DE2128303A1 - Arrangement for deflecting electron beams in cathode ray tubes and process for their production - Google Patents

Description

is supported and has a diameter »which is larger as the one of the two turns of the first layer.

Background of the invention:

Today's television receivers use two different color picture tube systems. Usually with a color picture tube in three-way or triad technology, in which a color picture tube has several electron guns which are arranged in a group of three, and in such color picture tubes, a saddle-like Deflection yoke used. This combination serves to direct the electron beams from the electron guns over the To swipe the screen.

In the other type of color picture tube, the electron guns are arranged in a single plane, this arrangement is called "in-line" technique. A toroid deflector hole which is designed to pick up the in-line electron guns becomes a deflection the electron beams used across the screen -

The three-way technique is currently the most commonly used, a system with a “saddle yoke, however, leaves something to be desired. In particular, in the case of such a“ saddle ”yoke requires a significant amount of copper, the assembly is bulky and heavy, and it can be difficult, though Generally, be made symmetrically and uniformly. In the finished system, there is often a lack of symmetry and uniformity.

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The ⁿ in-line "system requires both a special cathode ray tube and special deflection yokes which are shaped so that they can cooperate with the special electron gun assembly The convergence and deflection arrangements for an in-line system are therefore unsuitable for the more common three-way techniques and devices.

In the main patent, an arrangement for deflecting electron beams in cathode ray tubes, in particular: * three-color picture tubes, bears with a deflection yoke, "negotiations the Ablenkwick- described and claimed which has the special feature that the deflection yoke has a substantially circular magnetic core on which a two-part vertical and a two-part horizontal deflection winding are wound in a toroidal shape, and that the two parts of at least one deflection winding are arranged in mirror image to one another on both sides of the axis perpendicular to their deflection direction. Each individual turn of the second turn layer of a group is supported by a pair of adjacent turns of the first turn layer of the group

With this older arrangement, the effort and complexity for the three-part system is significantly reduced and the uniformity and repeatability of results has been improved, however, it has been found that certain forms of triplicate behave better when adjustments are made to the system. Specifically, it was found that certain

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Forms of triple arrangements have higher deflection efficiencies require, especially in the direction of vertical deflection.

A well known technique for changing a toroidal wound Kerns is described in U.S. Patent 2,872,652. A toroidally wound core has several layers, where the turns of the layer adjacent to the core have a larger diameter than the turns of the second layer above arranged location. In this way, the reduced diameter of the second winding layer compensates for the larger one Diameter of the core, whereupon every layer has the same number of turns.

This toroidally wound core is for transformers or the like suitable, but it is known that a reduction of the winding diameter leads to an increase in the resistance of a deflection yoke and an increase in efficiency sinks. An increase in the winding diameter of an inner layer is also possible in the case of the core and winding arrangement unlikely, if not impossible, since both layers have essentially the same number of turns.

Summary of the invention:

The invention aims to provide an improved deflection system for Color cathode ray tubes are made available. The invention aims to provide an improved three-way deflection system be made available. Furthermore, the " Invention of an improved toroidal yoke for television receivers can be made available with a triple deflection system. Furthermore, a Torold deflection yoke with an improved Deflection efficiency can be made available.

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According to one aspect of the invention, these and other objects, features and advantages of the invention are achieved with a toroidally wound deflection yoke having a core of magnetic material with a horizontal axis and a vertical axis, two horizontal deflection lobes ₉ disposed on either side of the vertical axis are, and two vertical deflection windings, which are arranged on both sides of the horizontal axis., At least one of these two pairs of windings has three turns, in which one turn of a second layer is supported with two turns of the first layer, and has the turn of the second layer a larger diameter than one of the two turns of the first layer. J

The invention will be explained in more detail with reference to the drawing; show it

1 shows a section through a three-color picture tube with a deflection system and

Fig. 2 is a front view from the point of view of an observer of the screen of a cathode ray tube »of the toroidally wound deflection yoke with associated connections to an energy source.

