DE2348543A1 - CATHODE TUBE FOR PLAYING COLORED PICTURES - Google Patents

Description

PHN.6486 . Va / EVH.

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Akvo Ho .; 3? HNl · - 6486
Registration from; 21 Ji Aug 1973

Cathode ray tube for reproducing colored images

The invention relates to a cathode ray tube for displaying colored images, which is provided with a display screen which contains a plurality of separate areas which light up in three different colors when bombarded by electrons, while the tube further has a color selection screen with a plurality of openings and means for generating three contains electron beams converging to the display screen, each luminescent area being located in a path of an electron beam through one of the ^{openings called d, e} i *, which lighting areas are arranged according to almost parallel colored stripes, which are arranged in trios, each containing three colored stripes, which light up green, red or blue,

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Such a cathode ray tube is known and is often referred to as a shadow mask tube. A tube of the However, the type described in the introduction does not, like the shadow mask tube generally used at the moment, contain one Display screen with a hexagonal pattern of fluorescent dots, but is provided with a display screen with fluorescent strips, which in normal use vertically, i.e. perpendicular to the lines of a television grid. Such a display screen with fluorescent strips has the advantage that deviations from the correct point at which an electron beam hits the display screen must hit (so-called landing errors) that lead to the Direction of the stripes are parallel, resulting in no chromatic aberration because the electron beam is still on hits a stripe of the same color «The color stripes can be achieved by continuous stripes of a single color or by interconnecting elongated areas a single color, which together form a stripe. The openings in the color selection mask are formed by long gaps or by an interconnection of elongated openings, which together form a gap with stiffening bridges.

A disadvantage of such a cathode ray tube, however, is that landing errors perpendicular to the colored stripes result in much larger color defects than in the shadow mask drills with round fluorescent dots. This is one hand due to the fact that the width of the color stripes is a lot

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smaller than the diameter of the mentioned phosphor dots must be, because otherwise the line structure of the reproduced. Image will be visible in a disturbing way. on the other hand this is due to the fact that when the A color stripe fluorescent border the mislanding part of the jet increases linearly relatively quickly, while the incorrectly landing part of the jet when crossing the Fluorescent border of a round point square, and thus slowly at first, increasing.

The invention aims to provide a picture tube in which, while maintaining a certain distance between the trios of color stripes the color errors are significantly reduced.

According to the invention, a cathode ray tube of the type mentioned is characterized in that the The middle colored stripes of each trio light up red, and that the distance over at least part of the display screen between the centers of two adjacent colored stripes that lead to belong to the same trio, at least $ 5 more than the gap is between the centers of two adjacent colored stripes, one of which to the named trio and the other to belongs to a neighboring trio.

The reduction of the color errors due to landing errors of the electron beams, which when applying the invention is obtained is based on tests that have shown that the discoloration is caused by landing of the red electron beam (this name stands for the ray,

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that transports the red image signal) is received on the green or blue colored stripes, perceived as more disturbing as a landing of the green electron beam on the blue color stripe or a landing of the blue electron beam on the green colored stripes, while the latter is again perceived as more annoying than a landing of the blue or the green electron beam on the red colored stripes, Below green, red, and blue, here is the set of primary colors to understand the realization in the usual television systems optimal color rendering is used. In this context, the landing tolerance for the red beam is greatest and the landing tolerance for the green and blue beam is on the red colored stripes smallest chosen. This can be achieved by the mutual spacing or the width of the colored stripes be changed.

Since an important cause of color errors is the local expansion of the color selection mask as a result of heating by the electron beam and the color errors increase as a result of this cause from the center to the edge of the screen, a cathode ray tube according to the invention is particularly characterized in that the stated percentage of 0 $ increases in the middle of the display screen to a maximum of 20 % at the edge of the display screen.

A cathode ray tube according to the invention can also be provided with a light-absorbing layer between the separate colored strips to keep the amount from the display screen to reduce reflected ambient light.

