DE697327C - Electrode for an image decomposition tube with probe scanning - Google Patents

Description

Electrode for an image dissection tube with probe scanning cEs are Fernselv .-- Ölhren known, in which the image to be transmitted is on a coherent Thrown photocathode and the one emanating from it in its thickness distribution electron bundles corresponding to the brightness values of the image through deflection fields a fixed panel is pulled away. - This is - usually the photocathode with the aid of a coil through which direct current flows, surrounding the tube Level. the scanning diaphragm electr: onen-, optis @ ch: shown. It has also been found to be expediently pointed out, one surrounding the electron beam, preferably to build a cylindrical electrode into the tube, which is kept at a certain potential and can be designed, for example, as a wall covering. This will once the tube wall gives its defined 'potential, while otherwise disturbances. could occur through wall charging. On the other hand, this electrode is useful used at the same time to achieve an electrostatic lens effect. Man can e.g. B. the photocathode with a cylindrical, pointing to the scanning system Mistake approach that is also at cathode potential. This approach represents then together with the mentioned electrode surrounding the electron bundle! Lens, which in addition to the field generated by the magnetic coil for bundling which contributes electrons.

In the practical operation of such tubes, it has now been found that this Electrode, which will be referred to as the wall cylinder in the following, on the : the other side also has disadvantages. It shields the interior to a hollow degree; against the -deflection fields, from which, as a rule, with the help of outside the tube arranged coils are generated. This is especially true for the higher frequency Line deflection oscillation. Proof of this is the finding that a cylinder made of nickel, as it has recently replaced the original one used wall covering is used, heats up considerably during operation: The Wall-: cylinder can to a certain extent be understood as a short-circuit @ windurig, in the through. the deflectors induce significant currents. This fact has yet another consequence, namely that the ramp-down time of the sawtooth oscillation for the distraction is lengthened. The wall cylinder represents a considerable additional Attenuation, so that the oscillation cannot subside as quickly as it actually does . would be desirable.

The invention allows both the shielding and the damping effect : of the wall cylinder can be avoided or at least greatly reduced. this will according to the invention, achieved in that it, preferably transversely to the tube axis, is divided: that practically no closed, penetrated by the deflection fields Circuit can train more. Appropriate embodiments are that the cylinder is replaced by legs of coherent spiral of conductive material or is divided into a plurality of separate rings that are conductive with each other are connected. In this way it is possible with significantly: lower energies to generate especially the line toggle fields than before, at the same time one to achieve a shorter return and to avoid undesired heating.

The invention is explained in more detail with reference to the drawing, in which the FIGS. I and 2 each represent a tube as exemplary embodiments.

In the glass bulb i, 2 denotes the photocathode, which is marked with a; the same potential approach 3 is provided. The exposure takes place by means of : a lens 4 to your Anpdenfinger 5: past, in which the scanning diaphragm in a known manner -and a secondary electron amplifier for the hidden electrons are. Instead of the usual wall covering or metal cylinder, according to FIG Discharge space between systems 2, 3 and 5, enclosed by a metal spiral 6; which has the same potential everywhere and by means of a feed 7 to a certain voltage between the potentials of 2 and 5 - connected is. The lens effect of this electrode together with the approach 3 remains through the Spiral shape untouched, since practically the same potential is in the interspaces 8 as set on the spiral itself. The interior space is much less Dimensions shielded from the rocky fields than before and furthermore there can be no clilosselle Form a current path in which currents are induced by the toggle fields.

* isyt, IJi, e d preformed spiral can e.g. Metal strip B. from : one exist, .entspren '"before the melting of the light entry window 9 in the tube is inserted. Another way is that on the inner wall a spiral-shaped covering is written, similar to that of Brauaschen tubes has already been carried out with post-acceleration. In contrast, however .The spiral in the present case is not executed with high resistance, but receives it everywhere, the same potential. With this method, the wall covering is made from the start generated only at the points; where @er should finally be present. After a third In the process, a coherent wall covering is first produced, but this one then in the places where the wall should remain free; z. B. by scraping again removed.

With the arrangement: the Fig. Ä there is the wall covering or the wall electrode from juxtaposed rings i o, between which one transversely to their plane Connection strip i t is running. The production can also be done here by introducing a preformed metal body or, by applying: and, if necessary, subsequently partial removal: a covering can be made. That with this arrangement closed current paths are present, is not a disadvantage, because their 'plane is right-angled to the tilt fields.

In principle, the wall electrode can also be parallel to the tube axis running longitudinal strips are divided. However, this is less favorable, as whose shape u 'd n position then corresponds to those of the deflection coils, so that stronger induction currents can occur again. So the subdivision must, in order to To obtain equivalent results, finer; than done with transverse strips will.

In special cases, an electrode can also be used instead of the wall cylinder from others, e.g. B. square profile. The arrangement described can if necessary, i can also be used for other cathode ray tubes if it The point is, the diversion rides outside of the means arranged in the tube (preferably magnetically), but at the same time on the inner wall of the tube To generate a defined potential in the area of the deflection fields.

Claims (1)

PATENT CLAIMS: i. Electrode for an image decomposition tube with probe scanning, characterized, that this is located inside the göhre, .the discharge space between the photocathode -and probe electrode enclosing, preferably- cylindrical electrode is divided into adjacent strips that are conductive are connected to each other. a. Arrangement according to claim i, characterized in that that the electrode consists of its conductive spiral. G. Arrangement according to claim i or a, characterized in that the electrode is used as a wall covering on the inner wall the tube is formed.