or 3rd party software that can export color libraries this is a very good way to manage existing assets.
The list of 3-rd party software that produces compatible CxF files, that CC can import:
| Software | multi M-cond. | CxF/X-4 | Tolerances | Advanced Tol. |
| X-Rite eXact Manager | |
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| Alwan APV/ACH/Toolbox | |
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| Babel Color Patch Tool | |
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| Barbieri Gateway | |
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| ChromaChecker | |
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To learn how to import CxF follow the dedicated step-by-step procedure.
3. Direct Input — Lab coordinates only.
There are many situations where we have Lab coordinates only. In this case, we can enter values by numbers directly into Assets in Color Inspector. This method is not recommended due to the fact that most of the calculations, simulations are using spectral data.
If you have Lab values it is important to know what Illuminant and Observer and M-condition values were captured at. In many situations, errors coming for color specification miss-match may be higher than potentially desired tolerances...
To learn how to manually input Lab coordinates follow the dedicated step-by-step procedure.
Input Methods Comparison Chart
| Input Method | Limitations | Spectral Data | CxF/X4 support* | Sample averaging |
| CC Capture | a limited list of instruments | Yes | build-in | build-in |
| CxF import | requires compatible CxF file | Yes | possible | requires this feature in 3rd party app. |
| Manual Input | computational limitations | No | not possible | not possible |
* to learn more about CxF/X-4 click here
Video
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How to save a PDF file for use in the Named Color workflow with ChromaChecker. ChromaChecker is able to create custom lookup tables using device ICC output profiles. These tables are used to convert LAB values for each individual press to achieve the best match for critical spot color workflows.
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The Virtual Control STrip allows you to define placeholder patches for spot colors. This allows you to have one control strip for indefinite named spot colors that get selected press side based on the spot color running for the job. If not spot color, it represents a blank substrate patch.
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The Spot Color Exercise is an interactive way to communicate how Spot Colors will print and determine the Delta E difference that is acceptable. The exercise is an instruction and a practical tool for designers, print buyers, and sales for communicating color.
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This tutorial shows how Chromachecker Capture scans control strips that include spot colors as part of your overall color quality control program.
Related Topics
Contact ChromaChecker Support
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