DE2320884A1 - Colour correction - by applying high gamma charge - Google Patents

Abstract

Colour correction in the prodn. of a copy or print, in which the colour of the surface region of a specified colour is corrected, by applying a high -charge in these regions and thereafter developing with a developer contg. a 1st cpd of the specified colour, then applying a low gamma-charge to the regions and developing these with a 2nd developer contg. a 2nd component of the specified colour. Pref. specified colour is either blue and the 1st and 2nd components of the developers are cyan- and magenta - dyestuffs resp. or is red and the 1st and 2nd components of the developers are magenta - and yellow dyestuffs resp.

Description

Color correction method The invention relates to a color correction method and in particular a further development of the color correction technique that of the electrostatic Color printing process is used, which is described in the applicant's US patent application (U.S. Patent 3,709,594) Serial No. 47 273 from 18.

June 70 is described. Because of the flaws in the materials that are used to produce color images, a color correction must be made will.

The three color pigments to create the basic colors magenta and Yellow, which is used to produce a color print using the subtractive process used are not pure. Although the pigment used to make cyan is used, theoretically only subtract red light from the incident light or should absorb, it actually absorbs some green light and even a trace of blue light. The cyan dye can therefore be used with these developer pigments or dyes, namely the magenta and yellow dyes, are considered to be contaminated absorbing green and blue light, respectively. As the main visible pollution Is magenta, a good correction in the composite color can thereby be achieved that the density of the magenta color is decreased in those areas that can also be developed with cyan dye.

Although the magenta dye should only absorb green light, it also absorbs some blue light and a trace of red light in a similar way. The main visible impurity is yellow in this case, so a good correction can be obtained by checking the density of the yellow dye in the areas to be developed with magenta and yellow dyes is decreased.

Yellow dyes are generally pure. In the event that a A non-related yellow dye was used, a correction analogous to that described above can be used Procedures are carried out.

Of the pigment dyes normally used the cyan dye is the least, the magenta dye a little better and the Yellow dye best fine. By using a pigment of the Quinacridone series or a magenta lake, i.e. a dyeS on the Surface of a solid salt such as phosphomolybdenum tungstic acid on aluminum oxide can be obtained with only. a correction achieved a very good print result will. This correction would be in.

the reduction in magenta pigment or dye exist, if print both cyan and magenta. However, these color lakes only show low lightfastness.

In the development of a blue area, which successively the application requires cyan and magenta developer, a color correction must be made, because of the small amount of magenta that is obviously present in the cyan, too much magenta developer has been applied. Similarly, it must develop a red area in which yellow and magenta developers are applied a color correction must be made as the magenta developer apparently contains a small amount of yellow.

These color corrections are in the Fatent application mentioned at the beginning described by the applicant; with the ingenuity charge will be through the type of control the developer components that are applied in the area of interest, these results are so improved3 that the color or spectral sensitivity the impurities in the developer can be more precisely compensated and balanced can. In the color correction method described in the patent application mentioned at the beginning a momentary exposure of the photoconductor material becomes a filter of the same Color like that of the area to be printed is used to reduce the charge density and to prevent the one developer from being applied too heavily, the weak one Contamination is present in the other developer.

For example, in the case of the electrostatic, in the aforementioned Application described color printing device in the normal development process to reduce a blue area -the photoconductor material charged, then exposed with light of the original transparency transmitted through a red filter and then developed in cyan developer; then it is recharged - above exposed a green filter and developed in magenta developer. Without correction would this color development leads to excessive deposition of magenta on the photoconductor material to lead.

To compensate for the amount of magenta developer in the cyan developer the following order is used during development. The photoconductor material is charged, exposed through a red filter, and developed iz cyan developer. On that will then after recharging and exposure of the photoconductor material brief exposure through a blue filter is interposed by a green filter; this is then only followed by development in the magenta developer. Through the Ruu-zv Early exposure of the photoconductor material through the blue filter becomes static Charge distribution on the area to be developed with magenta developer so reduced, that less magenta is applied. This then results in the undesired application compensated for by magenta during development in cyan developer.

