DE1200959B - Direct imaging cathode ray storage tubes - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

DESIGN SCREEN

Int. α .:

HOIj

German class: 21g-13/27

Number: 1200 959

File number: C 29824 VIII c / 21 g

Filing date: May 2, 1963

Opening day: September 16, 1965

The invention relates to a direct imaging cathode ray storage tube with a write beam source, with a collecting grid arranged in front of the storage grid and with a lateral, inclined to the tube axis arranged, emit electrons impinging perpendicularly on the storage grid Trickle jet source.

It is already a Braun tube with image memory for the visible reproduction of certain Proposed characters with an electron gun, which also has a trickle beam source is arranged next to the tube axis. This tube has an electron optical system provided with different electrodes in order to make the trickle electrons as uniform as possible over the to distribute the entire area of the storage electrode. However, this arrangement has the disadvantage that at a low ratio of length to diameter, the distribution of the trickle electrons over the storage electrode deviates quite significantly from the desired uniformity. In particular arise on often unwanted spots on the screen.

The aim of the invention is a direct imaging cathode ray storage tube of the type mentioned at the outset, in which this disadvantage is avoided and in which also in the case of very low length-diameter ratios a good uniform distribution of the trickle electrons achieved over the storage electrode will.

This is achieved if, according to the invention, a grid-shaped electrode is arranged in front of the collecting grid whose potential is approximately the same as that of the cathode of the trickle jet source. So the grid is delaying the electrons coming from the trickle beam source almost to the speed 0. After the Passing through the grid, the trickle electrons are then made by the relatively strong and uniform Field between the delay grid and the so-called collection grid, which, as usual, is in front of the Storage electrode is arranged and is at a relatively high potential, accelerated again. This field straightens the electron trajectories that are essentially perpendicular to the collecting grid Arrive on the surface, penetrate it, reach the storage electrode and possibly also this penetrate through to finally hit the screen. The delay grating described forms hence a virtual cathode with a large surface area, the slow trickle electrons uniformly and perpendicularly emitted to the storage grid.

According to the drawing, the write beam source 2 is in the axis of an evacuated glass housing 1 Direct imaging cathode ray storage tube

Applicant:

CSF-Compagnie Generale de Telegraphie sans FiI, Paris

Representative:

Dr. W. Müller-Bore and Dipl.-Ing. H. Gralfs,

Patent attorneys, Braunschweig, Am Bürgerpark 8

Named as inventor:
Bernard Courtan, Paris

Claimed priority:

France of May 3, 1962 (896 282)

arranged. This consists of a cathode 3, which is e.g. at a potential of -2 kV, a Wehnelt electrode 4, which is at a suitable positive potential, taking into account the desired Beam intensity is, as well as from a number of anodes 6, 7 and 8, the anodes 6 and 8 z. B. lie at zero potential and the intermediate anode 7 at a potential - for example - 1.3 kV - which is sufficient to concentrate the electrons into a fine beam. The ray 5 is subject to the action of the deflecting means, for example magnetic deflecting means. These diversions are shown in the drawing in part by the windings 9 and 10 on the circumference of the tube neck.

Reference number 11 denotes the inner metallization of the tube, which is, for example, at + 10V, while the collimation electrode is denoted by 12 and is, for example, at + 20V. The luminescent screen is labeled 13 and is, for example, at + 10kV.

For the sake of simplicity of the drawing, the connecting lines connecting the various Apply electrodes to the different potentials, not shown.

In front of the screen 13 , starting from the screen, a first, so-called storage grid 14, which is coated with a dielectric material on the side facing away from the screen and z. B. is at a potential of + 6V, a second, so-called

509 687/339

Collective grid 15, which is at a potential of + 250V, for example, and a third grid 16 arranged. According to the invention, this third grid 16 is at a distance of a few millimeters from the grid 15 arranged parallel to this and to the grid 14 and is at a potential of the order of magnitude from +5 to +10 V.

The trickle jet source 17 is arranged laterally to the tube axis and running obliquely to it. This consists of a cathode 18 which, for. B. is at zero potential, an acceleration anode 19, which is at a potential in the order of + 100 to +150 V, and from a Wehnelt electrode 20, which is at a suitable potential, the trickle jet 21 the beam source with a large opening angle leaves in order to be able to sprinkle the entire surface of the grating 16.

In operation, the electrons of the beam 21 reach all points of the grid 16 essentially with the Speed zero and after they have penetrated the grid 16, under the influence of accelerating potential of the grid 15 on parallel paths perpendicular to the grids 14, 15 and 16 accelerated again, essentially one at all points of the beam cross-section assume uniform speed. After passing the grid 15, the electrons are showered uniformly the entire surface of the grid 14, its potential with respect to the cathode 18 so designed is that the electrons are relatively slow; H. so when it hits the grid 14 less Generate secondary electrons, which leave the dielectric coating of this grid, as primary electrons arrive. The insulating surface of the grid 14 is negatively charged and has the beam 21 in this way from the fact that in the state of equilibrium this ray just reaches the grid without penetrating it.

If a beam of relatively fast electrons 5, which is modulated by a signal, is now emitted from the write beam source 2 emitted and deflected by the coils 9 and 10, so are on the surface of the grating 14 positive charges are formed because the speed of these electrons increases upon impact Secondary electrons are generated as primary electrons impinge. According to the signal fluctuations the positive charges form a relief and more or less compensate for those caused by the slow one Beam 21 applied negative charges. The electrons of the latter beam can then penetrate the grid 14 in more or less large numbers, are due to the high voltage accelerated on the luminescent screen 13, hit this and generate the image to be observed as with direct imaging tubes.

Claims (1)

Claim: Direct imaging cathode ray storage tube with a write beam source, with a front the storage grid arranged collecting grid and with a lateral, oblique to the tube axis Arranged trickle beam source emitting electrons perpendicular to the storage grid, characterized in that in front of the collecting grid (15) a grid-shaped Electrode (16) is arranged, the potential of which is approximately equal to that of the cathode of the trickle jet source is equal to. Legacy Patents Considered:
German Patent No. 1133 042. 1 sheet of drawings