EP0125949A1 - Colour television tube with correction of low amplitude coma faults - Google Patents

Abstract

A color tube of the automatic convergence kind comprises three coplanar electron beams, with magnetic coma defect correction elements situated to the rear of the deflector unit. For the case where these defects are of small size, of the order of 1 mm or less in each direction, and of opposite sense in the horizontal and vertical directions, the correcting elements are formed by four plates of rectangular shape and whose plane is perpendicular to the axis of the tube. The plates are situated above and below each of the lateral beams and one dimension of each of the plates affects the amplitude of the correction in one direction, and the other dimension affects the coma correction in the other direction.

Description

The invention relates to a display tube, in particular a television, in color of the self-converging type with three beams of coplanar electrons.

By "tube" here is meant the system constituted by the tube itself, the deflector and the electron beam generators.

We know that in television or, more generally, in visualization, color images are usually obtained using a screen covered with luminescent substances of three fundamental colors, generally red, green and blue, which are excited by three electron beams, one for each color. These beams converge on the screen and are moved in lines from left to right and from top to bottom.

The screen is made up of triads, that is, sets of three dots, luminescent substances of the three colors. The light intensity (luminance) and the color of each point of the image to be reproduced are obtained by the intensity of excitation of each of the elements of the triad.

So that each electron beam reaches only the points of the color to which it is assigned, on the one hand the three beams have different directions and, on the other hand, a shadow mask is placed in front of the screen.

The displacement of the beams along lines, which is called scanning, is produced by two variable magnetic fields which deflect the beams one in the horizontal direction and the other in the vertical direction. These magnetic fields are generated by electric currents of variable intensity flowing in coils called deflectors.

In order for the three beams to converge at all points on the screen, the magnetic field traversed by these beams must have a particular non-uniform configuration in the space, which is linked in particular to the rectangular and substantially planar shape of the screen and the coplanar arrangement of the beams.

When convergence is obtained exclusively by the configuration of the magnetic field, the tube is said to be self-converging.

This autoconvergence is achieved mainly thanks to the shape of the windings of the deflector. However, the conformation of these windings is generally not sufficient: there are usually convergence faults. One of these is the so-called coma defect which results, in a tube with coplanar beams, by dimensions of the image produced by the central beam (generally green) different from the dimensions of the image produced by the lateral beams (red and blue). This defect is measured by the distance separating two adjacent vertical edges from the green and red-blue images and by the distance separating two adjacent horizontal edges from these images.

To correct the coma defect, it is known, for example from French patent 2,425,146, to provide at the rear of the deflector, that is to say on the side of the electron guns, elements with high magnetic permeability. provisions and configurations such that the magnetic field produced by the deflector is modified to an extent sufficient to effect the correction.

The invention relates to the case where the coma defect is of small amplitude, that is to say of the order of a millimeter or less, and of different directions in the horizontal (east-west) and vertical (north- south), the image (green) produced by the central beam being for example wider than the image produced by the lateral beams (red-blue) but of lower height than that of this image produced by the lateral beams.

The invention results from the observation that the magnetic pieces of coma correction known up to now are not suitable for the correction of this type of defect.

In particular in the French patent 2,425,146 mentioned above, the magnetic elements consist of magnetic pads applied to the bottom of a cup constituting an electrode for outputting the electron guns, and which therefore has three openings for the passage of the bundles, two of these pellets having the shape of crowns or washers surrounding the openings provided for the lateral beams, two other pellets being elongated vertical bars placed on either side of the opening for the green central beam. These magnetic elements are suitable for coma defects of large amplitude, 5 mm for example; but for faults of smaller amplitude they confer a correction of too high a value which causes a fault in the opposite direction.

The tube according to the invention is characterized in that the magnetic coma correction elements, which are also flat pads, with a plane perpendicular to the direction of the beams, consist of four rectangular pads, preferably all identical, associated with the lateral beams , two of these pellets being below these respective beams and the other two pellets above these same beams, the length and the width of each patch being chosen as a function of the respective values of the coma defects in vertical and horizontal direction to correct.

The fault correction is carried out in a particularly simple manner. In addition, the correction means (or method) is easily adaptable from one type of tube to another because the length of each rectangular element is a direct function of the height of the coma defect to be corrected and, similarly, the width of each element is a direct function of the magnitude of the coma defect in the horizontal direction.

In addition, the sensitivity of the horizontal scanning is increased because, with the magnetic correction elements of the invention, the magnetic field of horizontal deflection is increased in particular for the lateral beams while the horn elements rection known so far decrease the sensitivity of horizontal scanning, that is to say require a higher power of the deflectors.

