Devices as monitors and printers create colors in a different way. Because of these differences colors are described differently for each device.
The different methods of describing colors are called color spaces. The color space specifies how color information is represented in an image. Each device has its own individual color space and range of colors that it can display or print. In addition, each device can have one or more ICC (International Color Consortium) profiles. ICC profiles are used when an image or a object is converted to the color space of a different device.
Color spaces of human eye (A), RGB and CMYK (B), and other devices (C, D, E, F, and G)Devices such as monitors, digital cameras, and scanners generally use RGB color spaces to describe colors. Two implementations of RGB color spaces are sRGB and Adobe RGB.
Color printers use the CMYK color space. Implementations of the CMYK color space vary from printer to printer and from medium to medium. FOGRA has several implementations of the CMYK color spaces.
An input ICC profile can translate color data created on one device (such as a monitor) into the Profile Connection Space (PCS). The Profile Connection Space (PCS) is necessary to connect the input and output color space by describing the colors in a device-independent way. The Profile Connection Space (PCS) color space, such as the CIELAB color space, defines colors as true representations of what the human eye can perceive.
There are input profiles to translate RGB color data and input profiles to translate CMYK color data.
The output ICC profile translates the color information from the Profile Connection Space (PCS) to the CMYK color space of the printer.
|
Input profile |
Output profile |
|---|---|
RGB / CMYK -> Lab |
Lab -> CMYK |
The process where the output profile converts the colors from the Profile Connection Space (PCS) color space into the CMYK color space is called separation. The result of the separation is the creation of the CMYK separation planes.
CMYK dots in the document The outcome of the separation is important for the quality of the printed image, since one target color in the device-independent color space can be reproduced by different ink combinations on the printer. To calculate the CMYK values, the output profile takes into account which limits are set for the media. For example, the total ink coverage limit and the maximum drop size of the inks. Moreover, the output profile knows where CMY inks must be replaced by K ink and how much ink must be used for the darkest black.
A CMYK color value is often expressed as four percentages. Each C, M, Y, and K color channel has the potential of printing at 100%.
The color values of an image can be described in the RGB or CMYK color space.
The Settings Editor has a list of input profiles that can be selected. Color presets and transaction setups have a reference to one of the input profiles. You import the input profiles from the Settings Editor.
Input profilesSource files can also contain input profiles. If required, you can decide to overrule these embedded profiles or not.
The list of input profiles can contain simulation profiles and production profiles to create composite output profiles for device simulation.
The color values in a document can be described in the CMYK color space or in the CIELAB color space.
The Settings Editor has a list of output profiles that can be linked to a media family. When media definitions change, a new output profile can be needed. You import output profiles in the Settings Editor.
Output profilesThe list of output profiles can contain composite output profiles and Device Link profiles for device simulation.
The maximum C, M, Y, and K color values (expressed in ∆E) are used as calibration target during the media family calibration.
When source colors fall outside the gamut of the printer, the rendering intent determines how these colors must be reproduced.
Source colors that fall outside the gamut of the printer are being mapped into in-gamut colors, often colors at the edge of the printer gamut.
Rendering intentsIn the Graphics Arts (GA) market it is common to align the color reproduction between different printers or offset presses.
The target printer can have the following profiles:
The output profile, used by the target printer to reproduce colors approximately on various similar media.
An accurate output profile that was created for the target printer to reproduce colors accurately on specific media.
You can create a composite output profile to simulate the target printer. A composite output profile can be composed from:
Production profile: refers to the output profile of the target printer.
Simulation profile: refers to the output profile or accurate output profile of the target printer.
Output profile: the output profile of the printer on which you are simulating.
To refer from the composite output profile to the output profiles of the target printer, the output profiles of the target printer are imported into the list of input profiles.
Composite output profile without accurate output profile |
Composite output profile with accurate output profile |
A color expert can tune the color transformation with the use of a device link profile. The device link profile is typically created by an external profiler with the use of the output profile and simulation profile of the target printer.
PRISMAsync Print Server combines the output profile of the target printer with the device link profile in a composite out profile on the printer on which the target printer is simulated.
Composite output profile with output profile of target printer and device link profile