EP1378927A1 - Color display tube and deflection system with improved imaging properties - Google Patents

Abstract

Convergence magnets (CM) (8) regarding a deflection system fit in a middle surface plane in the Z-direction of a color picture tube as well as on the horizontal tracks (4) of a deflection system consisting of horizontal and vertical (5) tracks. If the surface plane of the CM shifts in the Z-direction of the color picture tube, influence from magnet fields on electron beams can be varied. Independent claims are also included for the following: (a) A deflection unit for a color picture tube; (b) and for a deflection system for a color picture tube.

Description

The invention relates generally to a color picture tube and in particular to color picture tubes. which have an improved deflection unit for lower aberrations.

Electron beams are deflected in a color picture tube by magnetic ones Fields of horizontal and vertical deflection coils of a funnel-shaped Deflection unit are generated. The deflection unit, which is mounted on a color picture tube consists essentially of two pairs of coils and a ferrite core. A first one Coil pair creates a magnetic field that that of electron beam generation systems generated electron beams in the horizontal direction (X direction) deflects while the further pair of coils a vertical deflection (Y direction) causes. The ferrite core encloses both coil pairs and serves the Magnetic flux feedback. In addition, the deflection unit can use convergence magnets and have soft magnetic field formers. Such a deflection unit creates a self-converging image on the screen of the color picture tube without north-south grid distortion.

Modern color picture tubes contain electron beam generation systems in a so-called In-line arrangement in which the electron gun systems for the different color components are arranged in one plane. The axes of the electron beams generated in such systems are coplanar and converge on the screen.

The color picture tube and deflection system of the present invention relate to one Improvement of the east-west inner cushion geometry distortion. In general such an east-west distortion is caused by modulation of the horizontal deflection current reduced or compensated. In Fig. 1 is an east-west inner cushion distortion reproduced after a conventional modulation of the horizontal Deflection current remains. With such a correction, an east-west distortion becomes fixed the outer vertical lines. However, an east-west inner cushion remains the inner vertical lines.

This remaining east-west inner pillow is conventionally used as needed Corrected with the help of an additional current modulation circuit which is incorporated in a deflection circuit is integrated. The disadvantage of this conventional solution is the high one Additional effort and the additional costs required by such a circuit become. In other cases, such an additional circuit is dispensed with and thus put up with this east-west inner cushion distortion.

The object of the invention is therefore to provide a color picture tube and a deflection unit Specify color picture tubes, the East-West inner cushion distortion in a simple and inexpensive manner remedy.

This object is achieved with the features of claim 1 for a color picture tube and solved with the features of claim 18 for a deflection unit.

According to the invention on the outside of the color picture tube or the deflection unit in one first plane perpendicular to the direction of the electron beam convergence magnets arranged and in a second plane perpendicular to the direction of the electron beams, that differs from the first level become geometry magnets arranged.

According to one aspect of the invention, the convergence magnets and the geometry magnets arranged in the deflection system of a color picture tube. This can be a simple structure and simple manufacture of the color picture tube according to the invention can be achieved.

According to an advantageous embodiment of the invention, a total of four Convergence magnets and / or geometry magnets symmetrical in the first or second level arranged. In this way, a correction can be made in a simple manner reach each quadrant of the image to be displayed on the fluorescent screen.

According to a further advantageous embodiment of the invention, the The plane in which the geometry magnets are arranged is closer to the fluorescent screen than the plane in which the convergence magnets are arranged. This allows the Geometry magnets in a simple manner at the end of the funnel-shaped lampshade Attach the deflection system, for example in the area of the coil end windings.

A particularly advantageous influencing of the field by the convergence magnets is achieved if this is closer to the vertical axis of the color picture tube than to horizontal axis are arranged.

Furthermore, a particularly advantageous correction by the geometry magnets achieved if this closer to the horizontal axis of the color picture tube than to the vertical Axis are arranged.

A particularly good correction is achieved when the convergence magnets approximately at an angle of 60 ° to the common plane in which the electron beams run, are arranged and the geometry magnets at an angle of in about 30 ° to the common plane of the electron beams. That way a particularly efficient correction of the geometry distortion with little effort to reach.

Preferred embodiments of the invention are specified in the subclaims.

