- CMYK color model
The CMYK color model (process color, four color) is a subtractive color model, used in color printing, and is also used to describe the printing process itself. CMYK refers to the four inks used in some color printing: cyan, magenta, yellow, and key (black). Though it varies by print house, press operator, press manufacturer and press run, ink is typically applied in the order of the abbreviation.
The "K" in CMYK stands for key since in four-color printing cyan, magenta, and yellow printing plates are carefully keyed or aligned with the key of the black key plate. Some sources suggest that the "K" in CMYK comes from the last letter in "black" and was chosen because B already means blue. However, this explanation, though plausible and useful as a mnemonic, is incorrect.
The CMYK model works by partially or entirely masking colors on a lighter, usually white, background. The ink reduces the light that would otherwise be reflected. Such a model is called subtractive because inks "subtract" brightness from white.
In additive color models such as RGB, white is the "additive" combination of all primary colored lights, while black is the absence of light. In the CMYK model, it is the opposite: white is the natural color of the paper or other background, while black results from a full combination of colored inks. To save money on ink, and to produce deeper black tones, unsaturated and dark colors are produced by using black ink instead of the combination of cyan, magenta and yellow.
With CMYK printing, halftoning (also called screening) allows for less than full saturation of the primary colors; tiny dots of each primary color are printed in a pattern small enough that human beings perceive a solid color. Magenta printed with a 20% halftone, for example, produces a pink color, because the eye perceives the tiny magenta large dots and the white paper between the dots as lighter and less saturated than the color of pure magenta ink.
Without halftoning, the three primary process colors could be printed only as solid blocks of color, and therefore could produce only seven colors: the three primaries themselves, plus three complementary colors produced by layering two of the primaries: cyan and yellow produce green, cyan and magenta produce a purplish blue, yellow and magenta produce red (these subtractive complementary colors correspond roughly to the additive primary colors) plus layering all three of them resulting in black. With halftoning, a full continuous range of colors can be produced.
To improve print quality and reduce moiré patterns, the screen for each color is set at a different angle. While the angles depend on how many colors are used and the preference of the press operator, typical CMYK process printing uses any of the following screen angles:
C 15° 15° 105° M 75° 45° 75° Y 0° 0° 90° K 45° 75° 15°
Benefits of using black ink
The "black" generated by mixing cyan, magenta and yellow primaries is unsatisfactory, and so four-color printing uses black ink in addition to the subtractive primaries. Common reasons for using black ink include:
- In traditional preparation of color separations, a red keyline on the black line art marked the outline of solid or tint color areas. In some cases a black keyline was used when it served as both a color indicator and an outline to be printed in black. Because usually the black plate contained the keyline, the K in CMYK represents the keyline or black plate also sometimes called the key plate.
- Text is typically printed in black and includes fine detail (such as serifs), so to reproduce text or other finely detailed outlines using three inks without slight blurring would require impractically accurate registration.
- A combination of 100% cyan, magenta, and yellow inks soaks the paper with ink, making it slower to dry, and sometimes impractically so. This also can cause the ink to bleed.
- A combination of 100% cyan, magenta, and yellow inks often results in a muddy dark brown color that does not quite appear black. Adding black ink absorbs more light, and yields much darker blacks.
- Using black ink is less expensive than using the corresponding amounts of colored inks.
When a very dark area is desirable, a colored or gray CMY "bedding" is applied first, then a full black layer is applied on top, making a rich, deep black; this is called rich black. A black made with just CMY inks is sometimes called a composite black or process black.
The amount of black to use to replace amounts of the other ink is variable, and the choice depends on the technology, paper and ink in use. Processes called under color removal, under color addition, and gray component replacement are used to decide on the final mix; different CMYK recipes will be used depending on the printing task.
Other printer color models
CMYK or process color printing is contrasted with spot color printing, in which specific colored inks are used to produce the colors appearing on paper. Some printing presses are capable of printing with both four-color process inks and additional spot color inks at the same time. High-quality printed materials, such as marketing brochures and books, may include photographs requiring process-color printing, other graphic effects requiring spot colors (such as metallic inks), and finishes such as varnish, which enhances the glossy appearance of the printed piece.
CMYK process printers often have a relatively small color gamut. Processes such as Pantone's proprietary six-color (CMYKOG) Hexachrome considerably expand the gamut. Light, saturated colors often cannot be created with CMYK, and light colors in general may make visible the halftone pattern. Using a CcMmYK process, with the addition of light cyan and magenta inks to CMYK, can solve these problems, and such a process is used by many inkjet printers, including desktop models.
