DE1462481B2 - Color television tube - Google Patents

Description

The invention relates to a color television picture tube having a screen of red, green and blue Fluorescent strips and with three electron beam systems of the same length for the generation of electron beams, each of which excite the fluorescent strips of one of the three colors, the electron beam systems are arranged side by side in a common section of the tube so that their three axes are in lie in a common plane and the axis of the central electron beam system with the tube axis coincides, and wherein the diameter of the mean electron beam system is smaller than that of the two lateral electron beam systems.

This known from US-PS 28 50 658 design of a color television picture tube has the advantage that the three electron beam systems can be closer together than with tubes in which the three electron beam systems have the same diameter. In this known color television picture tube, however, the three electron beam systems designed so that they have the same electron beams with exactly the same cross-section produce. This requires an additional effort, because normally the cross-section of a The larger the electron beam, and consequently the point of light generated by it, the finer it is Diameter of the electron beam system.

The object of the invention is to provide a color television picture tube of the type specified in the introduction, in which the axes of the three electron beam systems without additional effort and yet arranged close together without noticeable impairment of the image quality are.

According to the invention, this object is achieved in that the mean electron beam system of is assigned blue color and generates an electron beam whose cross-section is larger than the cross-section of the two lateral electron beams.

The invention is based on the knowledge that the luminance of the image and thus the reproduction of the Image details are essentially determined by the red and green image components while the blue components of the image practically do not contribute significantly to the luminance, except in large areas Zones of blue color, such as the sky or the sea, where the reproduction of image details is not important is. In the color picture tube according to the invention, this fact is exploited in that one in the Center-lying electron beam system with a smaller diameter is used as a blue-beam system, but without Take special measures to reduce the cross section of the generated by this electron beam system To reduce the electron beam and to match the cross section of the two lateral electron beams. The point of light generated by the blue-ray system in the middle is therefore proportionate coarse, but for the reasons outlined above, this has no adverse effect on the image quality.

On the other hand, the advantage of the small center distance remains fully received.

The invention is described below by way of example with reference to the drawing. In it shows
F i g. 1 a three-color tube of a known type,

2 shows a cross section through a known arrangement the beam systems in the tube of FIG. 1 and

3 shows a cross section through the arrangement of the Beam systems in the tube according to the invention.

The tube of Fig. 1 is with vertical luminescent strips, a focusing grating and three Beam systems equipped, the grille and the screen are flat and rectangular.

A luminescent screen 2 has consecutive red, blue and green stripes - R, B and G, ^f , three adjacent different colored stripes forming a triple.

In the drawing some luminescent strips are shown, their dimensions for clarity because of being exaggerated. In reality the tube contains a large number of tripeins, each of which must provide one pixel on each line.

In front of the screen 2 there is a grid of very fine wires which are arranged parallel to the strips where the number of wires corresponds to the number of triples. The distance between the grid 3 and the screen 2 is also very much exaggerated in the drawing.

Three electron beam systems 4, 5 and 6 with electrostatic concentration, their axes in the same horizontal plane, deliver three electron beams. '■

Between the exit of the jet systems and, in the vicinity of the grille, the piston 1 is provided with a conductive Coating 9 is provided, which forms an electrode, usually called the "anode" of the cathode ray tube will.

Another circumferential electrode 8, the correction electrode, is located between the anode 9 and the grid 3 is called. The drawing is assumed to be composed of a metal frame, however it can also consist of another conductive coating applied to the piston and from the Coating 9 is insulated.

The tube also contains a conventional electromagnetic one Deflection arrangement 7, which is analogous to the deflection arrangement of black and white tubes, and of which only a part can be seen in the drawing.

Such a tube works as follows: The screen 2 is brought to a potential Ve , which is high compared to the potentials of the cathodes of the beam systems, and the grid 3 is brought to a smaller positive potential Vg , so that the grid-screen arrangement a Sy-

stem of converging cylinder lenses for the electron beams coming from the beam systems. The conductive coating 9 on the inner wall of the tube is brought to the highest potential of the beam systems. It is essentially equal to the potential Vg of the grid.

