DE752763C - Method for the transmission of color television pictures using a storing picture transmitter tube with cathode ray scanning and a moving color filter switched into the optical beam path - Google Patents

Description

The invention relates to a method for generating ¹ - partial images which each correspond to the individual color values of a multicolored image to be transmitted by television. As is well known, it is necessary in the case of colored transmission to first resolve the image into its color values and to separate the heat distribution for each color value. Establish image.

In general, filters are used to generate the partial images through which the image to be sent is projected. These filters only allow one basic color each 'through, which is then done with the usual methods known from television technology is checked for their distribution of health. So far, the color filters were in the optical Arranged beam path, in general as close as possible to the aperture stop of the imaging optics, which the image to be transferred on the photosensitive layer of the image transmission tube

maps. In these known arrangements there is a need to do so by leaps and bounds to cover the previously released color filter and another one that was previously covered Color filter to release :. To avoid annoying shading, the cover may of the previously released filter only after: Beginning of the not for image transmission serving so-called return time take place ίο and! must still be during this return period be finished. Accordingly, the previously covered filter must only be released begin after the start of the return time and must be finished during this. at the short return times usual in television technology and the with regard to the The large lens diameter, which is common in light economy, results in a high speed the diaphragm edge controlling the filter cover or filter releases. One leads this diaphragm, as it is easiest, as a rotating slit diaphragm, then result As a result of the high required speed of the control edge, such high numbers of revolutions and such large diaphragm disc diameters, that in the manufacture and operation of such systems, very large mechanical and constructive Difficulties arise.

Another known arrangement seeks to avoid these difficulties by that between the color filters located near the aperture stop of an imaging optics on the one hand and the light-sensitive layer of the picture tube on the other remotely transmitted image in an intermediate imaging plane on a transparent Lenticular screen is shown in focus. This grid plate has a cylindrical lens grid, each individual cylinder lens being assigned to an image line. This causes that the incident light rays from: the imaging optics. different Color are deflected to different degrees, so that on the photosensitive layer the picture tube for each picture line three different colored, closely spaced Image lines arise. This photo mosaic layer must now be exactly along the individual Color lines are scanned by a cathode ray. In practice this was necessary However, this method has not been tried and tested because it is using the means available up to now it completely excluded the cathode ray in the prescribed 'way exactly along the individual ones determined by the cylindrical lens grid! Lines to: lead. While z. B. in this procedure; for a picture of; 441 lines a geometric line precision a fraction of a per thousand would be necessary, are the best achieved so far Accuracies several orders of magnitude worse.

Even if one of the known color filter arrangements were to be assembled with a storing picture transmitter tube, and the difficulties mentioned ^{1 could} be eliminated, then a correct tonal transmission of color pictures is not yet given, because there is 1> the disadvantage that due to the storage capacity of the mosaic during scanning, the level of the scanned potential does not correspond exactly to the brightness of the color phase scanned in this way, but will be influenced by the brightness of the previous color phases. In the present invention, this difficulty is also avoided by a very specific arrangement in that the scanning cathode ray is in a very specific manner relative to the movement of the color filter.

According to the invention colored for transmitting television pictures using a stored image, the end tube having cathode ray scan undi a ^switched-1 the optical path color filter · this filter is arranged in an intermediate image plane and ljewegt such that the on the photosensitive: boundary between two color regions of the filter shown layer always close behind the scanning cathode ray runs. The arrangement of the filter in an intermediate imaging plane results in the significant advantage that the dividing line between the individual color zones of the filter is imaged in an optically sharp manner on the photosensitive layer of the image capture tube. This sharp image of the dividing line enables full utilization of the storage effect of the picture transmitter tube, because now the dividing line of the zones irradiated with different colored light; of the photosensitive layer can be moved very close to the line written by the scanning cathode ray, and thus falsifications of the reproduced color shade can be avoided with certainty.

Furthermore, the method according to the invention has the advantage of a relative advantage slow: ground movement, because the image of the controlling edge of the Slit diaphragm only needs to move at the speed of the line feed over the moving photosensitive layer.

In the following, the invention is illustrated by means of an exemplary embodiment Figure described. The image to be transmitted ι is by means of an objective 2 on a Color filter 3 shown, which consists of an endless strip of film with periodically itself

repeating color areas and moves continuously in front of the image storage tube 6. Instead of a film strip, ^{1 can} also be a rotating three-color screen, the colors of which are e.g. B. are arranged on a cone rotatable on the axis, use. When using a film tape · the individual color areas are as large as that on the film strip with the help of the lens

ίο designed picture. By means of another Lens 4 is the intermediate image and the respective color area on the mosaic plate 5 the image storage tube 6 is projected. The speed and direction of movement of the

IS color films must be chosen so that the Color change runs synchronously with the picture change period. According to the invention, the limit between two color areas run chronologically closely behind the scanning beam, as a result of which full utilization of the memory effect of the mosaic is guaranteed for each color.

With the specified arrangement can also

the two-line jump procedure generally used today be performed. For assigning the color areas to the even-numbered ones and odd numbered lines have several possibilities. It can e.g. B. the size of the Color areas or the running speed of the color filter can be set so that only a single color range is shown for the even and uneven numbered lines will. During the duration of a monochrome partial image, the first, third, fifth etc., then the second, fourth, sixth line is scanned and then for the next color again the first, third, fifth and second, fourth, sixth, etc. lines. Another way consists in first all three color images with odd numbers: lines and then all three with even lines to be scanned.

Finally, the first, third, fifth line etc., after the color change the second, fourth, sixth etc. line, after repeated Color change again the first, third, fifth, etc. come to the scanning.

Claims (2)

PATENT CLAIMS: 1. Method of transmitting color television images using a storing picture tube with cathode ray scanning and one switched into the optical beam path moving color filter, characterized in that the filter is in an intermediate image plane is arranged and moved so that the boundary formed on the photosensitive layer is alb two color areas of the filter always close behind the scanning cathode ray runs. 2. The method according to claim '1, characterized characterized in that during a transmission according to the · interlaced method, the Line change from even-numbered to odd-numbered lines after each color • change is made. To differentiate the subject matter of the invention from the state of the art, the granting procedure the following publications have been considered: German patent specification No. 233 688, 466712, 574174;
French patent specification No. 814085, 825809; Austrian Patent No. 152 528; Swiss Patent No. 171 541; »Television« magazine, August 1937,
P. 480. 1 sheet of drawings © 5674 1.53