DE1025003B - Color television playback honor - Google Patents

Description

GERMAN

The invention relates to a color television picture display tube, in which between the electron sources and the screen, the discrete, surfaces lined up according to a specific, regularly repeated pattern at least two at 5 Electron impact flashing in different colors Contains substances, a mask is in place, d. H. an electrode with a large number of openings, which carries the same potential over the entire surface. ίο

As is well known, one combs with a display tube above-mentioned type produce a color television picture in that at least one electron bundle under different angles through the openings in the mask onto the discrete luminescent surfaces of the Screen is directed. Some tubes of this type contain several, di. H. at least two electron syringes', each one electron beam for one produce certain color; in other tubes there is only one electron syringe, the one Electron beam is generated, which is used alternately for the different colors. With both types of tubes determines the direction of passage of a beam through the mask, which of the different luminescent Surfaces is hit and thus which color lights up.

The mask can have different shapes; it is z. B. a mask is known, which consists of a plate with a very large number of circular openings consists. In another embodiment, the mask consists of parallel, thin; Wires. The order the discrete areas of the various luminescent substances on the screen of course the shape and position of the mask openings and adapted to the direction in which the electron beams hit the mask. With a mask with circular openings z. B. a distribution of the luminescent substances in a dot pattern applied. A screen is most often used with a mask with parallel wires with a striped pattern of different luminescent substances, the strips being parallel to each other extend the mask wires.

The mask can also be used ^{to focus the electron beams 1} between the mask and the screen. Such focusing has the advantage that, given a fine pattern of the luminescent surfaces on the screen, wide openings can still be used in the mask. The ratio of the number of transmitted electrons to the number of electrons captured by the mask is of course more favorable; thus the luminescence yield of the tube is higher while maintaining the color cleanliness.

Color television display tube

Applicant:

NV Philips' Gloeilampenfabrieken,
Eindhoven (Netherlands)

Representative: Dr. rer. nat. P. Roßbach, patent attorney,
Hamburg 1, Mönckebergstr. ?

Claimed priority:
Netherlands 21 January 1956

Edward Fokko de Haan and Hajo Bruining,

Eindhoven (Netherlands),
have been named as inventors

The focus is created by means of an electric field between the mask and a counter electrode is produced. This counter electrode consists z. B. from a thin, permeable to electrons Metal layer with which the screen is covered on the side facing the mask and one of them • higher voltage than that supplied to the mask. Instead of a single metal layer, there is a wide-meshed one Grid applicable that is on or very close to the screen.

Calculations show that an optimal focus at a certain ratio of Voltages of the counter electrode and the mask is achieved. The is under optimal focus To understand the state in which the electron spot on the screen has the minimum dimensions.

In the case of a mask with circular openings, the tension ratio must be the same as mentioned above Focusing method 9: 1, with a mask with Parallel wires are 4: 1. It follows from this that this voltage ratio is strongly dependent on the shape of the openings in the focusing Mask.

It is very difficult to construct a mask with parallel wires with sufficient strength. The construction is also costly, since high accuracy requirements are to be made. Yet one will prefer the use of parallel wires with a focusing mask, because in this one For optimal focusing, the voltage of the counter electrode is only four times the voltage of the trap In contrast to a mask with circular

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moderate openings at which this tension relationship 9: 1 must be.

The smaller this ratio, the higher the final voltage that can be selected for the electron injection will. The maximum permissible tube voltage is limited anyway for safety reasons; one high final voltage of the 'electron syringes is desirable, since then a good bundle is easiest can form. There is also a smaller voltage drop

In general, all rectangles of the mask and also all angles of a rectangle are the same Way rounded. The fillet lines can form parts of a circle, and the length of the radius this circle is preferably between a quarter and three times the length of the short one Rectangle side.

As indicated above. it is necessary that the fillet lines are fluid., i. H. she

The difference between the mask and the counterelectrode is favorable, OK must not have any kinks, their included ones because their mutual distance is small. The smaller the angle is greater than 20 °, and that it is with the the tension between these. Electrodes is made to have sides of the rectangle, which are parallel to the strips Flashover and spray luminescent substances extend an angle of less obstructive start up. include less than 20 °. You can e.g. B. this

Applying a mask with para-hero wires 15 touch the long side. It is not necessary that the has the further disadvantage that it forms such a small angle with very rounding lines Difficult to bend in one or two directions, pour in the short sides of the rectangle. Left with one. Nevertheless, such a curvature is often a particularly advantageous embodiment form the desires, in particular if the luminescent substances are rounded parts of a circle, the radius of which on the curved surface of the tube window 20 is equal to twice the length of the short side of the rectangle should be attached. Using one is and touching the middle of the other side. It flat mask, so color uncleanness occurs easily. This creates lenticular openings.

