DE969276C - Deflection arrangement for cathode ray tubes - Google Patents

Description

The invention relates to arrangements in which the generated in a cathode ray tube Electromagnetic deflection systems deflect electron beam in one or two directions will.

According to the invention in such an arrangement, in particular for use in television, in addition to the deflection means and spatially separated from them, another electromagnetic one Deflection system provided.

Such an arrangement is particularly important when the scanned by the electron beam Surface is inclined against the direction of the undeflected electron beam, since then to achieve of an exactly right-angled grid, the deflection amplitude is different in the different areas have to be. It has now been shown that an increase in the deflection amplitude by superposition a magnetic deflection field with the

ao normal deflection field takes place.

According to the invention, the additional deflection means are attached so that the Electron beam crosses a space in which the magnetic field due to the presence of the

as an additional means of distraction over the original Field is reinforced. This defines the area over which the electron beam is scanned moved, changed accordingly.

For a better explanation of the present invention, reference is made to the drawings, of which

Fig. Ι an application example of the invention and the

Fig. 2 and 3 designs of an additional Ab-

Steering yokes show how they can be particularly beneficial have proven.

Fig. Ι shows a cathode ray tube i in which an electron beam generated by a beam generating system 2 by means of a suitable magnetic field is deflected by a fluorescent screen 3. The one used to generate the deflection field Coil system 4, which is surrounded by an iron core S, and on the other hand the yoke 6. It has proven to be beneficial to make the yoke, for example, U-shaped and to provide it with long pole pieces, which are inclined towards each other so that the neck of the cathode ray tube is almost entirely separated from the Magnet and the pole pieces is enclosed. It is thus achieved that the lines of force of the deflection field run in the yoke plane essentially along concentric circles, the center of which in the yoke plane, specifically on the side of the electron beam, where it forms an obtuse angle forms with the scanning surface. According to the invention, an additional deflection yoke / is now provided, which is arranged and dimensioned so that the deflection amplitude generated by the yoke 6 and coils 4 is enlarged. A particularly effective and perfect keystone correction

is achieved when a deflection yoke as described above is used and the additional Yoke 7, as shown in Figures 2 and 3, is provided with arms which support the neck of the cathode ray tube enclose to one part. The exact shape and position of the additional deflection yoke 7 is best determined experimentally for the particular type of cathode ray tube being used.

The shape of the yoke shown in Fig. 3 has the advantage that only a slight defocusing occurs, when magnetic focusing of the beam is used.

If the anode voltage of the cathode ray tube is increased, the deflection sensitivity is decreased the tube. This disadvantage can also be overcome by applying the present invention can be avoided, namely that flowing through the coils of the additional deflection means Current increased. With a suitable dimensioning it can be achieved that the enlargement the deflection sensitivity is the same in both directions and that by the additional deflection means the grid is shifted so that the scanned area is the same as before the enlargement the anode voltage.

In a similar way, compensation can be achieved by reducing the applied anode voltage caused change in sensitivity can be achieved.

Claims (6)

PATENT CLAIMS: 1. Deflection arrangement for cathode ray tubes, preferably with magnetic beam deflection, in particular for use in television, characterized in that additionally borrowed to the two systems (4, 6), which are used to deflect the beam in two directions, spatially a further magnetic deflection system (7) is arranged separately from them. 2. Arrangement according to claim 1, characterized in that that the additional deflection system between the two systems for beam deflection in two directions and the Cathode ray tube screen. 3. Arrangement according to claim 1 and 2, characterized characterized in that the additional deflection system includes a yoke whose arms at least partially enclose the neck of the cathode ray tube. 4. Arrangement according to claim 1 to 3, characterized in that by means of the additional deflection system the area scanned by the cathode ray is changed. 5. Arrangement according to claim 1 to 4, characterized in that the deflection planes of the deflection systems are inclined to the plane perpendicular to the undeflected beam. 6. Arrangement according to claim 5, characterized in that the deflection planes parallel to Are deflector. iao