DE1965291C3 - Color image reproduction tube - Google Patents

Description

The invention relates to a color picture display tube with a piston having a front plate, a Screen made of phosphors, with which the front plate for emission in front of. Light of specific colors is coated, an electron gun for generating at least one electron beam to the faceplate is directed, a color selection electrode, which is provided with openings and adjacent to the front panel is arranged to direct the beam onto selected phosphors of the screen according to the angle of incidence r v; Beam onto the openings of the color selection electrodes c to hit a Hiuiptablcnk-

magnets to deflect the beam in such a way that

he scans the screen, and with a Hüfsa solenoid, the one on the side facing away from the screen

of the main deflection magnet is arranged unc ⁽ in

Depending on the mode of operation of the main

magnets an auxiliary deflection field to stabilize the

Color fidelity generated, with the Hilisablenkmagnet a Kerii owns.

During the operation of such a Firbbild-

ϊο we reproduce by the observation of the electron beam b7 \ v. the electron beams on the color selection electrode increases its temperature. 5n d ^. That it experiences thermal expansion. Through such thermal expansion the position or Au> is the direction of the öfinungen Farbauswähie'.ekiro-jc relative <t'if the respective sets or locations on the screen Fhcsproreri changed, and this change .on the middle of Farbauswähld ^ kfrodc to . whose extent ;; n _fa progressive '.unirr.int. The change in .ier

ao position or orientation of the openings ^ r inclined to the respective sets or arrangements of phosphors leads to a; Mislanding of the beams, ie, H suf _lt meet rays other than those on '.I associated phosphors of Stuirme- what ^ tion to a VerbchJech

ag the color fidelity of the image obtained on the screen leads.

In order to avoid the written incorrect impact of the rays as a result of the thermal expansion of the color selection electrode, it has already been known to reduce the distance from the color selection electrode to the screen when the temperature of the color selection electrode increases Temperature-dependent movement relative to the screen is, however, complicated and mechanically sensitive to bumps or blows.

Similar * it is known (see USA patent specification 3 408 520),. Elimination of the color choices caused by heating. .trode occurring disturbances in mechanical susceptible - way a bimetallic controlled displacement of the raster deflection magnet lengthways effect of the tube neck, thereby shifting the effective beam deflection center.

Finally, a color display tube of the type mentioned is known (see German Ausiegeschrift 1 285 514), whose Hilisablenkmagnet on its ring-shaped core two diametrically opposite Horizontal windings and two diametrically opposed vertical windings carries these are also provided with unevenly distributed windings via separate coarse mares from the signals of the horizontal or vertical steering circuit that feed the main deflection magnet, being controlled.

By the auxiliary deflection field generated by the auxiliary deflector magnet should be the effective beam deflection center according to the temperature changes of the color selection electrode shifted to ensure that the rays hit the respective color phosphors correctly

Go keep up. However, doing this won't do any full compensation is achieved to avoid the mismatch, and the tax levels that are used to Change in the current for the auxiliary deflection magnet according to the temperature changes required are costly. Furthermore, these control stages because of the additional circuit elements the linearity characteristic of the beam deflection is impaired.

The object of the invention is therefore the last treated Color display tube to the effect that, despite safe operation, without separate control stages for the Hüfsablenkmagneten gets by.

This object is achieved by the teaching according to the invention specified in claim 1.

In contrast, it has only become known 'vgi. USA.-patent step 2. '28 027), to increase the beam deflection angle jt> an image display tube for the purpose of enlargement, erinsg r · -. .ien to be provided, whereby the lülfsabienkfeld, ... i Hauptablenkteld counteracts.

A color picture tube, at u »- de. Main deflection magnet one horizontal and one vertical coil has to add a \ b! en '.? e! d to the horizontal or vertical Deflection of the electron beam, and the The abbey magnet has a coil on its core, is thereby advantageously developed that the coil of the auxiliary sa. Steering magnets with the Horizontalablenksp lie is electrically connected and serves to make the beam horizont el in opposition to the horizontal Deflecting the beam by deflecting the main deflection field that the phosphors make the shape more vertical Have stripes on the faceplate and that the openings of the color selection electrode are more vertical in shape Have slots.