According to Fig. 1, a color picture tube deflection system for three ^ Tubes a color picture tube 5 with several electron guns !! 7 * and a viewing screen 9 on which electrons impinge, which are emitted from the electron guns 7. The electron guns 7 are preferably in a group of three (Triad) and the screen has red, green and blue phosphors, also in groups of three (Triads) are arranged *

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The cathode ray tube 5 is assigned a deflection yoke 11 and a convergence coil 13. The deflection yoke 11 surrounds the neck portion of the cathode ray tube 5 and is arranged between the electron guns 7 and the screen 9. The convergence coil 13 also surrounds the neck portion of the cathode ray tube 5 and is arranged between the electron guns 7 and the deflection yoke 11.

In operation, the convergence coil 13 serves to generate the electron beams from the electron guns 7 so that the electron beam from each of the electron guns 7 on a special red, green or blue phosphor, which is arranged in groups of three on the screen 9 are. The deflection yoke 11 wixkt on all electron beams in order to achieve a horizontal and vertical deflection over the To reach screen 9.

A preferred embodiment of a toroidally wound deflection yoke 11 is shown in Fig. 2, with some details omitted for the sake of clarity. A substantially circular core 15 of magnetic material has a horizontal axis HH * and a vertical axis VV ¹ . A first horizontal deflection winding 17, represented by black dots, is arranged on the left side of the vertical axis VV * as seen from a viewer of the screen. A second horizontal deflection winding 19 ', also represented by black dots, is arranged on the right or opposite side of the vertical axis VV.

As can be easily seen, the two are horizontal deflection coils 17 and 19 »which are in the form of turns made of insulated electrical conductors, preferably mirror images with reference to each other around the vertical axis V-V *

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arranged. The two horizontal deflection windings 17 and 19 are also preferably, although not necessarily, essentially symmetrical and mirror-inverted to Horizontal axis H-H * arranged. The two horizontal deflection windings 17 and 19 also have flux changing devices 21 and 23, for example in the form of a winding gap or short-circuit turns can, and which are essentially arranged centrally around the horizontal axis H-H *.

Each of the two horizontal deflection windings 17 and 19 is in the form of an intermittently nested winding. the Intermittently nested winding has a number of three-turn groups spaced from one another in the circumferential direction in each of which one turn of a second layer touches two turns of the first layer and is supported by these

To nest the winding, all turns of the three-turn are electrically connected in series so that the potential difference between turns is minimal. A horizontal input signal at horizontal input 25, that is applied to the second or right horizontal deflection winding 19, so migrates counterclockwise from down through a short connecting piece 27, and J then from top to bottom through the first or left horizontal deflection winding 17 to a reference potential level or ground.

Next, two vertical deflection windings 29 and 31 are in shape provided by turns of insulated electrical conductors, which are shown with white dots and from a There are number of groups of three spaced apart in the circumferential direction, and these windings are with the two Horizontal deflection windings 17 and 19 interleaved. the

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/ the two vertical deflection windings 29 and 31 are also preferably arranged in mirror image to one another with respect to the horizontal axis ^{HH 1.} The two vertical deflection windings 29 and 31 are also preferably centered symmetrically and in mirror image about the vertical axis VV. Furthermore, each of the two vertical deflection windings 29 and 31 has a flow changing device 33 and 35 which is arranged centrally with respect to the winding and to the vertical axis VV ¹ .

In addition, each of them faces one another in the circumferential direction distant dewing groups of the two vertical deflection windings 29 and 31 have a layer of two windings on top of the circular magnetic core 15, and a second layer in the form of a single turn 39 »the two turns 37 is touched and supported by these. The single turn 39 of the second turn layer has an electrical Conductor on which is surrounded by electrical insulating material is, and the conductor and the insulating material work together, so that a diameter greater than the diameter of one of the two support turns 37 results.

The Einzelwindumg 39 of the second winding layer has one Diameter that is at least equal and preferably larger is the diameter of the electrical conductor of one of the two turns 37. In this way, the larger conductor size is used of the individual turn 39, the resistance of the vertical windings 29 and 31 to decrease. Because the resistance in inverse proportion to the efficiency of the windings 29 and 31, a reduced resistance results in a desired higher efficiency of the vertical deflection windings 29 and 31.

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The larger diameter of the individual charging 39 can be achieved by thickening the electrical insulation instead of the electrically conductive material · The three-group winding structure allows either the insulation to increase or decrease the resistance »without having to change the winding structure.