Similarly, the red areas become too strong regarding one Application of yellow developer by briefly exposing the photoconductor material corrected via a red filter, thereby reducing the charge in the area to be developed to reduce so that less yellow developer is attracted. This is then the Yellow dye contamination in the magenta developer compensated and balanced.

In the method described above, the charge density on the photoconductor material is determined controlled by changing the length of time during which the color range is controlled by the corrective filter is exposed. The charging voltage is not used during this of a particular color development process. The tension required to charge a certain type of photoconductor material before it is exposed to a special one Color filter is applied by means of a light source, depends on the color contrast which is achieved during development by means of a so-called gamma factor. For given characteristics of the FotoleiX termaterials, the filter and the light source If the photoconductor material is charged at a high Ganma voltage, the result is a strong color contrast in subsequent development while charging with a low gamma voltage to a low color contrast in the subsequent Development leads.

The color corrections achieved with this procedure make the Color rendering is improved compared to methods that do not require correction is made; these corrections are limited by the, alone by Exposures carried out by means of a light source Change in charge Limits are set so that only partial control of developer application is possible is. In addition, it was established that the green areas worked to this extent lack of color purity and the red areas lack contrast while soft Skin tones and blue shadows are lost.

If a low gamma voltage while developing for the Charging is applied, good greens, blues and skin tones are obtained. This is done but therein at the expense of the red tones, which are thereby endangered. If during the When developing a high gamma voltage, good greens, reds and blues become good preserved while the skin tones are lost. If there is an intermediate in development Gamma voltage is applied, some colors have similar improvements at the expense of other colors.

The invention therefore provides a color correction method for electrostatic Color printing that shows the color imperfections in the proof or reprint due to errors in corrected and eliminated the materials used to produce color images. Here, the object can be designed so that in the color correction method certain special ones during color printing Filters used will.

According to the invention is a color correction method for electrostatic Copying created in which an area of the print to be corrected in color or imprint charged with a high gamma voltage, exposed with the image, then developed with a developer of a certain color, then with a low gamma voltage 1 then exposed again with the image and finally a corrective color is developed with the developer.

The invention thus provides a method for color correction for electrostatic Color printing to match the color fills in electrophotographic copies or prints 2.11-consequence of defects in the pigments used to produce color images or to correct dyes.

The invention is described below on the basis of preferred exemplary embodiments explained in more detail, for which reference is made to the accompanying drawing. Show it: 1a to if the method steps in one embodiment of the color correction method according to the invention for a color correction in a reproducing color; Fig.2a to 2d the method steps in one embodiment of the color correction method according to the invention for performing a color correction on another to be reproduced Colour; 3a to 3f show the method steps in a further embodiment of the Color correction method according to the invention for color correction of a display to be reproduced Colour; and FIGS. 4a to 4d show the method steps in a further embodiment of the color correction method according to the invention for one color correction of another color to be reproduced.

In the invention, various color correcting filters, variable gamma voltages and changes in the form or order of the successive ones Process steps applied to development and color correction. In Figures pa to if for one type of color correction for a blue area, the following procedural steps are carried out applied. The photoconductor material is charged with a high gamma voltage, exposed through a red filter with the image 12, as shown in Fig.la, and developed in cyan developer as shown in Fig. ib.

All non-red areas of the image are then in the cyan developer developed. After developing in cyan developer, the photoconductive material becomes charged with a high gamma voltage and then through a minus red filter 16, that lets through all spectral colors except red, exposed with the image. This procedural step is shown in Fig.lc. Because the charge is removed wherever light comes on the photoconductive surface hits, this exposure ensures that that a high charge density remains only in the red areas.

Next, as shown in Figure 1d, the photoconductor material is applied 10 recharged with a low gamma voltage, creating a low charge density in the areas where the high charge density is replaced by the one containing no red Light removed mt.