Fig. 1

zeigt eine verbleibende Ost-West-lnnenkissenverzeichnung nach Korrektur einer Ost-West-Verzeichnung der äußeren vertikalen Linien.

Fig. 2

zeigt schematisch den Aufbau einer Farbbildröhre.

Fig. 3

zeigt eine schematische Ansicht der ersten Ebene eines erfindungsgemäßen Ablenksystems für eine Farbbildröhre mit den unter bestimmten Winkelpositionen angeordneten Konvergenzmagneten.

Fig. 4

zeigt eine schematische Ansicht eines Leuchtschirms einer erfindungsgemäßen Farbbildröhre nach einer Korrektur der Ost-West-Innenkissen-Verzeichnung gemäß Fig. 1 mit einer zusätzlichen Korrektur durch Geometriemagnete.

Fig. 5

zeigt eine schematische Darstellung eines Leuchtschirms einer erfindungsgemäßen Farbbildröhre mit einer erfindungsgemäß verminderten Ost-West-Innenkissenverzeichnung.

Fig. 6

zeigt eine schematische Ansicht einer zweiten Ebene des erfindungsgemäßen Ablenksystems für eine Farbbildröhre mit den unter bestimmten Winkelpositionen angeordneten Geometriemagneten.

Fig. 7

zeigt den Aufbau des erfindungsgemäßen Ablenksystems aus Fig. 3 in einer seitlichen Ansicht.

The invention will now be explained in more detail with reference to the drawing.

Fig. 1

shows a remaining east-west inner cushion distortion after correcting an east-west distortion of the outer vertical lines.

Fig. 2

shows schematically the structure of a color picture tube.

Fig. 3

shows a schematic view of the first level of a deflection system according to the invention for a color picture tube with the convergence magnets arranged at certain angular positions.

Fig. 4

shows a schematic view of a fluorescent screen of a color picture tube according to the invention after a correction of the east-west inner cushion distortion according to FIG. 1 with an additional correction by geometry magnets.

Fig. 5

shows a schematic representation of a fluorescent screen of a color picture tube according to the invention with an east-west inner cushion distortion reduced according to the invention.

Fig. 6

shows a schematic view of a second plane of the deflection system according to the invention for a color picture tube with the geometry magnets arranged at certain angular positions.

Fig. 7

shows the structure of the deflection system according to the invention from FIG. 3 in a side view.

2 shows a sectional view of a color image tube 1. The Color picture tube is provided on the inside of the screen surface 2 with a luminescent layer and has an electron beam generating system disposed in the neck of the color picture tube 3 on. It is the electron beam generating system 3 is an in-line electron beam generation system. Under an in-line electron beam generation system one understands an electron beam generation system, preferably three running in a common plane 3a Electron beams generated, which are directed to the fluorescent screen 2.

A deflection system is mounted on the outside of the glass body of the color picture tube. The distraction system comprises a horizontal deflection coil pair 4, a vertical deflection coil pair 5, and a ferrite core 6 enclosing both deflection coils 4, 5. Such a deflection system with a substantially funnel-shaped structure causes a distraction of the electron beams generated by the electron beam generating system 3 in X direction and Y direction. The deflection unit additionally includes magnets and, if necessary soft magnetic field formers, so that on the fluorescent screen 2 self-converging image without a north-south raster distortion.

Fig. 3 shows a schematic view of a first level of the invention Deflection system in the direction of the Z axis of the color picture tube. The vertical deflection coils are with the reference number 5, the horizontal deflection coils with the reference number 4 provided. In addition, four are arranged symmetrically in this view Convergence magnets 8 shown. All four are preferably convergence magnets 8 arranged approximately in the direction of the screen corners. Here are the convergence magnets 8 are preferably closer to the vertical (Y-) than to the horizontal (X-) axis of the color picture tube.

All four convergence magnets 8 are preferably at an angle α of approximately 60 ° to the in-line level 3a. Depending on the structure and shape of the color picture tube can the additional convergence magnets 8 within an angular range of 45 ° to 70 ° for the angle α, preferably within an angular range between 50 ° and 60 °.

