DE1090777B - Magnetic correction device for electron beam tubes, especially traveling wave tubes - Google Patents

Description

GERMAN

INTERNAT. KL.

PATENT OFFICE

HOIj

T16803VIIIa / 21g

REGISTRATION DAY: 11 J U N I 1 9 5 9

NOTICE OF THE APPLICATION AND ISSUE OF THE EXPLAINING PAPER: OCTOBER 13, 1960

Magnetic correction device

for cathode ray tubes, especially traveling wave tubes

The invention ¹ relates to a magnetic correction device for cathode ray tubes in which the electron beam leaving the electron gun is introduced with the aid of magnetic fields into a further, axially extending cylindrical electrode parallel to the axis of this electrode, in particular for traveling wave tubes.

In traveling wave tubes based on the principle of interaction between an electron beam and based on a wave field propagating along a delay line, it is common practice to use the electron beam generated by the electron gun with the aid of a magnetic focusing arrangement to be introduced into the delay line and to be bundled along the same. at The aim of these tubes is to ensure that the electron

Avoid irradiating the delay line if possible 2

stirs, for which it is necessary that the axis of the

Magnetic focusing arrangement exactly on the 20 can be aligned by the wobbling movable pole-geometric axis of the delay line is. It is also important that the electron beam is parallel to the axis of the delay line is shot into this, which can be achieved (with not always sufficient accuracy) It is enough to try that, purely in terms of structure, the axis of the electron gun is as accurate as possible aligns with the axis of the delay line. This requirement can only be met within the scope of customary manufacturing tolerances be sufficient, so that it is generally desirable to have correction possibilities.

Applicant:

Telefunken G.m.b.H., Berlin-Charlottenburg 1, Ernst-Reuter-Platz

Dr.-Ing. Werner Klein, Herrlingen (Württ.), has been named as the inventor

zen, with the help of which one can determine the adverse effect of structural inaccuracies on the beam guidance can correct even after completion of such a cathode ray tube.

Various correction devices of this type have already become known. This is how it is with traveling wave tubes already known, a movable ferromagnetic one in the field of electron guns To attach disc, through whose (eccentric 40 the efficiency trically arranged) opening the tube protrudes. worsens. In cooperation with the focusing magnetic field, it is thus possible to set the entry conditions of the electron beam in the delay line. In this known arrangement, the 45 Possibility of correction given by the degree of eccentricity of the disk opening. It can be correcting the degree of eccentricity of the field distribution only inadequately.

Another known possibility consists in providing a rotationally symmetrical tiltable pole piece, which can have a cylindrical shape, for example, and which is at the level of the beam generating system is appropriate. With the help of this arrangement shoe the degree of eccentricity of the field distribution change in any way within a certain range, but worsens one such an arrangement significantly increases the focusing efficiency because between the magnetic focusing means and sufficient space must be left free for the tube to tilt the pole piece and thus stronger magnetic focusing means are needed.

Another well-known possibility of correction consists in the attachment of small coils, with their help in the field of electron guns additional magnetic auxiliary fields can be generated. Thereby the strength of the eccentric correction field changed by the choice of the strength of the current flowing through these coils will. In this known arrangement, it is disadvantageous that additional, adjustable power sources must be available, which in turn makes the entire arrangement

The object of the invention is to provide a magnetic correction option for cathode ray tubes, in which the electron beam leaving the electron gun with Using magnetic fields in a further, axially extending cylindrical electrode is introduced parallel to the axis of this electrode, in particular for traveling wave tubes to provide the avoids the above-mentioned disadvantages.

According to the invention it is proposed that preferably in the area of the electron gun a cylinder forming shells of ferromagnetic material are provided which the tube

009 627/330

are closely surrounded and can be moved in both the axial and circumferential directions.

On the basis of the embodiment shown in FIGS. 1 and 2, the invention is now intended be explained in more detail.

In Fig. 1 is a partial view of a traveling wave tube 1 is shown, which within a focusing arrangement is arranged and in the area of the electron gun 5 according to the invention is closely surrounded by ferromagnetic half-shells 3 and 4. Through a suitable constellation of the two Half-shells to each other and to the focusing arrangement 2 can be. achieve that the that The electron beam leaving the beam generating system 5 is precisely centered in the * 5 designed as a helix Delay line 6 is introduced. The two half-shells can be sawed open, for example made of a cylindrical tube and arranged as drawn in FIG. The half-shells are attached in such a way on the circumference of the tube that they both together in the circumferential direction and each shell can be moved individually in the axial direction.

Even if the embodiment of a correction device described with reference to the drawing consists of two half-shells, the invention is not intended to be limited to this specific embodiment. The correction device can in particular also consist of several shells.

Claims (3)

Patent claims: 1. Magnetic correction device for cathode ray tubes, in which the electron beam leaving the electron gun is introduced with the help of magnetic fields into a further, axially extending cylindrical electrode parallel to the axis of this electrode, in particular for traveling wave tubes, characterized in that in the area of the electron gun preferably a cylinder forming shells made of ferromagnetic material are provided, which closely surround the tube and are movable both in the axial and in the circumferential direction. 2. Magnetic correction device according to claim 1, characterized in that two half-shells are provided. 3. Magnetic correction device according to claim 1 or 2, characterized in that the Length of the shells is the same. 1 sheet of drawings 009 627/330 10.60