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The invention is explained in more detail below with reference to the drawing, for example. Show it

. 1 shows a cathode ray tube according to the invention,

FIG. 2 shows, on an enlarged scale, part of the tube according to FIG. 1,

Fig. 3 and 5 two possibilities for landing the Electron beams without applying the invention, and

Fig. K and 6 two possibilities for the landing of the electron beams in a tube according to the invention for
Comparison with FIGS. 3 and 5

Fig. 1 shows a color television picture tube with a
evacuated envelope 1 _t which contains an electron gun 2, a color selection mask 3 »a display screen h and deflection coils 5. The electron gun 2 generates three electron beams 6, 7 and 8 which converge on the display screen k. The axes of the electron beams 6 _t 7 and 8 are in the non-deflected condition in the plane of the drawing. The deflection coils 5 deflect the electron beams 6, 7 and 8 in such a way that the display screen h
is scanned. The scanning is done in a known manner
according to a line grid, the lines of which are parallel to the plane of the drawing.

2 illustrates the color selection with the aid of a color selection mask 3 and represents the one framed by a circle Part of Fig. 1 on an enlarged scale. The color selection mask 3 is provided with a number of openings 9 which the Partially transmit electron beams 6, 7 and 8. As a result of the angle that the electron beams make with one another,

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the electron beam 6 only hits the fluorescent strips labeled G on the display screen k , which light up green. Likewise, the electron beam 7 only strikes red (r) fluorescent strips and the beam 8 only strikes blue (b) fluorescent strips. The display screen h is further provided in a known manner with a very thin aluminum layer which is permeable to electrons.

Three belonging to an opening of the color selection mask 3 Fluorescent strips form a trio. The fluorescent strips are almost parallel to each other and are perpendicular to the lines of the line grid already mentioned, Die 0effnung3n 9 are gap-shaped and are natural to the fluorescent strips parallel. In this context is under a slit-shaped Opening also a row to the fluorescent strips to understand parallel openings, which together form a gap with stiffening bridges. In connection with the way on which the tube is manufactured, these stiffening bridges can be seen in the fluorescent strips.

The tube is made by applying a photosensitive layer to a window portion of the tube and this layer is exposed to a light source, the position of which is closely related to the deflection point of the electron beams is in the deflection coils 5. For each to be attached Color of the fluorescent strips will therefore be a different place exposed. The exposure and development of the photosensitive Layer is carried out in a known manner by a photochemical or electrophotographic process. Because the

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If the light source is placed one after the other at positions more eccentric than the deflection points of the electron beams 6 and 8, the trio of fluorescent strips becomes wider than the trio of electron spots. Because the distance between the color selection mask 3 and the display screen h is increased, the trios become wider. A wider trio means that the distance between the fluorescent strips of the trio becomes larger, but the distance from neighboring trios becomes smaller. Since, as already noted, red is the most sensitive to landing errors, choosing red for the middle fluorescent strip of a trio reduces the color errors.

The invention can be practiced in various ways. Two possibilities are explained with reference to FIGS. H and 6 and compared with the known possibilities according to FIGS. In these figures, the fluorescent strips are shown hatched and further denoted by G for green, R for red and B for blue. The middle three stripes in each figure form a trio. The leftmost and rightmost stripes belong to neighboring trios. The impact spots of the electron beams are indicated schematically with rounded rectangles. The distance between the trios of fluorescent strips in FIGS. 3 to 6 is 0.700 mm, measured between the centers of two red fluorescent strips.

