DE1192755B - Signal storage tubes - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

HOIj

German KL: 21g -13/27

Number: 1192755

File number: E 20705 VIII c / 21 g

Filing date: March 7, 1961

Open date: May 13, 1965

The invention relates to a signal storage tube with a write beam, a trickle electron beam, a reticulated storage electrode and a metallic, at positive potential relative to the storage electrode Luminous screen having lying deposit.

In known storage tubes of this type, the distance between the storage electrode and the Luminous screen low so that the image is well focused on the luminescent screen. Because of the high, im Operation occurring between the deposit of the luminescent screen and the storage electrode Differences in potential can cause the background to stand out from the luminescent screen in an undesirable manner and particles are transferred between the screen and the storage electrode.

The aim of the invention is to create a signal storage tube of the type mentioned at the outset, which does not have these disadvantages and in which the image focusing on the screen is nevertheless satisfactory is.

This is achieved according to the invention in that between the storage electrode and the luminescent screen an acceleration grid is provided.

To further improve the focus, there is a space between the storage electrode and the luminescent screen an axial magnetic field in a manner known per se.

The distance between the acceleration grid and the luminescent screen is preferably that Multiples of the distance between this grid and the storage electrode.

Furthermore, it is preferably provided that the acceleration grid is at a positive potential, which is lower than that applied to the phosphor screen, so that an electrostatic field is uniform acts over the area of the storage electrode and thus a uniform response of the luminescent screen in relation to lighting and afterglow.

The device is described below with reference to the drawing. This shows a simplified one schematic representation of part of the storage tube according to the invention.

According to the drawing, the envelope 1 of a storage tube has a luminescent screen 2 on its interior End wall, which is backed with a metallic film (not particularly shown). Parallel to the luminescent screen 2, but at a distance therefrom, is the storage electrode 3, which is transverse to Tube extends and consists of a metal grid 31, on the side facing away from the luminescent screen 2 Signal storage tube

Applicant:

English Electric Valve Company Limited,

London

Representative:

Dr. W. Muller-Bore

and Dipl.-Ing. H. Gralfs, patent attorneys,

Braunschweig, Am Bürgerpark 8

Named as inventor:

Eric Brian Butler Callick, Chelmsford, Essex;

Jervois Campbell Firmin, Little Baddow, Essex

(Great Britain)

Claimed priority:
Great Britain of March 8, 1960 (8152),
dated December 6, 1960

a layer of insulating material 32 is applied in such a way that the spaces between the grid 31 are not filled are. A secondary electron collecting electrode is located near the storage electrode 3 and attached parallel to it 4, which - as shown - a grid or mesh on top of the fluorescent screen can be remote side of the storage electrode and furthermore an acceleration grid 5, the extends transversely in the space between storage electrode 3 and luminescent screen 2.

The storage tube also contains write and trickle electron sources, which are of a known type. The electron sources and the voltages at the storage electrode grid 31 and the electrode 4 are designed so that the storage electrode in operation with electrons from the write source in such a way is bombarded that a charge image of a signal to be stored on the insulating layer 32 of the storage electrode 3 is formed. The storage electrode is a trickle electron beam from the trickle source exposed, with trickle electrons depending on the interstices of the storage electrode from the charge image on it pass through. The arrangements can be as follows

509 569/268

that the charge image formed on the storage electrode is either positive or negative.

The trickle electrons that pass through the storage electrode 3 are a strong acceleration field exposed, which acts completely evenly over the surface of the storage electrode and through the acceleration grid 5 is built, which in operation at a high positive potential, for example 3 kV with respect to grid 31. The trickle electrons pass through grid 5 and hit the luminescent screen 2, the metallic backing of which is also on a high positive Potential is higher than that of the grid 5 and when the potential of grid S 3 kV can be between 10 and 20 kV. At least the part of the tube between the storage electrode and screen runs in an axial magnetic field, i. H. in a field whose lines of force are aligned perpendicular to the storage electrode and luminescent screen and that of a coil 6, surrounding the tube is generated. This magnetic field, although not required, is preferred is to be provided, serves to collimate the trickle electrons, which through the storage electrode pass through, and eliminates focus disturbances due to the distance between the luminescent screen and storage electrode.

In the arrangements described above, the distance between the luminescent screen 2 is and the grid 3 times the distance between the storage electrode 3 and the accelerating grid 5. The last-mentioned distance can be similar Its size is the same as the distance between the luminescent screen and storage electrode in comparable known ones Storage tubes.

The use of the device described is not limited to storage tubes in which Write and trickle electron beams are generated by electron guns, but rather can also be applied to tubes in which at least one of the electron beam sources has a Photocathode is.

The term trickle electron beam is an electron beam, analogous to the television tube camera technology meant by an electron beam source that continuously scans a charge image.

Claims (4)

Patent claims: 1. Signal storage tube with a write beam, a trickle electron beam, a reticulated Storage electrode and one metallic, at positive potential relative to the storage electrode Luminous screen having a lying deposit, characterized in that between the storage electrode (3) and an acceleration grid (5) is provided for the fluorescent screen (2). 2. Signal storage tube according spoke 1, characterized in that the distance between the acceleration grid (5) and the fluorescent screen (2) the multiple of the distance between this grid and the storage electrode (3). 3. Signal storage tube according to spoke 1 or 2, characterized in that the acceleration grid (5) is at a positive potential, which is lower than that on the fluorescent screen (2) is applied. 4. Signal storage tube according to spoke 1, 2 or 3, characterized in that in the Space between the storage electrode (3) and the luminescent screen (1) in a manner known per se there is an axial magnetic field. Considered publications:
U.S. Patent No. 2,824,260;
British Patent No. 706199;
Telefunken-Zeitung, Volume 30 (December 1957), H. 118, P. 257. 1 sheet of drawings 509 569 / 26S 5.65 © Bundesdruckerei Berlin