• - la figure 1 est une coupe schématique d'un tube de télévision en couleurs du type à masque perforé,
• - la figure 2 est un schéma montrant l'effet du défaut de coma sur l'écran du tube de la figure 1,
• - la figure 3 montre des éléments de correction du défaut de la figure 2,
• - la figure 4 est une coupe selon la ligne 4-4 de la figure 3,
• - la figure 5 est un schéma analogue à celui de la figure 3, mais à plus grande échelle, montrant l'effet des éléments de correction sur les champs magnétiques de déviation, et,
• - la figure 6 est un graphique montrant l'effet sur le défaut de coma des dimensions des éléments de correction de la figure 3.

Other characteristics and advantages of the invention will appear with the description of some of its embodiments, this being carried out with reference to the attached drawings in which:

• FIG. 1 is a diagrammatic section through a color television tube of the type with a shadow mask,
• FIG. 2 is a diagram showing the effect of the coma defect on the screen of the tube in FIG. 1,
• FIG. 3 shows elements for correcting the defect in FIG. 2,
• FIG. 4 is a section along line 4-4 of FIG. 3,
• FIG. 5 is a diagram similar to that of FIG. 3, but on a larger scale, showing the effect of the correction elements on the magnetic deflection fields, and,
• - Figure 6 is a graph showing the effect on the coma defect of the dimensions of the correction elements of Figure 3.

In the example, the color television tube 10 is of the type with a perforated mask 11 placed inside the tube in front of the screen 12 and with electron guns 13 producing three beams 14, 15 and 16 coplanar. The central beam 14 is, in this example, that which is intended to excite the green phosphorus on the screen while the lateral beams 15 and 16 excite the blue and red phosphors respectively.

The displacement of these beams, in order to scan the screen 12, is carried out by supplying coils 17 of horizontal and vertical deflection which produce magnetic fields allowing the displacement of the three beams 14, 15, 16 respectively in horizontal and vertical directions.

The barrels 13 are arranged at the rear of the tube in the cylindrical part 18 called the neck. The deflection coils 17 are arranged partly around the neck 18 and partly around the flared section 19 connecting the neck 18 to the slab 20 presenting the screen 12.

The deflector 17 is such that it practically ensures self-convergence, that is to say the convergence of the three beams 14, 15, 16 over the entire screen. However, there still remains the coma defect which is reflected on the screen (FIG. 2) by different dimensions of the images produced by the three beams. Thus the green central beam V 14 produces a rectangular image 21 while the blue lateral beams B and red R produce an image 22, also rectangular, narrower and higher than the image 21. The vertical sides of the image 22 are therefore between the vertical sides of image 21, the distance d between two adjacent vertical sides of images 21 and 22 being, in the example (tube whose screen diagonal measures 51 cm), of the order of 0, 3 mm and the horizontal sides of image 21 are between the horizontal sides of image 22, the distance h between two neighboring horizontal sides in the example being of the order of 0.8 mm.

To correct coma defects, the magnetic field at the rear of the deflector 17 is modified, that is to say on the side of the barrels 13. For this purpose, pellets or plates with high magnetic permeability are used which are supported by the last electrode 23 (FIGS. 3 and 4) of the barrels, that is to say the electrode facing the screen 12. This electrode 23 has a cup shape with a cylindrical edge 25 and bottom 24 perpendicular to the axis 26 of the tube. This bottom is pierced with three holes or openings of coplanar axes lying in a plane passing through the horizontal axis of the screen. The central hole 27 is intended to allow the green beam 14 to pass through while the lateral holes 28 and 29 allow the blue 15 and red beams to pass through 16. The magnetic elements are welded to the bottom 24 of the cup 23. They consist of plates made of an iron-nickel alloy.

According to the invention, four rectangular plates 30, 31, 32, 33 are provided (made of "anhyster" at 48% nickel) above and below the openings 28 and 29. The rectangular plate 30 is above the opening 28 with its large side 30 ₁ horizontal, the middle of this large side 30 ₁ being at the right of the axis of the hole 28 intended to allow the excitation beam of the blue phosphors to pass. In other words, the perpendicular bisector on the side 30 ₁ passes through the center of the hole 28. The plate 31 is below the hole 28, in a position symmetrical with the plate 30 relative to the center of the hole 28.

The plate 32 is disposed relative to the hole 29, like the plate 30 relative to the hole 28. Likewise the plate 33 is arranged relative to the hole 29 like the plate 31 relative to the hole 28.

In the example, the axis of the hole 27 is 5.1 mm away from the axis of the hole 28 or 29 and the thickness of the plates is 0.25 mm. The length A of each of these, that is to say the dimension in the horizontal direction, is 3.8 mm while its width, that is to say the dimension in the vertical direction, is L = 1.75mm.