These convergence magnets 8 generate a local magnetic field which, due to its location and its dimensions and the relative positioning of the three electron beams relative to one another in this area, causes the electron beams to be deflected to different extents. , As a result, there is mainly a shift from red and green to the left relative to blue on the right side of the screen in the corners. Accordingly, there is a shift from blue and green to the right relative to red on the left side. There is also a change in the geometry of the horizontal and vertical lines on the screen.
Such a convergence and geometry change brought about by the convergence magnets 8 allows the use of additional geometry magnets to correct these aberrations, which consequently leads to an improvement in the east-west inner cushion distortion. According to the invention, the east-west cushion distortion of the outer vertical lines shown in FIG. 1 is increased by the convergence and geometry magnets with unchanged modulation of the horizontal deflection current. The resulting distortion is shown in Fig. 4. The solid lines in FIG. 4 indicate the east-west pincushion distortion that occurs with conventional modulation of the horizontal deflection current (according to FIG. 1) and the additional use of geometry magnets. In comparison, the outer vertical lines are shown in dotted lines without the use of the additional geometry magnets (cf. FIG. 1).

By slightly varying the modulation of the horizontal deflection current, as a result achieve an improvement in the east-west inner cushion distortion. The result is shown in Fig. 5. Compared to the inner cushion distortion The inner vertical lines in Fig. 1 became the east-west inner cushion distortion significantly improved (solid lines). In comparison, the original one Inner cushion distortion of the inner vertical lines shown in FIG. 1 dotted.

The arrangement of the additional geometry magnets according to the invention preferred embodiment is shown in FIG. 6. Fig. 6 shows a schematic View of a second level of the deflection system according to the invention in the direction of Z axis of the color picture tube. The horizontal winding heads of the deflection system are included 11, the vertical winding heads with the reference number 12. In addition, there are four symmetrically arranged geometry magnets in this view 10 drawn. The geometry magnets 10 are preferably closer to the horizontal axis of the color picture tube as arranged on the vertical axis. In a preferred embodiment, all four geometry magnets 10 are under one Angle β of approximately 30 ° to the in-line plane 3a. Depending on the structure and shape the color picture tube, the geometry magnets 10 within an angular range from 10 ° to 45 ° for the angle β, preferably within an angular range between 20 ° and 40 °.

The plane in which the geometry magnets 10 are arranged is preferably located closer to the fluorescent screen than the plane in which the convergence magnets 8 are arranged are.

The inventive positioning of the convergence magnets 8 causes the three electron beams running horizontally next to each other through the of each a converging magnet 8 generated magnetic field deflected to different degrees become. One can use the polarity and dimensioning of the magnetic field suitable shift of the electron beams to each other for the convergence correction to adjust.

The convergence magnets 8 are preferred in the Z direction of the color picture tube in one middle level in relation to the deflection system. Such an arrangement is reproduced in Fig. 7. The correction magnets 8 are preferably on the Horizontal tracks 4 of the existing of horizontal tracks 4 and 5 vertical tracks Deflection system provided. By shifting the plane of the convergence magnets 8 in the Z direction of the color picture tube, the influence of the magnetic fields 9 on the electron beams vary.

The additional geometry magnets 10 are preferably in the front area of the deflection system, for example arranged in the area of the large coil winding heads.

About the position, size and strength of the convergence and geometry magnets Degree of improvement in east-west inner pillow distortion over a wide range influenced.

The invention thus relates to a color picture tube and a deflection system for a color picture tube with a rectangular fluorescent screen and an in-line electron beam generation system. An in-line electron beam generation system produces several electron beams extending essentially in a common plane, the are directed towards the fluorescent screen. For an east-west interior cushion distortion to correct, are on the color picture tube or in the deflection system of a color picture tube in a first level convergence magnets and in a second, different ones Level geometry magnets arranged. The levels of convergence and Geometry magnets are perpendicular to the direction of the electron beams aligned.

The present invention thus enables a color picture tube using a conventional one East-west inner cushion distortion without a circuit for additional Modulation of the horizontal deflection current can be corrected and that despite improved Imaging properties can be produced cheaply.