If the mask is a plate with circular openings, it can be seen that the voltage ratio of the

gen, a curvature in one or in the focusing mask and the counter electrode can be added Carry out two directions very easily, e.g. by setting the optimal focus for the different shapes

a flat plate is bulged. With a mask with para-hero wires one could with great difficulty realizing a curvature in a single direction, but a curvature in two directions is impracticable.

A color television display tube according to the invention contains at least one electron syringe, a screen with at least two parallel strips attached to the screen by electron beam in different colors of luminescent fabrics, one between the screen and the The focusing mask arranged in the electron syringe and a counter electrode and is thus

the openings is somewhat different. In any case, it is less than 1: 6. The aperture of the mask naturally depends on the shape of the openings and the amount of material between the openings However, the passage can be up to about 60%

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without making the mask too weak. A mask of a tube according to the invention can be simple Way to be curved in one or two directions.

The invention is explained in more detail with reference to a drawing in which

Fig. 1 shows schematically a tube according to the invention; the

Fig. 2, 3 and 4 show parts of three embodiments

draws that the openings in the mask are rectangles

the long sides of which are parallel to the strips 40 of a mask of a tube according to the invention;

extend on the screen, the minimal Fig. 5 shows an exactly right-angled opening of a

Ratio between the length of a long side and the length of a short side is 4: 3 and the maximum ratio is 40: 1 and the angles of the rectangles are rounded off by flowing curves which, viewed from the center of the rectangles, are concave are ·, and an angle with the long sides of the rectangle include less than 20 °.

Similar to masks with para hero wires

focuses a mask with purely right-angled openings 50 different colors of luminescent fabrics

openings, the long sides of which are parallel to the Rieh- is covered, which strips perpendicular to the plane of the drawing are. The mask 11 with a large number of rounded openings is located in front of the screen 9 rectangular shape, their longitudinal direction

Mask and the resulting light spot;

6 shows, on an enlarged scale, various embodiments of openings in the mask a tube according to the invention.

In Fig. 1, 1 denotes the wall of a display tube with three electron syringes 3, 5 and 7. In the large part of the tube is a screen 9, which is made with parallel, alternating strips of three

tion of the strips of luminescent fabrics on the Büidsdhirm, a bundle of tin electrons, the one Opening passes through, and forms a line, so that a

line-shaped light spot is created. In both cases 55 are parallel to the direction of the stripes on the image

If the error occurs that the ends of the light spots are out of focus, so that color imprecision occurs can. In the case of a mask with parallel wires, the ratio between length and width of the openings

screen 9 extends. On the screen is the counter electrode 2 in the form of a thin, for Electron-permeable metal layer. The figure also shows a concentration coil 13 schematically

is about 800: 1, this deviation acts as a result of the 60 and a deflection coil set 15. long length of the light spots not very disturbing. It occurs Fig. 2 shows a part on an enlarged scale

also nmr on the sides of the screen that correspond to the embodiment of the mask 11 of the tube can be easily covered. In a tube with Fig. 1. It can be clearly seen that the openings a large number of relatively short, right-hand 17 in this mask the shape of rectangles with angular This flaw has a very annoying effect on openings, having 65 rounded angles. The openings are in there are all short spots of light across the whole picture in un- horizontal rows next to each other and in vertical rows Columns one below the other.

Fig. 3 shows, on an enlarged scale, part of another embodiment of a mask with the same opening shape as that of Fig. 2. In this

have sharp ends. By rounding off the rectangles in a tube according to the invention avoided these fuzzy ends for the most part.

In the case, the openings are neither in rubbing nor in the columns directly next to one another.

Fig. 4 shows yet another embodiment of a mask, with the openings in the rows immediately next to each other, but not directly next to each other in the columns.