The invention is explained in more detail with reference to the drawing, in which embodiments of the invention Color display tube are shown. It shows

1A is a schematic view in the axial direction Cut one. image display tube referred to in the explanation of the misfire of an electron beam Reference is made to that caused by temperature changes within the tube can,

F i g. 1B is a larger-scale partial view of FIG in Fig. 1A, to which in particular in the explanation of the compensation according to the invention is pointed out,

F i g. 2 a schematic plan view of a device according to the invention ßen color display tube,

3 is a front view of an auxiliary bus magnet, according to the invention on the tube according to FIG. 2 is provided,

F i g. 4 is a graph showing the change in permeability with temperature of the Core of the auxiliary bus magnet according to FIG. 3 shows

F i g. 5 is a circuit diagram showing the connection of the coil of the auxiliary busbar magnet according to FIG. 3 shows with a coil of the main deflection magnet of the color display tube,

F i g. 6 schematically shows the auxiliary deflection field from Auxiliary bus magnets according to FIG. 3 is generated at elevated temperature,

F i g. 7 one of the FIGS. 6 similar view, however the distribution of the auxiliary steering field at low temperature shows, and

F i g. 8 a fig. 3 similar view, but of a further embodiment of the invention.

One shown in FIG. 1 A shown color display tube 1 has a fluorescent screen 2 on the inner surface of the bulb front side and a color selection electrode 3 provided with openings, for example in the form of a shadow mask or a grate or a grid, which is held in a suitable manner within the tube 1 and extends from the screen 2 located at a distance.
As in particular in FIG. 1B is the

Screen 2 composed of sets or arrays of primary color phosphors, e.g. B. R, G and B, and the color selection electrode 3 determines which aer phosphors the respective electron beam impinges on a depending on its angle of incidence

ίο opening 4 of the color selection electrode through which the beam passes before it strikes the corresponding set or the corresponding arrangement of phosphors. The color selection electrode 3 is heated by the incidence of the electron beam or the electron beams during the scanning of the screen 2, so that it experiences thermal expansion, for example from the .ü F ^; G. IA and IB states shown in full line m the states shown in dashed lines at 3 ', with the color

For the sake of clarity, the selection electrode 3 is shown shifted backwards from its normal, actual position. As can be seen, the thermal expansion of the color selection electrode 3 in the state shown at 3 'leads to a displacement of the openings 4 away from the central axis xx of the tube 1, the amount of this displacement increasing towards the periphery of the screen 2 and the color selection electrode 3. So z. B. with regard to the opening Aa, the heating of the color selection electrode 3

This opening is set away from the tube axis xx into the position indicated by 4'a.

if an electron beam B _{a is} deflected at the effective deflection center O , for example by a conventional main deflection magnet 6, which is on the tube 1

is arranged so that the beam follows a path 5 through the opening Aa of the color selection electrode 3 and impinges on the corresponding phosphor G _{a of} the arrangement or the set A , when the color selection electrode 3 has a relatively low temperature, it follows that Because of the heating and the resulting thermal expansion of the color selection electrode 3, the electron beam Br. adopts a path 5 'when it passes through the cross-linked opening 4'a , so that it no longer hits the

corresponding color phosphor G _a meets, but rather incorrectly on the color phosphor R _a , which has a deterioration in the color fidelity of the image.

However, if the effective distraction center of the

Suahis Bg from dci SicüungG> fi Tig. 1Λ in reverse direction, ie away from the screen 2 or from the color selection electrode 3. Eg to position 0 'is shifted, ti ¹ U the beam, when it is deflected to path 5 ", through the opening 4'a of the

Heating extended color selection electrode 3 'through and strikes again on the corresponding phosphor Ga of the respective phosphor set λ , whereby a compensation for the thermal expansion of the color selection electrode 3 obtained and a deterioration in the color fidelity of the image is avoided. A bad hit! of the electron beam or electron beams can therefore be compensated for by appropriately shifting the effective deflection center of each electron beam in accordance with the temperature changes within the tube.