Claims (23)

Color picture tube with a rectangular luminescent screen (14) and an inline electron beam generation system (13) for generating a plurality of electron beams which run essentially in a common plane (3a) and are directed onto the luminescent screen (14),
marked by
Convergence magnets (8) and geometry magnets (10) mounted on the outside of the color picture tube, the convergence magnets (8) being arranged essentially in a first plane perpendicular to the direction of the electron beams and the geometry magnets (8) essentially in a second, different from the first Plane are arranged perpendicular to the direction of the electron beams. Color picture tube according to claim 1, characterized in that the convergence magnets (8) are arranged in the region of a deflection system (4, 5) mounted on the outside of the color picture tube for deflecting the electron beams. Color picture tube according to claim 2, characterized in that the deflection system comprises a horizontal coil (4) and a vertical coil (5) and the convergence magnets (8) are mounted on the horizontal coil (4). Color picture tube according to one of claims 1 to 3, characterized in that a total of four convergence magnets (8) are arranged symmetrically in the first plane. Color picture tube according to one of claims 1 to 4, characterized in that a total of four geometry magnets (10) are arranged symmetrically in the second plane. Color picture tube according to one of claims 1 to 5, characterized in that the second plane is arranged closer to the fluorescent screen (14) with respect to the position of the first plane. Color picture tube according to one of claims 1 to 6, characterized in that the second level is in the region of the deflection system which is arranged closer to the fluorescent screen (14). Color picture tube according to claim 7, characterized in that the second level is arranged in the region of the large coil end windings (11, 12) of the deflection system. Color picture tube according to one of claims 1 to 8, characterized in that the first plane is arranged in a central position in the Z direction with respect to the horizontal coil (4) of the deflection system. Color picture tube according to one of claims 1 to 9, characterized in that the convergence magnets (8) are each arranged in the first plane closer to the vertical axis of the color picture tube than to the horizontal axis. Color picture tube according to claim 10, characterized in that the convergence magnets (8) are each arranged in the first plane at an angle (α) between 45 ° and 80 ° to the common plane (3a) in which the electron beams run. Color picture tube according to claim 11, characterized in that the convergence magnets (8) are each arranged in the first plane at an angle (α) between 50 ° and 70 ° to the common plane (3a) in which the electron beams run. Color picture tube according to claim 12, characterized in that the convergence magnets (8) are each arranged in the first plane at an angle (α) of approximately 60 ° to the common plane (3a) in which the electron beams run. Color picture tube according to one of claims 1 to 13, characterized in that the geometry magnets (10) in the second plane are each arranged closer to the horizontal axis of the color picture tube than to the vertical axis. Color picture tube according to claim 14, characterized in that the geometry magnets (10) are each arranged in the second plane at an angle (β) between 10 ° and 45 ° to the common plane (3a) in which the electron beams run. Fab picture tube according to claim 15, characterized in that the geometry magnets (10) are each arranged in the second plane at an angle (β) between 20 ° and 40 ° to the common plane (3a) in which the electron beams run. Fab picture tube according to claim 16, characterized in that the geometry magnets (10) are each arranged in the second plane at an angle (β) of approximately 30 ° to the common plane (3a) in which the electron beams run. Deflection unit for a color picture tube (2) with a rectangular fluorescent screen (14) and an inline electron beam generating system (13) for generating a plurality of electron beams which run essentially in a common plane (3a) and are directed onto the fluorescent screen (14) of the color picture tube (2) are directed
marked by
Convergence magnets (8) and geometry magnets (10) mounted on the deflection unit, the convergence magnets (8) being arranged essentially in a first plane perpendicular to the direction of the electron beams and the geometry magnets (8) essentially in a second plane different from the first are arranged perpendicular to the direction of the electron beams. Deflection system according to Claim 18, characterized in that the second level is arranged in the region of the deflection system (4, 5) which is closer to the fluorescent screen (14). Deflection system according to Claim 18 or 19, characterized in that the second level is arranged in the region of the coil end windings (11, 12) of the deflection system. Deflection system according to one of Claims 18 to 20, characterized in that the first plane is arranged in a central position in the Z direction with respect to the horizontal coil (4) of the deflection system. Deflection system according to one of Claims 18 to 21, characterized in that the convergence magnets (8) are each arranged closer to the vertical axis of the color picture tube than to the horizontal axis in the first plane. Deflection system according to one of Claims 18 to 22, characterized in that the geometry magnets (10) in the second plane are each arranged closer to the horizontal axis of the color picture tube than to the vertical axis.

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