DE1236086B - Electron beam tubes with electrodes at different DC potentials - Google Patents

Description

Cathode ray tube with lying on different DC potentials Electrodes The invention relates to a cathode ray tube with on various Electrodes with equal potentials, whose potentials are measured with the help of in the tube built-in resistors of low conductivity generated by voltage divider circuit will.

It is already known to use resistance material in cathode ray tubes to be built in to create different potential zones. In general, resistance material is used used in the form of poorly conductive coatings on the glass wall, e.g. B. in oscilloscope tubes with post-acceleration. There are already ohmic voltage dividers for generation different electrode potentials have been built into cathode ray tubes. In this context, molded parts made of resistance material and electrodes are also included known from resistance material.

When using massive, especially high-resistance resistors In cathode ray tubes it has been shown that permanent zonal changes the resistance values occur during operation of the tube. One introduces this undesirable Changes essentially to the processing temperatures required for cathode ray tubes (e.g. baking) back, the uncontrollable permanent changes in the resistance materials cause.

In connection with the generation and concentration of magnetic fields it is also known to install ferrite parts in cathode ray tubes. These ferrite parts serve to create a desired magnetic field course to influence the electron beam bring about.

It is also known, temperature-dependent resistors, so-called Thermistor, made from mixed ferrite.

The present invention is based on the object of a resistor material low conductivity for a voltage divider circuit for installation in cathode ray tubes to provide its resistance properties by those of a cathode ray tube required treatment processes no uncontrollable permanent changes Experienced.

According to the invention, the resistors should consist of several electrodes supporting molded bodies made of ferrite, or it should be the electrodes and the they connecting resistors consist of a molded body made of ferrite.

Moldings made of ferrite are relatively simple, even in complex ones Forms can be produced. The conductivity of the ferrites can be adjusted with simple Means to be influenced. Another advantage of the used as resistor materials Ferrite consists in the fact that it retains the vacuum of the tube even at elevated temperatures, z. B. as a result of gassing, do not adversely affect, so that chemically sensitive Electrodes are not damaged. It is also advantageous that ferrites as a result of temperature changes not permanent in their resistance value and changed uncontrollably in places will. A resulting uniform change in resistance of the entire ferrite body a change in temperature is not disadvantageous because the resistance body has a voltage divider circuit represents and thus the tapped voltages with relatively the same change in resistance of the individual resistance sections do not change. The relatively good heat conduction of ferrite contributes to the fact that the ferrite body is always on its entire extent has a largely the same temperature.

On the basis of the FIGS. 1 to 3 illustrated application examples the device described is explained in detail below.

The F i g. 1 shows a section of a tube 11, the three disk-shaped electrodes 12, 13 and 14 of which are held on the rod-shaped molded bodies 15 made of ferrite. Only the two outer electrodes 12 and 13 need to be connected to a voltage source 18 via bushings 16 and 17, since the potential of the middle electrode 14 is generated by the voltage drop across the ferrite rods 15 acting as a voltage divider. With the aid of an adjustable resistor 19, the entire voltage difference between the electrodes 12 and 13 can be regulated and thus the potential of the electrode 14 can also be changed. The connections to the electrodes 12 and 13 can of course also be led to the base pins of the tube, so that the feedthroughs 16 and 17 are superfluous.

In FIG. Fig. 2 is an arrangement similar to that of Fig. 2. 1 shown. The ferrites, which act as high-resistance resistors, are designed as molded parts 25 and 26. The electrodes marked 22, 23 and 24 are essentially cylindrical in shape, as is usual with cathode ray tubes. With this arrangement you can possibly Feeds can be provided for each electrode. The ferrite molded parts 25 and 26 are used in this case, there is also a constant voltage drop between the electrodes, ie to generate a field that is as homogeneous as possible, which reduces the risk of flashovers will.

The F i g. Finally, FIG. 3 shows the use of ferrites as high-ohmic resistances in a so-called single lens of a cathode ray tube. Such a single lens usually consists of a negative electrode (lens electrode) flanked by two positive electrodes, wherein the lens electrode can consist of a cylinder in which the positive cylindrical electrodes of somewhat smaller diameter are partially immersed. This arrangement, which consists of three electrodes, has been replaced by a ferrite cylinder 31 which can have annular connection electrodes 32 at various points on its outer wall. In the interior of the cylinder, ring-shaped, conductive strips 33 can also be attached, which then serve to symmetrize the potential distribution. The individual potentials are now applied to the connecting rings 32 , for example with the aid of the two voltage generators 34 and 35 shown as batteries. One advantage of this ferrite single-cell lens over a known single lens is that the diameter of the positive electrodes can be made equal to the diameter of the lens electrode that the lens field is shielded against magnetic stray fields at the same time. The main advantage of this arrangement, however, is to be seen in the fact that the lens field is pulled apart in the axial direction over a greater length, as a result of which the electron-optical lens errors are reduced.

Claims (3)

Claims: 1. Cathode ray tube with different DC potentials lying electrodes, their potentials with the help of resistors built into the tube low conductivity can be generated by voltage divider circuit, characterized in that that the resistors consist of several ferrite shaped bodies carrying the electrodes exist (Figs. 1 and 2). 2. Cathode ray tube with different potentials lying electrodes, their potentials with the help of resistors built into the tube low conductivity can be generated by voltage divider circuit, characterized in that that the electrodes and the resistors connecting them are made from a molded body Ferrite consist (Fig. 3). 3. A cathode ray tube according to claim 2, characterized in that linear material of high conductivity is applied to the inside of the shaped body for balancing the potential zones. Documents considered: German Patent No. 815 062; German Auslegeschrift No. 1071852; German patent application St 402 VIII d / 21 c (published on March 27, 1952); Austrian Patent No. 144 280; Swiss Patent No. 153 604; French patents nos. 1 134 019, 1 210 126, 1212 861.