DE1762813A1 - Color television camera - Google Patents

Description

l'color television camera The invention relates to a color television camera in which the light incident through the lens finitely help a Stralilteilereinriclitun, _; is divided into i @ 'extracts and touch color separation pictures on the light sensitive Layer of a recording tube are projected. .: I@'a.rbfernselikameras are already known for which for , a television tube is provided for every four color separations is. Aei these l-arbfernselikaiiieras is only under major technical difficulties to achieve that the scanned aaster of the individual Aufnahiierfihren with each other are congruent so that there are no colored edges. @@ i: i to circumvent these difficulties, it is known to the licitei: ijifiiidliche layer of a single recording tube the object to be recorded with the help of a multitude of lying one on top of the other corresponding to the basic colors e'arf) p; ziikteri to map. here the color points can be like be arranged at the shadow mask tube. It can, however a.iicii colored stripes are provided that follow each other at) "; et: is te t be. ilie can be used for this purpose, consisting of many different durr:; earth the lead ducks together, ride them at the: fers partly great technological difficulties. .. (. 3i of another known 1'arüfernselilca.iiiƒra is therefore the (: i jil'a..li ende luminous flux in herkömi, ilicher:; (eise in several partial light streams divided. These partial light currents pass through strip diaphragms and are then combined again, so that an image is created on the light-sensitive layer of the pick-up tube, which is composed of differently colored strips. In this case, however, apart from the animal position of the strip diaphragms, the adjustment of the same presents great difficulties.

The object of the invention is to provide a color television camera in which, while avoiding the above-mentioned difficulties, the color separation images are projected onto the photosensitive layer of a pickup tube in such a way that the images are composed of individual elements corresponding to the primary colors. According to the invention, the object is achieved in that the color separation images are first projected onto the light entry surfaces of a glass fiber bundle and that the glass fiber bundles are interwoven in such a way that they form a common exit surface on which an image is created which consists of a mosaic of colored dots.

The invention is explained in more detail with reference to the figures. Of these: FIG. 1 shows an exemplary embodiment according to the invention with a receiving tube which is connected directly to the glass fiber bundle.

Figure 2 proposals for the arrangement of the individual dots of color on the exit surface Figure 3 shows an inventive embodiment in which the television camera tube is optically connected via an additional lens with the beam part device 4 is a color television camera according to the invention with a further Aufnahmeröhre.zur ER- generation of the luminance signal Identical parts are given the same reference symbols in the figures Mistake. The vow object 1 originating and incident through the lens Light 2 is generated with the help of the prism system 3 in the color television camera. according to Figure 1 in three partial luminous fluxes that the correspond to three basic colors, divided. That on the surface 4 reflected light is with the help of the mirror °. on the Light entry surface 14 of Glasfaserstra.nges 11 guided. That Light reflected from the surface 5 passes through the mirror G to the light entry surface 12 of the glass fiber strand 9 and finally the light which the prismatic system 3 passes through unreflected, to the surface 13 of the fiberglass strand 10. To the common exit surface 15 of the glass fiber strands 9, 10 and 11, the receiving tube 16 is connected, which over has a fiberglass front panel. Through the lens :: and the division means 3 to 7 become color separation images projected onto the bicht entry surfaces 12, 13 and 14. In FIG. 2a, these are light entry surfaces 12, 13 and 14 shown schematically, where the diameter of the glass fiber »: is reproduced considerably enlarged. On the surfaces 12, For example, 13 and 14 become the red, green, and blue Projected farba extract. t: ie it by the dashed lines is indicated, a glass fiber is alternately from the light entry surface 12, one of the light entry surface 13 and one from the light inlet opening 14 to the exit surface 15 guided. To with this interweaving for the exit area 15 to have the same format as for the entrance areas, take the glass fibers from the entrance a different cross-sectional shape to the exit surface. However, it is also more pronounced flax. Disadvantage if the @ 3ild on the exit surface has a different fori: iat than on the entry areas, as there is a deviation in this regard vii easily by setting the deflection sizes accordingly to 1: are to be compensated. Instead of the strip-shaped arrangement shown in FIG. 2a, other groupings of the. Color points are chosen. Examples of this are shown in FIGS. 2b, c and: d. The arrangement of the color dots shown in FIG. 2d corresponds to that on the screen of a shadow mask type picture tube.

FIG. 3 shows an arrangement in which the object, the dividing device and also the glass fiber strands are constructed in the same way as in FIG. However, in order to be able to use Vernseha.aufnahmeröhren without a glass fiber front plate, a further lens 17 is inserted here, which projects the image produced on the exit surface onto the light-sensitive layer of the television pickup tube 16 '.

In the case of color television, it is known that it is sufficient for the transmission of the color information a smaller hand width than for the transmission of the luminance information. That that is, in the case of a camera in which you can see a sharp black and white picture with the help of a camera special receiving tube provided for this purpose, may have lower requirements the sharpness or bandwidth of the optical and electronic system for the Parb information can be provided.

FIG. 4 shows such an arrangement in which the light incident from the object i through the objective 2 first reaches the prism system 3 '. The prism system 3t acts like a semi-transparent mirror. Regardless of the wavelength, part of the light is passed on via the deflecting mirror 1b to the receiving tube 19, at the output of which the so-called luminance signal is available. The light not reflected in the prism system 3t 'reaches the frism system 3 and, as already described in connection with FIG. 1 and FIG. 3, is guided to the receiving tube 16t. In the arrangement according to Figure 4, because of the low demands on the sharpness of the color information-transmitted optical system the ilas fibers of the itrange '.), 10 and 11 have larger diameters, whereby they are easier to manufacture. Thanks to the television-watching Abtas tumb des Aldes on the step surface 15 creates a television signal in which time- sequentially the information about the three basic colors are included. Within the time a mildelenent is scanned, three signals arise one after the other, the correspond to the three round colors. These chronologically successive The following signals can be used with known circuit arrangements for inverting time-division multiplex signals in equal Timely occurring signals in color television technology Cake color value signals are unconverted.

Claims (5)

Claims 1 .. Farbfernsehkauera, in which that through the lens incident light is divided into Parbauzue with the help of a beam splitter is and several parbauzugbilder on the photosensitive layer of a pickup tube are projected, characterized in that the color separation images initially on the light entry surfaces are each projected from a fiber optic bundle and that the Fiber optic bundle like that. are intertwined that they have a common exit surface form, on which an image is created, which consists of a mosaic of colored dots. 2. Color television camera according to claim 1, characterized in that the pickup tube is provided with a front plate made of fiberglass, which is directly connected to the exit surface the fiber optic bundle is connected. 3. Color television camera according to claim 1, characterized characterized in that the image on the exit surface with the help of a further lens (17) is projected onto the photosensitive layer of the television pickup tube. 4. Color television camera according to claim 1, characterized in that for generation of the luminance signal a further pick-up tube is provided. 5. Color remote selikaiuera. according to claim 1, characterized in that stripes corresponding to the basic colors and perpendicular to the scanning direction of the pick-up tube are formed on the exit surfaces. G. Farbfernsehl (amera according to claim 1, characterized in that da.ß the color of the color dots both in the scanning direction and also changes perpendicular to it. 7. Color television camera according to claim 1, characterized in that that the color points in groups of three like the color points of the Shadow mask tube are arranged.