As shown in FIG. 5, the lines 40 of the vertical deflection magnetic field Vx are spaced from one another around the holes 28 and 29. The vertical deflection magnetic field is therefore attenuated for the blue-red image. On the other hand, the lines of vertical deflection field 41 are, around the hole 27, close to one another: the magnetic field of vertical deflection is therefore increased for the beam 14 of excitation of the green. The correction is therefore obtained in the chosen direction: increase in the vertical deviation for the green and reduction in the vertical deviation for the blue and the red.

FIG. 5 also shows that the field lines 42 of horizontal deflection Hy are brought closer to each other around the holes 28 and 29. These lines of field of horizontal deflection are also brought closer to each other around the hole 27, but in a lesser extent. The horizontal deflection magnetic field is therefore increased for the three excitation beams, but it is more increased for the blue and red phosphors than for the green. The desired result is also obtained, that is to say a relative reduction in the horizontal deviation for green compared to the horizontal deviation for blue and red.

It was found that the correction of a coma defect in height (h, Figure 2) depended mainly on the dimension A of the inserts and that the correction of a coma defect in width (d, Figure 2) depended mainly on the dimension L. For a determined deflector giving given d and h defects, it is therefore easy to choose the dimensions A and L of the plates 30, 31, 32, 33.

For the choice of dimensions A and B we can use the abacuses in Figure 6. On the diagram of this Figure 6 we have plotted on the abscissa the dimension A of a wafer, on the ordinate the Δ coma defects (d or h).

The curves 45, 46 and 47 are curves of variation of the horizontal defect d of coma as a function of the dimension A for three dimensions L, of values L0, L ₁ and L _{2 respectively} .

Curves 48, 49 and 50 are similar to curves 45, 46 and 47 respectively, but for the defect h of vertical coma.

The magnetic field of horizontal deflection Hy being increased for all of the three beams and more particularly for the two lateral beams, the plates according to the invention make it possible to reduce the power supply energy of the coils of horizontal deflection. In other words, unlike previous embodiments, the correction is not carried out to the detriment of the horizontal scanning sensitivity.

Although in the example described above, the long side of the plates 30 to 33 is horizontal, it should be noted that, as a variant, these long sides may have other directions, that is to say be oblique to the 'horizontal. In addition, these long sides are not necessarily all parallel to each other.

Preferably, the elements 30 to 33 are simple plates without extension along the axis 26.

Claims (8)

1. Color television tube of the self-converging type with three electron beams (14, 15, 16) coplanar comprising at the rear of the deflector (17) magnetic elements for correcting coma defects, characterized in that the defects of coma being of small amplitude, of the order of 1 mm or less in each direction, and of opposite directions in horizontal and vertical directions, the correction elements are constituted by four plates (30, 31, 32, 33) of shape rectangular and the plane of which is perpendicular to the axis (26) of the tube, these plates being arranged above and below each of the lateral beams (15, 16), with a median axis in line with a lateral beam , one dimension (A) of each of the plates affecting the amplitude of the correction in one direction and the other dimension (L) affecting the correction of coma in the other direction. 2. Tube according to claim 1, characterized in that the coma defect being such that the image (21) produced by the central beam is wider and of lower height than the image (22) produced by the lateral beams , the rectangular plates have their largest dimension (A) in the horizontal direction. 3. Tube according to claim 1 or 2, characterized in that the plates (30, 31, 32, 33) are all identical. 4. Tube according to claim 2, characterized in that the horizontal coma defect being of the order of 0.3 mm and the vertical coma defect of the order of 0.8 mm the horizontal dimension of a plate is of the order of 4.5 mm and its vertical dimension of the order of 1.25 mm, the distance separating, before their deviation, two neighboring beams being of the order of 5.1 mm. 5. Tube according to any one of the preceding claims, characterized in that the plates are, in known manner, integral with the last electrode (23) of the electron guns (13). 6. Tube according to claim 1, characterized in that the rectangular plates have their largest oblique dimensions relative to the horizontal direction. 7. Tube according to claim 6, characterized in that the largest dimensions of the rectangular plates are not parallel to each other. 8. Method for correcting coma defects in a color television tube of the self-convergent type with three electron beams (14, 15, 16) coplanar by means of magnetic correction elements behind the deflector (17 ) characterized in that the coma defects being of small amplitude, of the order of 1 mm or less in each direction, and of opposite directions in horizontal and vertical direction, the correction elements are constituted by four plates (30, 31 , 32, 33) of rectangular shape and the plane of which is perpendicular to the axis (26) of the tube, these plates being arranged above and below each of the lateral beams (15, 16), and in that to carry out the correction in one direction, a dimension (A) is chosen for each of the plates and to carry out the correction in the other direction, a corresponding dimension (L) is chosen for the other dimension.

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