The high charge density is retained in the red areas. That Photoconductor material 10 is exposed to the image through a green filter 18, so that there is a charge pattern on its surface, as shown in Fig.le; it is then developed in magenta developer as shown in Fig. if. The combination of cyan and magenta developer results in a color-corrected blue.

The amount of magenta dye applied is less as the amount applied in proportion to the gamma voltages before each development of cyan dye.

This then becomes less due to the low charge density Magenta dye attracted in the same areas where due to the higher Charge density cyan dye has been attracted in greater quantity.

Due to the amount of magenta dye applied to these wines is the application of magenta dye contained as an impurity in Zyaii developer compensated.

The required color correction is achieved by applying high and low Gamma voltages as well as the subsequent exposure via a minus red filter reached.

Of course, the required color correction can also be applied to others Tensions in connection with other transmission properties of the filter reached will.

After exposing the blue area of the image with the help of color correction the red area can now also be developed in connection with a color correction will.

In FIGS. 2a to 2d, the photoconductor material 10 has a high Gamma voltage charged and then through a minus green filter 20 with the to be reproduced Image 12 exposed, which is shown in Fig.2a. This leaves a higher Gama-Pufi load back in the green areas.

The photoconductor material 10 is then again with a low gamma voltage charged as shown in Figure 2b, and over a blue filter 22 exposed with the image 12, as shown in Fig.2c. Have at this point the red areas, which already contain magenta dye, have a less dense charge distribution than the green areas that already contain cyan developer.

Next, the photoconductor material is developed in yellow developer, as shown in Fig.2d. A certain amount of yellow developer is then put in The cyan dye-containing areas are applied to make the color green results. A smaller amount of yellow developer is included in the magenta dye Areas applied. As a result, the applied, as an impurity in the The yellow dye contained in magenta developer is compensated and the result is a color-corrected one Red.

On the basis of the method steps shown in FIGS. 3a to 3f another type of color correction for a blue area is described. The photoconductor material is loaded and exposed through a red filter 14 with the image, as in Fig.3a and Figure 3b is shown; it is then developed in cyan developer. All non-red areas are then developed in the cyan component.

The photoconductor material is then again given a high gamma voltage charged, via a minus red filter 16 exposed with image 12 and developed in magenta developer as shown in Figures 3c and 3d. Since the Charge anywhere except the red areas will be the Nagenta developer only attracted in these areas. The photoconductor material 10 is then again with charged with a low gamma voltage, via a green filter 18 with the image 12 exposed and then developed in magenta developer as shown in Figures 3e and 3f.

The amount of magenta developer applied in the blue areas rebalances the deposit as an impurity in cyan developer Magenta dye off. In red areas where magenta dye is an impurity of the cyan developer, there is of course a certain, nominal application. By using the minus red filter in conjunction with the consecutive Charges with high and low gamma voltages will do the required color correction obtain. The color correction in one of the two methods is new and controls up to some extent the magenta deposition in a blue area while others Areas in which magenta color stop; a contaminant of the cyan developer.

After developing the blue area of the image after the second type of color correction is related to the red area in the following way developed with a color correction. Here, the photoconductor material 10 is with a high gamma voltage charged, through a minus green filter 20 with the reproduced Image 12 exposed and then developed in yellow developer as shown in Fig. 4a and 4b. In this case, an amount proportional to the high gamma charge is generated in the area Yellow developer raised. This amount of yellow developer results together with the cyan dye, already from previous development in the field is present, the color green.

Next then the photoconductor material 10 with a low Gamma voltage charged and reproduced via a minus red filter 22 with the Image 12 exposed.

A charged area corresponding to the red area of the image is then retained on the surface of the photoconductor material 10, as in Figure 4c shown. The photoconductor material is then developed again in yellow developer, as shown in tig.4d. The one applied in this way in the charged area The amount of yellow developer is the same as that contained as an impurity in magenta developer and yellow dye applied in a previous development. By this combination of yellow and magenta developers results in a color-corrected one Red.

