DE3128299A1 - Beam generator system of a television tube or the like - Google Patents

Description

VIDEOCOLOR GMBH
Söflinger Str. 100 7900 Ulm-

Beam generator system of a television picture tube or the like.

The invention relates to a beam generator system provided with a non-magnetic grid 3 in the neck area a television picture tube or the like having a vertical deflection coil. .

The vertical deflection coil generates a magnetic stray field that reaches into the interior of the non-magnetic grid 3, so that the beam is deflected before the main lens of the beam generator system. The distraction is in this area of the beam generator system is relatively large, since the electrons here still have a relatively small kinetic Own energy. The deflection direction of the beam in the area of the non-magnetic grid 3 is determined by the magnetic The stray field of the deflection coil is determined, i.e. the electron beam wobbles accordingly in the area of the grid 3 the frequency of the vertical deflection field up and down. For example, if the electron beam is to be deflected to the north then it does not hit the main lens in the middle, but due to the false deflection by the magnetic Stray field of the deflection coil in the northern edge zone of the main lens. The too strong refraction of the marginal rays through the main lens (spherical aberration) produces north flare, with a large spot expansion when the beam is deflected

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is coupled to the north. The same applies analogously to the deflection to the south.

It is known that the magnetic stray field of the vertical deflection coil by an existing magnetic material Shield grid 3. The electron beam can traverse the grid 3 without the action of magnetic force and thus hits the main lens regardless of the current magnetic field of the deflection coil. Regarding flare a complete shielding of the stray magnetic field by a magnetic grid 3 is therefore a satisfactory one Solution. In addition to the flare problem, color television picture tubes also have the problem of convergence, i.e. an exact overlap of the three rays (red, green, blue) on the entire screen. It is also required that the coil is free of distortion (i.e. the corresponding grid pattern must be free of distortion) The second complex of problems is closely related to the shielding of the stray field by a magnetic grid 3:

With regard to the convergence problem, it is much more favorable to use a non-magnetic grid 3. For Such a beam generator can be developed without further difficulties, a deflection coil that is distortion-free and has no convergence errors. The disadvantage of such a jet generator is as above previously mentioned, the appearance of flare in the north and south of the screen.

On the other hand, a beam generator with a magnetic grid 3 in combination with a conventional deflection coil results a large convergence error, namely the vertical grid lines have the shape of a large vertical one Parabola (over-convergence). To avoid this parabola, relatively large pole pieces are used, which bundle the vertical stray field in the beam plane. The pole pieces' or the corresponding field, the

is coupled into the electron beams of a color television picture tube via these pole pieces, result in a Spot widening of the side rays (blue and red) in the North and south of the screen. Furthermore, when using a magnetic grid 3 larger ones are required Shunts for coma correction, which ultimately leads to further spot widening of the side rays.

The object of the invention is to provide a measure by which in one with a non-magnetic grid 3 equipped beam generator systems the annoying stray magnetic field of the vertical deflection coil is shielded so far in the beam forming zone that Overall, an improved sharpness (no flare, little spot expansion of the side rays) results.

According to the invention, this object is achieved in that approximately in the area of the grid 3 a closed Short-circuit ring around the longitudinal axis of the beam generator system with a relatively large distance "from this System is arranged and that the short-circuit ring has magnetic properties that are at least approximately correspond to those of soft iron.

The magnetic short ring also leads to a significant smaller vertical parabola, so that compared to a picture tube system provided with a magnetic grid 3 smaller pole pieces are required. The short-circuit ring formed according to the invention against the vertical stray field thus represents a good compromise with regard to magnetic shielding, more vertical Parabola and spot enlargement in the north and south of the Screen.

The magnetic short-circuit ring according to the invention advantageously surrounds the neck of the picture tube on the outside

in the specified range. The short-circuit ring can then be conveniently in the form of a Form the deflection coil fastening serving clamp, which is closed with one or more screws made of the same or similar material as the magnetic short-circuit ring itself.

on the geometric dimensions of the short-circuit ring the extent of the stray field weakening can be adjusted appropriately.

A qualitative one is given below with reference to FIGS. 3 and 4 Comparison between beam generator systems with magnetic Grid 3 and non-magnetic grid 3 bell 5 plus flare and spot diameter in the north and south of the screen.

With reference to FIGS. 1 and 2, the invention is then illustrated using an exemplary embodiment of that area a television picture tube explained, which is important for the invention.

Fig »3 shows a schematic representation of the side View of a known beam generator system of a television picture tube with its vertical deflection coil and a Part of their umbrella. The television picture tube has the beam generator system in its neck area, which one after the other from a cathode K, a first grid G1, a second grid G2, and a third gate G3, a main lens L, a fourth grating G4 and shunts S consists. The third grid G3 consists of a magnetic material. In the area of expansion the tube neck is a vertical deflection coil AS. An electron beam coming from the cathode K. ES passes through the beam generator system, becomes focused by the main lens L, is then from the

Vertical deflection coil AS deflected - in the example shown up (north) - and meets the screen BS. The magnetic deflection coil AS generates a magnetic one Stray field, which in the electron beam area in front of the main lens L by the magnetic grid G3 is shielded. Since there is a magnetically field-free space within the third grid G3, the electron beam can ES cross the grid G3 without the application of force and thus hits regardless of the moment Magnetic field of the deflection coil AS on the main lens L.