Comparison with RGB displays
Comparisons between RGB displays and CMYK prints can be difficult, since the color reproduction technologies and properties are so different. A computer monitor mixes shades of red, green, and blue to create color pictures. A CMYK printer instead uses light-absorbing cyan, magenta and yellow inks, whose colors are mixed using dithering, halftoning, or some other optical technique. Similar to monitors, the inks used in printing produce a colour gamut that is "only a subset of the visible spectrum" although both colour modes have their own specific ranges. As a result of this items which are displayed on a computer monitor may not completely match the look of items which are printed if opposite colour modes are being combined in both mediums. When designing items to be printed, designers view the colours which they are choosing on an RGB colour mode (their computer screen), and it is often difficult to visualise the way in which the colour will turn out post printing because of this.
Since RGB and CMYK spaces are both device-dependent spaces, there is no simple or general conversion formula that converts between them. Conversions are generally done through color management systems, using color profiles that describe the spaces being converted. Nevertheless, the conversions cannot be exact, particularly where these spaces have different gamuts.
The problem of computing a colorimetric estimate of the color that results from printing various combinations of ink has been addressed by many scientists. A general method that has emerged for the case of halftone printing is to treat each tiny overlap of color dots as one of 8 (combinations of CMY) or of 16 (combinations of CMYK) colors, which in this context are known as Neugebauer primaries. The resultant color would be an area-weighted colorimetric combination of these primary colors, except that the Yule–Nielsen effect ("dot gain") of scattered light between and within the areas complicates the physics and the analysis; empirical formulas for such analysis have been developed, in terms of detailed dye combination absorption spectra and empirical parameters.
- Spot color
- CcMmYK color model
- Grey component replacement
- Under color removal
- Under color addition
- Rich black
- Jacob Christoph Le Blon
- SWOP CMYK standard
Notes and references
- ^ Horvat, Les (2003). Digital Imaging: Essential Skills. Focal Press. p. 74. ISBN 0240519132, 9780240519135. http://books.google.com/books?id=AF3eAEVtZekC&pg=PA74.
- ^ Jennings, Simon (2003). Artist's Color Manual: The Complete Guide to Working with Color. Chronicle Books LLC. p. 21. ISBN 081184143X, 9780811841436. http://books.google.com/books?id=Yz8q9RV05uYC&pg=PA21#PPA21,M1.
- ^ Gatter, Mark (2004). Getting It Right in Print: Digital Pre-press for Graphic Designers. Laurence King Publishing. p. 31. ISBN 1856694216, 9781856694216. http://books.google.com/books?id=Pva2EkbmBYEC&pg=PA31&lpg=PA31.
- ^ Campbell, Alastair. The Designer's Lexicon. 2000 Chronicle, San Francisco. p 192
- ^ McCue, Claudia. Real World Print Production. 2007 Peachpit, Berkeley. p 31.
- ^ Roger Pring (2000). WWW.Color. Watson–Guptill. ISBN 0823058573. http://books.google.com/books?id=Uq-hLlV-h7sC&pg=PT178&dq=cmyk+key+black+subtractive+model&ie=ISO-8859-1.
- ^ R. S. Hodges (2003). The Guild Handbook of Scientific Illustration. John Wiley and Sons. ISBN 0471360112. http://books.google.com/books?id=YWaOBSjevD0C&pg=PA242&dq=cmyk+rich-black.
- ^ Carla Rose (2003). Sams Teach Yourself Adobe Photoshop Elements 2 in 24 Hours. Sams Publishing. ISBN 067232430X. http://books.google.com/books?id=odUPNtVGBzcC&pg=PA108&dq=light-magenta+light-cyan.
- ^ Damien van Holten, print international.org, "RGB Vs CMYK" http://www.printernational.org/rgb-versus-cmyk.php
- ^ a b Gaurav Sharma (2003). Digital Color Imaging Handbook. CRC Press. ISBN 084930900X. http://books.google.com/books?id=AkByHKRGTsQC&pg=PA68&dq=intitle:color+inauthor:sharma+cmyk+halftone-printers#PPA67,M1.
- XCmyk—CMYK to RGB Calculator with source code
- Color Space Fundamentals—animated illustration of RGB vs. CMYK
- Color Separation Process—animation and activity
- Four Colour Process (CMYK) explained—basic explanation for novice print-buyers, including animated demonstration
Color space List of color spaces · Color models CIE RGB YUV Other See color vision for the vision capacities of organisms or machines.
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