Of course, the sequence described above can be used for the Color development and color correction, to control them, filters, the gamma charging voltage, the exposure time and the color developer sequence used are selected will result in different color corrections. The process steps described above by their nature show a certain flexibility and adaptability, so that by rearranging the order in color printing, the color tone qualities of the Color copy or color print can be changed continuously and continuously, the requested, color-corrected print or the requested copy with the original To obtain transparency or luminosity, containing color impurities Pigments or dyes are used.

According to the invention is a color correction method for electrostatic Color printing created, with which the errors of the known color correction systems eliminated and are overcome. With the method according to the invention, the shortcomings are the developer compensated for making color copies or prints with an electrostatic Color printing system can be used.

Of course, various can also be used within the scope of the invention Changes and modifications made will. Also is that The invention does not exclude those described in detail and shown in the figures Embodiments of the color correction method according to the invention are limited.

Claims

Claims (7)

Claims 1. 'Color correction method for producing a copy or a print, whereby the surface areas of a certain color are color-corrected are, in that a high gamma charge in the Areas is applied that the areas are developed with a developer, which has a first constituent of the particular color that has a low gamma charge is applied in the areas, and that the areas with a second developer which has a second component of the particular color. 2. The method according to claim 1, characterized in that g e k e n n -z e i c h n e t, that the particular color is blue, that the first component of the developer is cyan dye and the second component of the developer is magenta dye. 3. The method according to claim i, characterized in that g e k e n n -z e i c h n e t, that the particular color is red, that the first component of the developer is magenta dye and the second component of the developer is yellow dye. 4. Color correction process for making a copy or of a print with color corrected areas of first and second colors, the first and second colors correspond to a template, in particular according to one of the preceding Claims, characterized in that a high gamma charge in the first color area is applied that the first color area with a developer is developed which has a first component of the first color that then a low gamma charge is applied in the first color area that thereupon the first color area is developed with a developer, the second Has part of the first color that also has a high Garnma charge the second color area is applied, then the second color area with a developer is developed which is a first component of the second color has that thereupon then a low gamma charge in the second color range is applied, and that finally the second color area with a developer which has a second component of the second color. 5. The method according to claim 4, characterized in that g e k e n n -z e i c h n e t, that not just a high gamma charge in the first color range, but a high gamma charge is applied in both color areas, and that areas exposed with an image of the original through a filter that the second color lets through. 6. The method according to claim 5, characterized in that g e k e n n -z e i c h n e t, that the second component of the developer, which corresponds to the first color, is the Developer is the one who is the first with respect to the first component of the developer Color correcting acts. 7. Correction process for making a copy or a print an image having color-corrected areas of first and second colors, which correspond to the first and second colors of a template, thereby g e k e n n notes that a high gamma charge on a photo conductive surface is applied that the surface with an image of the original through a filter, that transmits the first color, is exposed that a first developer with enem Part of the second color is applied to the surface that then again a high gamma charge is applied to the surface that then the surface with an image of the original through a filter that blocks the first color, however a second color passes through, is exposed, that then a low Ganma charge is applied to the surface, then a second is applied to the surface Developer is applied which has a different component of the second color and which has been corrected in this regard, that thereupon then a high gamma charge is used up on the surface, then the surface with an image of the template through a filter that allows the second color to pass through, is exposed and finally a third developer is applied to the surface, which is related to the first Color has a correcting effect. 8, the method according to claim 7, characterized in that g e k e n n -z e i c h n e t, that the first color is red and the second color is blue, and that the first, second and third developers are cyan, magenta and yellow developers, respectively. 9, method according to claim o, characterized in that that after exposure through the filter blocking the first color and before application Due to the low gamma charge, the second developer is applied to the surface will, L e r s e i t e