DE1119421B - Operating circuit for a storage tube - Google Patents

Description

research time not made arbitrarily small ^

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The erasing time can be shortened by applying a current density to the fine sampling point that a switching device is provided which is permissible for the safety of the screen, it allows the fine scanning point when reading through 25 results in the same electron flow when erasing to replace a wide sample point when erasing. a wide sampling point, which is great for quick

With the known electron beam storage erasure is too weak.

The object of the invention is an operating circuit

changed the screen in that on the anode for a storage tube of the type specified, with the potential of the focusing electrode is acted on. 30 is achieved that when erasing a wide scanning case a certain optimal value of this point with a large current density and when reading tials the electron beam converges in one point, a fine scanning point with a relatively geder lies on the screen surface. This results in a tight current density, get a sharp scanning point, while with poten- According to the invention this is achieved by

tials that are above or below this optimal value 35 that the first and third electrodes of the focus lie, the focal point on this side or on the other side of the system are at the same potential and The second electrode of the focusing system is located on the screen so that it appears on the screen The end of the scanning point is fuzzy and a larger one in the "Read" mode and a higher one in the Has cross section. "Erase" operating mode to a low potential

With this known measure, however, the 40 sets remains.

Intensity of the electro- The measures according to the invention result in the

The effect is that in the "erase" operating mode, all electrons emanating from the cathode reach the screen and contribute to the formation of the wide scanning point. On the other hand, in the "reading" mode, most of the electrons emanating from the cathode are intercepted, so that only a fraction of the radiation intensity used during erasure is used to form the fine scanning point.
an embodiment of the invention is in the

Tube brings with it. Conversely, if shown while reading for drawing.

109 749/457

current for the fine scanning point (focused) and for the wide scanning point (unsharp) always the same, which results in the following disadvantage when using the storage tubes:

If you have a strong electron current with a wide scanning point to achieve fast erasure want to obtain, the same electron current when concentrated in a fine scanning

I 119

The storage tube, which is only partially shown in the drawing, contains an electron beam system with a cathode 3 and a Wehnelt cylinder 2 inside an evacuated vessel 1 cylindrical focusing electrodes 6, 8, 1, which are coaxially arranged one behind the other, a second accelerating anode 5 of cylindrical shape and two pairs of deflection plates 14,15 and 16,17. The illustrated part of the storage tube is delimited by the screen 11.

The parts described form the reading and erasing electron beam system of Storage tube. The electron beam system for enrollment is usually on the other side of the screen 11 arranged; it is not shown in the picture. The one with the terminals of the potentiometer 10 connected battery 18 supplies the necessary voltages for the various electrodes.

A changeover switch 9 with two contacts 91 and 92 enables two different voltages to be supplied to the focusing electrode 8. The electrodes 6 and 7 are also connected to the contact 91. A numerical example allows a better understanding of the invention.

The Wehnelt cylinder 2 has a negative voltage of about 10 volts compared to the cathode 3. The acceleration anodes 4 and 5 are positive Voltages of 300 or 1500 volts. The focus electrodes 6 and 7 become a positive voltage of 800 volts supplied through contact 91. When the switch 9, the electrode 8 with the contact 91 connects, the voltage of the electrode 8 is also 800 volts. The one emitted by the cathode 3 The electron beam then corresponds to the course shown by the solid lines 13, and the point on the screen 11 is very fine ("reading" mode). If the switch 9 the electrade 8 connects to the contact 92, the voltage of the electrode 8 is about 1.00 volts. The electrodes 6, 7, 8 then act like a compound electrostatic lens, and the course of the The electron beam corresponds to the dashed lines 12. The point on the screen 11 is then larger than beforehand (»Delete« operating mode).

A comparison of the lines 12 and 13 shows that in the "Read" mode only those of the electrons emanating from the middle part of the cathode 3 reach the screen 11. The ones from the remaining sections Electrons coming to the cathode, which are between lines 12 and 13, are included this operating mode continues in a straight line at the level of the electrode 8, so that it is intercepted by the electrode 7 will. On the other hand, all coming from the cathode 3 are in the "delete" operating mode Electrons to the screen 11, since they are deflected inwards at the level of the electrode 8, so that they step through the opening in the electrode 7.

In this way, the focusing system composed of electrodes 6, 7, 8 controls the expansion of the scanning point and at the same time the intensity of the electron beam,

As already described above, the electron beam is used with a fine scanning point and smaller Beam intensity for reading the information written on the screen 11 while the beam with the wide scanning point and the greater beam intensity, the deletion of the after Reading process on the screen 11 remaining information remainder allows.

The invention is of course not limited to the example of application described or to those given Limited numerical values, which were only chosen as an example.

Claims (2)

PATENT CLAIMS: 1. Operating circuit for a storage tube with an electron beam system which serves to read and erase the signals recorded on the screen, the electron beam system having a cathode, a Wehnelt cylinder, a first accelerating anode, a focusing system composed of three cylindrical electrodes and a second accelerating anode, characterized in that the first and third electrodes (6, 7) of the focusing system are at the same potential and that the second electrode (8) of the focusing system is high in the "reading" mode and on in the "erasing" mode low potential is placed. 2. Operating circuit according to claim 1, characterized in that the high potential corresponds to the potential of the first and third electrodes (6, 7) of the focusing system and that the low potential is below the potential of the first acceleration anode (4). Publications considered: Theile and Weyres: Fundamentals of Cathode Ray Tubes, Berlin, 1944, section 40, pp. 38 and 39; German Patent No. 928 480; U.S. Patent No. 2,454,652. 1 sheet of drawings © 109 749/457 12.61