Fig. 5 shows an opening 19 of a purely rectangular shape, that is, in a display tube according to the Invention is not applicable. This figure only serves to illustrate the shape of the light spot that is obtained by such an exactly rectangular opening with optimal focusing. This spot of light is designated by 21 in the figure. At the ends it is widened and somewhat forked. It can be seen that an image assembled from such light spots: a very unpleasant impression and also easily causes color uncleanliness as a result of the widening at the ends of the spots.

Fig. 6 shows three embodiments a, b and c of openings on an enlarged scale, which openings are applicable in a mask for a tube according to the invention. The dashed lines in the three figures indicate the rectangular shape from which the openings are derived. To enable a comparison with FIG. 5, these rectangles are all the same size, ie the size of the rectangle according to FIG. 5. In FIG. 6, α the angles are rounded off by circles with a radius 23 equal to half of the short side of the rectangle. In addition, the rounding is chosen so that the circle touches both the short and the long sides of the rectangle. However, this is not necessary; the angle between the rounding circle and the long side of the rectangle must not be greater than 20 °, but the angle to the short side of the rectangle can be greater, whereby part of the short side of the rectangle can remain. In this figure, 25 denotes the light spot which is obtained through this opening with optimal focusing. This optimal focusing requires a voltage ratio between the counter electrode and the mask of about 5.5: 1.

In Fig. 6, b the radius of curvature 27 is equal to the length of the short side of the rectangle. The arc touches the long side, and the center of the circle, which of course lies in this case on the other long side of the rectangle, is chosen such that the two arcs intersect in the center of the short side of the rectangle indicated by the dashed line. Such an opening results in a light spot, which is designated by 29, with a ratio of the voltage of the counter electrode and the mask of about 5: 1.

In, Fig. 6, b deir the radius of curvature 31 is equal to twice the length of the short side of the rectangle. The center lies on the vertical line of the long side of the rectangle, in such a way that the rounding arc touches the long side of the rectangle. With these dimensions a. small piece of the short side of the rectangle remain, but it is replaced by a strongly curved connection of the two large arcs. In this embodiment, an almost ideal light spot 33 arises with a ratio of the voltage of the counter electrode and that of the mask of approximately 4.5: 1.

To illustrate the real dimensions of the openings in the mask of a tube according to the invention, some data follow below for an embodiment with openings according to FIG. 6, c, arranged as in FIG generate red, green or blue light. These luminescent strips each have a width of 200 μ and a length of 40 cm and adjoin one another in the order red, green, blue, red, green, blue, etc. The effective total surface of the screen is about 1200 cm ² . On the side of the electron syringe, this screen is covered with an aluminum layer with a thickness of about 0.2 μ. The mask 4 is arranged parallel to the screen at a distance of approximately 10 mm. This mask consists of a copper plate in which the openings are made by etching. The length of all openings is the same, ie 1.6mm; the width is 0.435 mm. 222 openings are provided in a row, ie in a line parallel to the direction of the luminescent strips on the screen. Between these openings is material 0.2 mm wide, measured between the centers of the short sides of the openings. There are 500 rows of openings in the direction perpendicular to the luminescent strips. The distance between the center lines of two rows is 0.6 mm.

Claims (7)

Patent claims: 1. Color television display tube with at least an electron syringe, a screen with at least two in parallel strips on the Substances attached to a screen that light up in different colors due to electron impact, a focusing mask placed between the screen and the electron syringe and a counter electrode, characterized in that the openings in the mask are rectangles, their long sides extend parallel to the strips on the screen, the minimum ratio between the lengths of a long and a short side 4: 3 and the maximum ratio 40: 1 and the angles of the rectangles are rounded off by flowing lines that, from seen from the center of the rectangles, are concave and form an angle with the long sides of the rectangle include less than 20 °. 2. display tube according to claim 1, characterized in that the corresponding angle of all rectangles are similarly rounded. 3. display tube according to claim 1 or 2, characterized in that the four angles one Rectangles are rounded in the same way. 4. display tube according to claim 1, 2 or 3, characterized in that the rounded lines Form parts of a circle. 5. display tube according to claim 4, characterized in that the length of the radius of the roundings is between a quarter and three times the length of the short sides of the rectangle. 6. display tube according to claim 5, characterized in that the length of the radius of the rounding lines is equal to twice the length of the short sides of the rectangle and the rounding lines touch the long side of the rectangle in the middle. 7. display tube according to claim 1, 2, 3, 4, 5 or 6, characterized in that the mask in is curved in one or two directions. 1 sheet of drawings © 709 907/125 2.58