Fig. 3 shows a configuration in which the invention is not applied. In this configuration, the image * screen completely filled with fluorescent material. The fluorescent strips

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G, R and B are the same width, 0.233 mm each. The electron spots hit the center of the fluorescent strips. The landing freedom is for all three electron beams same size,

Fig. K shows a configuration obtained by applying the invention to the configuration of Pig. 3 is obtained. The red fluorescent strip R has a width of 0.300 ram. The green fluorescent strip G and the blue fluorescent strip B each have a width of 0.200 mm. As a result, the distance between the centers of B and G is 0.200 mm and between the centers of G and R or between the centers of R and B is 0.250 mm. The electron spots are squidistant. A comparison of FIG. K with FIG. 3 shows that the landing freedom of the red beam is increased. The landing freedom of the blue ray with respect to the green fluorescent strip and of the green ray with respect to the blue fluorescent strip has remained the same. The freedom of landing of the green and blue rays in relation to the red fluorescent strips is reduced, but the color errors caused by them are the least noticeable G, R and B and while maintaining squid-spaced electron spots is made narrower. Then a space not covered with phosphor is obtained between G and R or B and R, whereby a small landing error of the green or the blue beam

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23A8543

The consequence is that this beam does not land on the corresponding fluorescent strip, but also not yet on the hits the red fluorescent strip,

Fig. 5 shows a configuration in which the invention is not applied. In this configuration, the phosphor screen is not completely filled with phosphor. the Electron spots overlap the fluorescent strips here. Such a configuration with so-called negative tolerance is particularly well suited for filling the space between the fluorescent strip with a light-absorbing layer, so that the negative reflection of ambient light by the screen is limited »The fluorescent strips G, R and B each have a width of 0.080 mm. The distances between the Fluorescent strips are 0.233 mm. The center of the electron spots coincides with the center of the fluorescent strips. The landing freedom is the same for the three electron beams.

FIG. 6 shows a configuration obtained by applying the invention to the configuration of FIG. The fluorescent strips G, R and B also have a width of 0.080 mm. The distance between the centers of B and G is 0 _f i80 mm and the distance between the centers of G and R or "between the centers of R and B is equal to 0.260 mm. The electron spots are not equidistant. The distance between the electron spots of the green and the blue beam is greater than that between those of the green and the red or between the red and the blue beam. A comparison

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6 with FIG. 5 shows that the landing freedom of the red beam is enlarged. The, landing freedom of blue ray with respect to the green fluorescent strip and the green ray with respect to the blue fluorescent strip has remained the same. The freedom of landing of the The green and blue rays in relation to the red fluorescent strips have become a little smaller, but this has made them smaller Any color error obtained is the least noticeable.

It is clear that many modifications are still possible within the scope of the invention. For example, this can be the red one Beam generating electron gun in one somewhat greater distance from the one producing the blue beam Electron gun than the electron gun generating the green beam will. Then the fact is used that an impurity of red with blue is perceived as more disturbing than an impurity of red with green. These and other refinements are within the scope of the invention to one skilled in the art in the field of the invention are obvious.

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Claims (1)

- 11 - PHN. 6 ^ 86. PATENT CLAIMS: Π., Cathode ray tube for displaying colored images, which is provided with a display screen which contains a plurality of separate areas that are exposed to electron bombardment light up in three different colors while the tube continues a color selection mask with a multitude of openings and means for generating three on the display screen converging electron beams, each luminescent area in a path of an electron beam is located through one of the openings mentioned, which illuminate areas according to almost parallel colored stripes arranged in trios, each containing three colored stripes that light up green, red or blue, characterized in that the central colored stripe of each trio lights up red, and that over at least part of it of the display screens is the distance between the centers of two Adjacent colored stripes belonging to the same trio are at least 5 $ larger than the distance between the centers of two adjacent ones Is colored stripes, one of which belongs to the named trio and the other to a neighboring trio, 2, cathode ray tube according to claim 1, characterized in that said percentage increases from 0 $ in the center of the display screen to a maximum of 20 fo at the edge of the display screen, 3. Cathode ray tube according to claim 1 or 2, characterized in that the display screen with a light-absorbing Layer is provided between the separate color strips, 4 0 9 8 17/0738