Fig. 4 shows the same basic diagram as Fig. 3, only with the difference that the grid 3 is now made of non-magnetic material:

An electron beam ES emitted by the cathode passes through the beam generator system, is through the Main lens L bundled, is then deflected by the main field of the vertical deflection coil AS - in the one shown here Example to the north - and hits the screen BS. Da uses a non-magnetic grid G3 is, the stray field generated by the deflection coil AS in this example reaches into the interior of this GittersG3 in, so that the electron beam ES still is deflected in front of the main lens L. This undesired deflection is shown in dashed lines in FIG. The deflection is quite large, since the electrons in conventional tubes at this point are about 7kV

have relatively small kinetic energy, at least in comparison to the 25kV on which the electrons pass the potential of the grid G4 can be accelerated. The deflection device of the electron beam ES in the area of the third grid G3 is determined by the stray magnetic field of the deflection coil AS. The electron beam ES is thus swept up and down in the area of the grating G3 with the frequency of the vertical deflection field. Will

the electron beam - as shown in the example according to FIG. 4 - deflected to the north, so it hits accordingly the main lens L is not in its central area, but due to the stray field of the deflection coil AS caused incorrect diversion in their northern edge zone. However, marginal rays are passed through the main lens L refracted more strongly than central rays (spherical aberration), which causes the generation of north flare, coupled with a widening of the spot in the screen BS with deflection of the electron beam ES according to Worden. The term "flare" means blurring on the horizontal grid lines created by the electron beam on the screen. and there is indeed a blurring on the edge of the grid line pointing towards the center of the Schinn; i.e. in the north of the The lower edge of the horizontal grid line is blurred on the screen, while the upper edge of the horizontal grid line is out of focus. This fact is shown in Fig. 4 by the dashed line Beam path shown. Otherwise applies to the distraction to the south analogously the same as for the north deflection.

When comparing beam generator systems with a magnetic grid G3 (arrangement according to FIG. 3) on the one hand and non-magnetic grid G3 (arrangement according to FIG. 4) on the other hand, it is found that a magnetic Grating G3 in combination with the currently used deflection coils AS form a large vertical parabola of the Electron beam ES generated. To avoid such a parabola, relatively large pole pieces are required (pole pieces), which are intended to bundle the vertical stray field of the deflection coil AS, are used. These pole pieces are most responsible for the widening of the spots in the north and south of the screen BS. A magnetic guitar

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ter G3 also requires larger shunts S for coma correction. But this fact creates an even greater one Spot expansion in the north and south of the screen BS.

Fig. 1 shows in a lateral longitudinal section the part of a television picture tube relevant to the invention, in which by applying the invention a good compromise with regard to the magnetic field shielding of the deflection coil stray field, with regard to the course of the vertical parabola and also with regard to the widening of the spot in North and South of the screen is reached. Fig. 2 shows a cross-sectional view in a plane A-B the inside of this tube in the area of the transition from. Neck to enlarge the tube.

This television picture tube has a beam generator system in the neck area of its tube 1, which consists in sequence of a cathode K _1, a first grid G1, a second grid G2, a third grid G3, a multipole lens 2, a fourth grid G4 and shunts S. . The grids G1 to G4 and shunts are fastened inside the glass tube 1 by means of glass struts 3. The third grid G3 consists of non-magnetic material. In the area of the widening, a magnetic vertical deflection coil AS is pushed over the glass tube and has a holder 4 seated on the neck. To avoid a larger vertical parabolic shape of the electron beam, small pole pieces 5 are attached to the tube 1. A short-circuit ring 6 arranged relatively far away from the beam generator system is attached around the tube neck approximately in the region of the third grid G3. In the exemplary embodiment, this short-circuit ring 6 is also the fastening clip for the holder 4 of the deflection coil AS. The external short-circuit ring 6 consists of magnetic material. The remanence of the material should be around 2 Tesla and the coercive field strength should be less than 0.4A / cm

be. The values correspond to those of soft iron, so that a deflection coil made of soft iron material enbefe st igungsschelle can be used * Since the short-circuit ring 6 must be closed, the mentioned use of the ring 6 at the same time as a clamp to close the magnetic circuit a soft iron screw required over the geometric Dimensions of the short-circuit ring 6, the size of the stray field weakening can be adjusted. 10

4 claims
4 figures

Claims (4)

Patent claims: Provided with a non-magnetic grid 3
Emitter generator system in the neck area of a television picture tube or the like having a vertical deflection coil, characterized in that a closed short-circuit ring (6) around the longitudinal axis of the jet generator system around the longitudinal axis of the beam generator system at a relatively large distance
This system is arranged and that the short-circuit ring (6) has magnetic properties which at least approximately correspond to those of soft iron. 2. beam generator system according to claim 1, characterized marked that the short-circuit ring (6) the The outside of the picture tube neck. 3. Beam generator system according to claim 2, characterized in that the short-circuit ring (6) is in the form of a bracket serving for the deflection coil attachment, which is connected to an or several screws made of the same or similar magnetic material as the Short-circuit ring (6) itself. 4. Beam generator system according to one of the preceding Claims, characterized in that that the geometric dimensions of the short-circuit ring (6) are chosen so that there is a suitable strength the weakening of the stray field of the vertical deflection coil results.