DE878669C - Cathode ray image transmitter tubes - Google Patents

Description

The invention relates to a storing cathode ray image transmitter tube with one-sided mosaic screen.

In such tubes, the mosaic screen consists of a plate insulating material, on one surface of which a large number of individual mutually isolated elements, such as silver spheres that are photoelectrically sensitized, is upset. There is a contiguous one on the back of the insulating plate Metal layer, the signal plate. The image to be transferred is placed on the mosaic elements Projected object. The resulting charging of the mosaic elements is -evaluated by a scanning cathode ray.

The general structure of such a tube can be seen in Fig. z. In the bulb i of the cathode ray tube is the. Electron slingshot 2, the last electrode of which is labeled 3. The grid plate consists of one Back plate q. made of metal, a mica plate 5 thereon and a mosaic 6, formed by the above-mentioned silver beads. 7 is the lens through which the image of the object to be transferred is thrown onto the multi-cell board.

With such tubes, with which the scanning beam and the light fall from the same side onto the grid plate, the result is a completely different one Position of the different grid plate beads 6 to the electrode 3, which the photoelectrons and picks up the secondary electrons. As a result, the operating conditions for different parts of the grid plate completely different, and it sustains the presence these different operating conditions lead to the formation of undesired signals in, for example, the formation of the so-called interference signal.

It is already known in such tubes in front of the mosaic electrode a mesh electrode at a higher voltage than the last electrode of the electron gun to arrange. Such an arrangement has the disadvantage that now between the the last electrode of the electron gun and the mesh electrode an asymmetrical one Field emerges. Due to its asymmetry, this field disturbs the scanning, and to overcoming it is also a greater expenditure of energy for the beam deflection required than without this additional field.

In order to avoid this disadvantage, therefore, in such a picture tube proposed with a one-sided mosaic screen and a mesh electrode arranged in front of it, this mesh electrode with the electrode of the furthest away from the cathode Electron centrifugal to connect directly conductive. One achieves that the operating conditions become uniform for all points of the mosaic electrode, without the disadvantages just mentioned appearing.

Embodiments of the invention will now be based on the illustrations be described in more detail.

In Fig. I is in front of the mosaic electrode with the signal plate q., The Insulating plate 5 and the mosaic layer 6, a wire mesh 8 is arranged with the last electrode 3 of the electron gun is connected, so that practically everyone Mosaic element faces a counter electrode at the same distance, which at the same time serves as a photo anode and as a secondary emission anode. The connection of this network 8 with the electrode 3 is denoted by 9.

This arrangement essentially eliminates the above-mentioned disadvantage eliminated. At most there is still the possibility that through this Wire mesh unwanted shadow effects are exerted on the multi-cell panel can.

These can easily be avoided by using the wire mesh at a distance from the grid plate which is a multiple of the picture element size is on the grid plate. This arrangement is shown in Fig. A, the only contains the essential parts, namely the lens 7, the network 8, the mica plate 5 and the mosaic elements 6. If the distance is approximately equal to thirty times the Image element size, i.e. about 1 cm, becomes, as from the beam path in Fig. z can be seen, the shadow effect has already been reduced to such an extent that it is none has adverse consequences, even if the mesh size of the network, as shown in Fig. 2 is still assumed to be very small.

It can be seen that the path differences in the arrangement according to the invention for the rays are so insignificant that the operating conditions for both the Photoelectrons and the secondary electrons become almost the same.

A further reduction in the light shadow effect and the Shadow effect of the electron beam can be achieved according to the further invention achieve that the mesh size of the wire netting is a multiple of the picture element size, about twenty or more times that is made. This arrangement is shown schematically in Fig. 3 shown.

Claims (1)

.PATENT CLAIM: Cathode ray picture tube with one-sided mosaic screen and a reticulated electrode arranged in front of it, characterized in that this with the electrode of the electron gun furthest away from the cathode is directly connected.