As in particular in FIG. 2 is a color display tube 1 having an electron gun 7 giving out three beams B _n . B ₁ . and Bn on

5. 6th

directs a screen 2 and concentrates these rays to a common opening of a color selection electrode 3 within the neck of the tube 1 (Fig. 7) so as to converge towards the main deflection field, according to the invention with an auxiliary effect which is achieved by the flow of the same Current is generated by deflecting magnets 8 in addition to a usual main the Horizontafablcnkspule 6 // because the deflecting magnet 6 is provided through which the three 5 auxiliary deflecting magnets 8 are arranged horizontally and vertically so deflecting magnets 6 on the back of the main beams Bn, Ba and Bb is, i.e. on the deflected that they abtasten- the screen 2 screen 2 facing away from ^one side of the Hauptablenkmagne-If the Farbphosphoredes Sehn ms 2 vetti- in the form of ten 6. acts Hilfsablenk the frame F of the Spuleil Kaler strips are applied and the color selection the Hauptablenkfeld of the Horizontalablenkspule 6 H electrode 3 is formed by an apertured grid ie at the rear end part of the Hauptablenkmagneten 6, which has vertical slots, which more or less oppose, so that the effective Abjeweilige sets or arrangements of strip steering center of the beams One needs a position, for example in position 0 in FIG. 1A. Auxiliary deflecting magnet 8 according to the invention is located incorrectly, as a result of which a correct impingement of the beam compensation can only be made with regard to the horizontal 15 on the respective phosphoie with a relatively low temperature of the color selection electrode 3

As can be seen from V i g. 2 results is the auxiliary deflection is achieved. When tube 1 continues to operate. '

magnet 8 on the neck of the tube 1 on which the color selection electrode 3 is heated

Side of the Hauptablenkmagnets 6 arranged, which experiences and a thermal expansion and thus screen 2 is turned away. and it has an annular shape so also the no 10 is heated, the permeability of the core 10 is made of magnetic material as well as a coil 11. Core 10 reduced, whereby the concentration of the two coil halves I la and Wb (Fig. 3) of the auxiliary sablenkfelds F is reduced, which consists within, which are electrically connected in series, for example, of the tube neck on the beams Br, B _g and Bb and acts on opposite side portions of the (Fig. 6 '. Therefore, when the permeable core 10 are wound so that a current in the core 10 continues to decrease, the effect of the flux through the coil 11 becomes an auxiliary magnetic deflection - Auxiliary deflection field F against the main deflection field (F in F i g. 6 and 7) is generated in order to advance the main deflection magnet through the horizontal table coil 6 H at the rear deflection of the beams Br. Ba and B _B 6. As shown in Fig. 5, it is located, if progressive, so that the effective deflection coil 11 of the auxiliary deflection magnet 8 is shifted backwards, for example in the center of the beams, at -series aging with a horizontal deflection coil // for example to position 0 'in Fig. IA. After all, the main detachment is 6th so that. when a honing at the temperature T ₀ the permeability of the core 10 zontalablenkstiom the Honzonlalablenkspule 6 H has dropped to the value μ ₀ , so that the core 10 is then fed to terminals 9a and 9b to the horizon- without any magnetic effect and to bring about the field of the tale deflection of the rays, this coil 11 is diffuse.

Current also flows into coil II to avoid the auxiliary deflection. It should be noted that the number of turns

The field F opposite to the main deflection field to produce the coil 11 is relatively small in comparison to that caused by the horizontal deflection coilo // to that of the horizontal deflection coil 6 H and the current flowing in such a way that it is only sufficient, together with the