With regard to the sawtooth winding, it should be mentioned that the electrical potential between each of the individual turns 39 and the pair of support turns 37 is essentially constant. More precisely, a vertical input 41 leads to a single turn 39 at one end of the second vertical deflection winding 31. The single turn 39 at the opposite end of the The second vertical deflection winding 31 is fed back to the two turns 37 of the first turn layer at one end of the second vertical deflection winding 31 via an outer conductor 43. The two turns 37 on the opposite end of the first turn layer are guided to the two turns 37 of the first vertical deflection winding 29 with an external connecting piece 45. The two turns 37 at the other end of the first vertical deflection winding 29 are led back to the Einseiwindung 39 of the second turn layer with a conductor 47. The single turn 39 at the opposite end of the first vertical deflection winding 29 is connected to a reference potential level or ground. The potential j between the pairs of turns 37 and the individual turns 39 of each group of three in the vertical deflection windings 27 and 31 is therefore essentially the same.

To produce a toroidally wound deflection yoke the pairs of turns 37 of the two vertical deflection windings 29 and 31 are toroidal-shaped away from one another in umfachsrichtung on the substantially circular core 15 of magnetic material by advancing in opposite directions

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Directions as indicated by the arrows in FIG. The two horizontal deflection windings 17 and 19 are nested between the vertical deflection windings 29 and 31 in the longitudinal direction. The horizontal deflection windings 17 and 19 are interleaved with the turns of each group of three being connected in series and all of the turns of the group of three being applied simultaneously. In addition, the vertical deflection windings 29 and 31 prevent undesired spreading and distortion of the nested horizontal windings 17 and 19 when the second layer of turns is applied. The horizontal deflection windings 17 and 19 are also applied by advancing in opposite directions "as indicated by the arrows in FIG Triple color picture tube is used. The deflection yoke is constructed like a toroid, with two horizontal deflection windings and two vertical deflection windings being constructed in the form of three-turn groups spaced from one another in the circumferential direction and nested in one another of the first layer is trimmed, and in which the diameter of the turn of the second layer is greater than the diameter of any turn of the first layer. In this way, the three-winding construction allows either higher conductor or higher insulator diameters in the second layer of turns, so that either the resistance properties la reduced in the desired manner, or the electrical insulation properties can be increased in the desired manner, without the winding structure in undesired Way must be changed.

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Claims (4)

S6 P126 D Claims (iy arrangement for deflecting electron beams in cathode ray tubes, in particular three-color picture tubes, with a deflection yoke carrying deflection waves, the deflection yoke having a substantially circular magnetic core has, onto which a two-part vertical and a two-part horizontal deflection are wound in a toroidal shape are, in which the two parts of at least one Ahlenkwindung mirror images of each other on both sides of the to their deflection direction perpendicular axis are arranged, and in which at least one deflection winding is made up of intermittent, nested groups of turns each individual turn of the second turn layer is supported by a pair of adjacent turns of the first turn layer, according to patent ... (patent application ρ 20 35 682 * 7), characterized in that the second layer of turns of at least one deflection wedge has a larger one Diameter has as one of the two turns of the first turn layer. 2. Arrangement according to claim 1, characterized in that the diameter of the second winding layer from a combination of the insulation and the conductive material. - 12 - 109851/1256 3. Arrangement according to claim 1 or 2, characterized in that the diameter of the conductor of the dsr second layer of turns is greater than the diameter of the conductor of a turn of the first layer of turns. 4. Arrangement according to claim 1 or 2, characterized in that the diameter of the insulating material the conductor of the second layer of turns is larger than the diameter of the conductor of one of the turns of the first Winding position 5 · Method of manufacturing a toroidally wound deflection yoke for color picture tubes according to one of the preceding Claims, characterized in that in the circumferential direction of one another located pairs of turns on both sides of the horizontal axis of a circular Core made of magnetic material are wound in a toroidal shape, between these pairs of turns of three-turn groups wound in a toroidal shape on both sides of the vertical axis and a winding layer consisting of one winding each that is in contact with the first pair of windings and of this is supported, is wound in a toroidal shape on both sides of the horizontal axis, the latter being the latter Turn has a larger diameter than the diameter of each turn of the first turn layer 109851/1256 Blank page