The beam systems 4, 5 and 6 form the red beam system, the blue beam system and the green beam system, respectively. The electron beams emitted by them are defined by the red signal, the blue signal and the green signal modulated. Under the combined effect of horizontal deflection and vertical deflection, the are generated by the deflection assembly 7, the three electron beams .von their rectilinear Runways deflected so that they line the screen perpendicular to the wires of the grid and to the Spread luminescent strips.

This simultaneous scanning takes place at every point in time in such a way that the three electron beams emitted by the red ray system, the blue ray system and the green ray system first converge at a point P , which is approximately in the lattice plane, and then on the red stripe, the blue stripe or the green one Stripes of the same tripice hit.

This result is achieved by a complicated arrangement, which includes the following measures: Slight inclinations of the axes of the two lateral beam systems relative to the axis of the central one Beam system (of the order of 1 °, which cannot be seen in the drawing); the focusing effect the grid-screen arrangement; a so-called dynamic convergence device, which is used in the Drawing is not shown and at least two of the three electron beams at the exit of their beam systems minor auxiliary deflections are given, depending on the general scanning movement change; and the corrective effect that is achieved with the aid of the electrode 8, which is dependent on one of the general scanning movement changing potential is placed, this electrode essentially serves to pre-correct the deflection of the disturbance, which causes the focusing of the electron beams in the Accompanied grid-screen-interspace.

Such a tube is known per se, and the arrangement described has no special feature, apart from the fact that in general the blue ray system does not form the middle ray system and the '-' blue stripe is not the middle stripe of the triplet delimited by the grid wires.

The tube of Fig. 1 is an example of the possible application of the invention.

The advantages of using three beam systems lying in one plane in one tube of this type, in particular for achieving convergence are well known, but one must generally care do without if you use luminescent strips of very small width, for example 0.25 mm, which is advantageous for the horizontal resolution of the image.

For a given length of the tube neck, the axes of the three beam systems must be the same closer together, the narrower the luminescent strips are. For the sake of space it is on the other hand, it is not desirable to lengthen the tube.

On the other hand, the light point of an electron beam is the finer (which for the horizontal resolution or vertical resolution of the image is desired), the larger the diameter of the three beam systems, and in this regard it is not desirable to sign 8 or 9 mm.

The invention is based on the following facts: Statistically, the luminance of the image and hence its resolution is essentially provided by the red and green optical components of the image, while the rendering of the blue components practically does not contribute significantly to the luminance, except in large areas of blue color, such as the sky or the sea, for which a very good resolution is not particularly interesting. - "

You can therefore opt for the »blue ray« emitted by the blue ray system with a fairly coarse one Satisfy the light point and consequently with a smaller diameter, for example 4 to 5 mm for the Blue beam system. If one also takes care that the central ray system reproduces the blue Color is assigned, with the triples delimited on the screen by the lattice wires, of course, of such a nature are that 4s. The blue stripe is the middle stripe, one can see the axes of the three beam systems approach each other considerably, as comparing FIG. 2 and 3 shows where the cross-sections in a vertical Level in the vicinity of the ends of the beam systems facing the grating, on the one hand, for a conventional arrangement of three beam systems with a diameter of 9 mm (FIG. 2) and on the other hand for one according to the invention Arrangement with two lateral jet systems with a diameter of 9 mm and a central jet system 5 mm in diameter (Fig. 3) are shown.

For this purpose 2 sheets of drawings

Claims (1)

Claim: Color television tube with a screen with red, green and blue fluorescent strips and with three electron beam systems of equal length for the generation of electron beams, each of the Fluorescent strips excite one of the three colors, the electron beam systems being side by side are arranged in a common section of the tube so that their three axes are in a common Lie plane and the axis of the central electron beam system with the tube axis coincides, and wherein the diameter of the mean electron beam system is smaller than that of the two lateral electron beam systems is characterized in that the medium blue color electron beam system is assigned and generates an electron beam whose cross section is larger than the cross section of the both lateral electron beams is.