DE1030389B - Arrangement to increase the resolution of a super orthicon tube - Google Patents

Description

In today's super-orthicon tubes, e.g. B. that manufactured by Radio Corporation of America Tube 5820, the resolution of the image obtained is limited to about 500 to 600 lines. The cause for this were geometry errors of the pre-imaging system or the deflection coils or a Presumed reaching through the deflection fields in the pre-imaging space. Hence one has to achieve a Image resolution of more than 625 lines a special super-orthicon tube of greater length and larger Diameter built, with the smaller deflection angles and smaller opening angles of the electron optics is being worked on. The deflection coils have also been withdrawn so far in the direction of the cathode that that no significant influence on the pre-imaging system is possible. One achieves through these measures a resolution of about 900 lines. The manufacture of the tube with enlarged However, raster is relatively difficult because of the potential for technological errors in production of the grid and the net film with an increased diameter after a more than square with the Increasing function increase in diameter.

The invention is based on the knowledge that in tubes of the previous size essentially therefore the theoretical resolving power is not achieved because the deflection fields of the coils in the Previous arrangements of the deflection coils Disturbances in the imaging conditions in the pre-imaging system produce. These disturbances are also caused by shielding elements on the end faces of the deflection coils not suppressed sufficiently.

There are two adjoining focusing spaces in a super orthicon tube. In The photoelectrons are accelerated to a speed of a few 100 V in the pre-imaging space and made to hit the grid; the other room is made up of the long distraction neck of the Tube formed in which electrons of a velocity of about 200 V are under the influence standing in a strong bundling and distracting field. This arrangement results in reaching through of the magnetic deflection field in the space of the previous image. The field of the deflection coils causes in this space a movement of the electron beam hitting the grid and thus impaired the resolution of the electron image.

The object of the invention is to take measures by which the disruptive Effect of the deflection coils on the pre-imaging space and an unaffected image of the photocathode image is made possible on the grid. According to the invention, in front of the end face of the tube and in the arrangement surrounding the photocathode

to increase the resolving power of a super-orthicon tube

Applicant:

TV G. mb H. _r

Darmstadt, Am Alten Bahnhof 6

Dr. Werner Tretner and Dr. Kurt Frank, Darmstadt,
have been named as inventors

ao area an additional deflection coil system arranged, through which the emerging from the photocathode, initially still slow electrons a such a pre-deflection experience that it always occurs despite the deflection field extending through the grid area hit the same point on the grid surface. A practical embodiment of the invention is shown at Hand of Fig. 1 described.

In FIG. 1, 1 is a tubular piston in the shape customary for super-orthicon tubes, and 2 is made of a grid and a glass film existing grid electrode, 3 a deflection coil and 4 a die Focussing coil enclosing the entire tube. The electron image generated on the photocathode 5 becomes shown on the grid electrode 2, but there is no point in the arrangements known so far the photocathode is clearly assigned to a corresponding point on the grid electrode, but it For each photocathode point there is a small rectangular area on the grid electrode on which the position of the associated imaging point depends on the respective strength of the deflection field. These The blurring caused by this is true in television systems with a low line standard, e.g. B. 410, 525 and also at 625, hardly noticeable, becomes annoying when it comes to the Frequency bandwidth to exceed 5 MHz.

An improved tube arrangement in which measures are taken to reduce the resolution of a normal Driving super-orthicon tubes to a value of about 900 lines and more becomes perspective shown in FIG. In this figure, a tube is shown with an additional Has deflection system 6 which completely encloses the photocathode 5. (For better presentation

809 527/168

position, only one pair of coils is shown.) This deflection system can with the same deflection voltages how to feed the main deflection system if the number of turns is chosen appropriately is. A practical value for the front deflection system is 0.5 ampere turns; h., it about five to seven turns are sufficient. This deflection system affects the relatively slow ones Photoelectrons at the beginning of their orbit in such a way that those at the end of the orbit for the main magnetic field resulting shift is compensated. Tests have shown that a grid of far more than 1000 lines per line length could still be resolved. Another improvement is due to the per se known arrangement of a shield made of highly permeable material to the to reach the raster electrode facing surfaces of the deflection system, through which the penetration of the Deflection magnetic field can be reduced to a certain extent in the pre-imaging space.

Claims (4)

Patent claims: 1. Arrangement for increasing the resolving power of a super-orthicon tube, thereby characterized in that means are provided for the output from the photocathode of the tube Electrons such a time-varying predeflection on their way to the raster electrode grant that thereby the action of the main deflection field on the electrons of the Prior education system is fully or partially compensated. 2. Arrangement according to claim 1, characterized in that that in the vicinity of the photocathode of the pre-imaging system a pair of deflection coils is attached, which are so polarized and dimensioned is that when the coils are excited with sawtooth currents, the electrons deflect in the opposite direction to that distraction caused by the main deflection field. 3. Arrangement according to claim 2, characterized in that the auxiliary deflection field generates a field strength that in the plane of the photocathode a field strength of about 0.5 ampere turns prevails. 4. Arrangement according to one of the preceding claims, characterized in that at one Super-orthicon tube ferromagnetic at the end of the deflection coils facing the pre-imaging system Shielding parts are provided which shield the pre-imaging space from the deflection field. 1 sheet of drawings © 809 527/165 5.