According to the invention, the core 10 of the auxiliary deflection 40 core 10, the displacement of the deflection center of the magnets 8, is formed from a magnetic material. To cause rays to the compendas described has a permeability. which can be achieved depending on the sation. Although the inductance of the auxiliary changes from the temperature, particularly with deflecting magnets 8, when the temperature changes as the temperature changes, it decreases with the number of Wick dependencies of <*; r temperature changes, for example, one part of the horizontal deflection coil is 6 H, so that the alloy, which consists of 70% iron and 30% nickel, flows into the changed inductance is set on the horizontal plane and the deflection current shown in Fig. 4 can be neglected. Therefore, it has temperature-Penneability characteristic To provide for a bad meeting, which has a relatively high permeability μι, change in the deflection current itself is caused, while when the core 10 is progressively ei- by z. B. the inductance of the circuit for the warms, its permeability is progressively decreasing deflection current is changed depending on the temperature,
gert until it reaches the value μ _η at the critical tempe- If the color display tube 1 has a hole

Temperature T ₀ drops, which permeability value M ₀ dem- 55 mask has as a color selection electrode and the Phos that of vacuum corresponds. phore in the form of sentences or arrangements of

Although the auxiliary deflecting magnet 8 is attached to the neck of the dots, a compensation tube 1, for example adjacent to the main branch for the temperature-related misalignment in both the steering magnet 6 (as shown), has been set in the vertical as well as in the horizontal direction that tube 1 of 60 are provided during operation. As in Fig. 8, the temperature increase of the core 10 may be a function of the temperature increase of the color selection electrode 3 when the color selection electrode 3 is its shadow mask and the screen 2 corresponds to its phosphors in the form of dots. th has the invention; Auxiliary deflection magnet 18 V / enn the operation of the tube 1 begins, that is, if in addition to the core 10 and the coil halves 11 σ the core 10 is relatively cold and a high 65 and Il b have a second coil 12, which has in the form of permeability , the auxiliary deflection field F, the coil halves 12c and 126 is generated on the upper and by the coil 11 when the lower part of the core 10 is wound through them.
Horizontal deflection current flows through it, essentially The coil halves 12a and 126 are shown in FIG

Connected to each other and also to the vertical deflection coil (not shown) of the main deflection magnet 6, so that when the vertical deflection current flows in the vertical deflection coil of the main deflection magnet η 6 , this current also passes through the coil 12, so that the latter generates a magnetic field that is more Or less

is concentrated to act on the rays depending on the permeability of the core 10. A such a magnetic field generated by the coil 12 acts similar to the magnetic field of the coil IJ to generate the ge-S to achieve the desired compensation with respect to the vertical deflection of the beams.

1 sheet of drawings

209635/300

Claims (2)

Claims. 1. Color image reproduction tubes with a piston that has a front plate, a screen made of phosphors with which the front plate is coated to emit light of specific colors, an electron gun to generate at least one electron beam that is directed to the front plate, a color selection electrode, d; e is provided with openings and is arranged adjacent to the front plate in order to meet the beam on selected phosphors of the screen according to the angle of incidence of the beam on the openings of the color selection electrode, a main emitter for deflecting the beam in In a way that it scans the screen, and with an auxiliary deflecting magnet, which is arranged on the side of the main deflecting magnet facing away from the screen and, depending on the mode of operation of the main deflecting magnet, generates an auxiliary deflecting field to stabilize the color fidelity, with one auxiliary deflecting magnet Core be? ^: tzt, characterized in that the permeability of the material? of the core (10) of the auxiliary deflection magnet (?) decreases with a lower temperature, so that as the temperature at the tube neck increases, the temperature of the auxiliary deflection field (F) is weakened the total deflection field is increased, and that the auxiliary deflection magnet (8) is operated as a function of the current supplied to the main deflection magnet (6). 2. color display tube according to claim 1, wherein the main deflection magnet has a horizontal and a vertical deflection coil to provide a deflection field for horizontal and vertical deflection, respectively of the electron beam, and the Kilfsablenkmagnet carries a coil on its core, characterized in that the coil (11) of the Auxiliary deflection magnet (8) with the horizontal deflection coil (6 //) is electrically connected and serves to counteract the beam horizontally the horizontal deflection of the beam by the main deflection field that deflect the phosphors have the form of vertical stripes on the faceplate and that the openings of the color selection electrode (?) Hi * Fnrm have vertical slots.