DE1277458B - Image converter or image amplifier tubes - Google Patents

Description

Image converter or image intensifier tube The invention relates to an image converter or image intensifier tube with a negative potential Electrode that at least partially has an electrode at a more positive potential surrounds.

There are already image converter tubes known whose at positive potential lying electrode has a cylindrical extension in the direction of the photocathode, which is in an opening of a lying at negative potential and with the photocathode conductively connected electrode protrudes. When operating such tubes occur between the two adjacent electrodes high potential differences and thus high electrical Field strengths. It has now been observed that in particular when occurring during operation Shocks and discharges take place between these electrodes.

The object of the invention is to provide a novel image converter or image intensifier tube provide in the undesired discharges of the type mentioned largely reduced are.

According to the invention it is proposed that the surface of the negative Electrode at least in those places where the highest electric field strength occurs, is covered with a thin layer of glass.

On the basis of the embodiment shown in the figure the subject matter of the invention is explained in more detail below.

The embodiment shows a diode type image converter tube. The electrode 1, which is at negative potential, carries the photocathode 2. Furthermore the electrode 1 has two inwardly protruding annular beads 3 and 4, which are the Influence the electric field forming between the electrodes in the desired manner. These annular beads 3 and 4 are designed according to older proposals as special inserts, which are inserted into part 1 of the cathode electrode. The electrode 1 forms at the same time part of the vacuum envelope.

The anode electrode 6 is connected to the electrode via a glass cylinder 5 1 mechanically connected. The luminescent screen 7 is attached to the electrode 6. That cylindrical part 8 of electrode 6 is double-walled according to an older proposal formed, and the evaporator arrangement is in the annular gap formed by the double wall 9 housed. The evaporator arrangement 9 serves to remove the light-sensitive coating on the photocathode 2 to produce. To put the evaporator assembly into operation being able to do so is, as already described in older proposals, a separate one Feed 10 to the evaporator arrangement 9 is provided with a contact connection 11 is connected in the glass wall 5.

The cylindrical part of the electrode 6 partially protrudes into the opening of the annular bead-shaped electrode part 4 into it.

It has now been observed that apart from the flashovers between the electrodes in the event of strong vibration of the tube with operating voltage applied at the same time can form on the inside of the glass cylinder 5 luminous charge islands. Such luminous phenomena are undesirable because they expose the photocathode 2 and can trigger undesired electron emission on it. It is believed that these charge islands are caused by a cold emission of the cathode electrode will. In the illustrated embodiment, the annular bead-shaped one is used for this purpose Bet 4 in question.

According to a further development of the invention, the one is now negative Electrode at potential not only closest to that of anode electrode 6 adjacent, but also on the one facing the inside of the glass cylinder 5 Part of its surface is covered with a glass skin 12. Through this glass cover the undesired discharge phenomena described are eliminated.

The superficially glazed electrode, so that is the one shown Embodiment of the electrode insert 4, this affects between her and the electric field forming the electrode 6 does not. On the other hand, the glass skin prevents an escape of electrons from the electrode surface it covers.

The invention significantly increases the flashover strength between the two adjacent electrodes. It is also important here that the flashover resistance between the feed 10 of the evaporator arrangement 9 and the cathode ring 4 is increased. The evaporator arrangement 9 generally consists of a heating coil which is connected at one end to the electrode 6 and at its other end to the feed 10 . To produce the photocathode, a voltage is applied to the electrode 6 and the contact 11, which heats the filament so that the material attached to it evaporates. During the operation of the image converter tube, the feed 10 is practically at the potential of the electrode 6, since no current flows through the feed 10. Thus, the feed 10 forms a disturbance in the symmetry of the electrical field that forms between the electrode 6 and the electrode part 4, which has an influence on the flashover strength. The inventive glazing 12 of the surface of the electrode part 4 enabled the dielectric strength to be increased significantly.

The parts to be provided with a glass layer according to the invention the electrode lying at negative potential are expediently made of Kovar or Vacon or a similar material whose thermal expansion behavior is approximately that of of the glass. The surface is expediently glazed in such a way that that the electrode part is first oxidized on the desired surface. then if you bring glass powder z. B. by spraying on and brings this electrode part into an oven, where the glass powder layer becomes a cohesive one Glass skin fuses. To apply the glass powder, this is expediently by means of of a volatile or vaporizable binder, paintable or sprayable processed.

Claims (1)

Claims: 1. Image converter or image intensifier tube with a Electrode lying at negative potential, one at more positive potential lying electrode at least partially surrounds, characterized in that the Surface of the negative electrode at least in those places where the highest electric field strength occurs, is covered with a thin layer of glass. z. Imager or image intensifier tube according to claim 1, characterized in that the negative Potential lying electrode consists of ring-shaped inserts and that the surface of an annular insert has a glass layer. 3. Image converter or image intensifier tube according to claim 1 or 2, characterized in that the electrode part of the negative Electrode lying at potential, the electrode lying at positive potential surrounds, is annular bead-shaped and that the outer surface of the annular bead is covered with a layer of glass. 4. Image converter or image intensifier tube one of claims 1 to 3, characterized in that the part of the surface the electrode lying at negative potential, that of the inside of the as vacuum envelope Serving glass cylinder is facing, is covered with a layer of glass. 5. Procedure for producing an image converter or image intensifier tube according to one of the claims 1 to 4, characterized in that the surface to be provided with a glass layer is first oxidized, that then on the oxidized surface a layer of glass powder is applied and that the glass powder layer is then firmly attached to the electrode surface adhering glass skin is fused. Publications considered: German U.S. Patent No. 1115,851; German interpretative document No. 1087 721.