DE687840C - Electron tubes for amplifying or rectifying electrical vibrations - Google Patents

Description

Electron tube for amplifying or rectifying electrical vibrations The present invention relates to an arrangement for controlling high frequency oscillation power in electron tubes or the direct currents caused by the electron oscillations through a control grid.

It is already known to-- for this purpose either a control grid between the braking electrode of the ultra-high frequency tube and the highly positive opposite the cathode prestressed grid or to be arranged between the latter and the cathode.

With these arrangements, as a result of the grid current level that is still present, under which reception oscillations with a smaller amplitude had to disappear, none Maximum reception sensitivity can be achieved.

It is also known in three-electrode braking field systems which act like a Thomson oscillation circle, or in connection with one to design the braking electrode in a grid shape for the purpose of increasing energy. One However, a special control electrode is not provided in braking field systems of this type. Furthermore, four-electrode tubes are known whose inner grid is positive and whose outer grid biased slightly positive or negative with respect to the cathode will. However, these known arrangements are not tubes in braking field circuit. The outer electrode serves as the anode and the feed the input voltage and the decrease in output voltage takes place via the external Grid and the cathode or via the inner grid and the anode.

According to the present invention, the control electrode is used as the outer electrode a triode tube, whose electrode generating the braking field is a grid is trained.

You have this thought from the outside. control electrode for a braking field circuit vibrating ultrashortwave tube already earlier. taken up, but in connection with a diode tube, in which a negative charge of the glass wall or the mirror coating deposited on it. to exert the effect of the braking field Has. The fundamental disadvantage with such arrangements is the, that this negative potential created by charging is not defined, but rather depends on uncontrollable processes in the tube and therefore never in the Generation of a certain frequency or for sweeping over different frequency areas each necessary very specific height can be set; also sets the Mirroring the penetration of the electrical field of the control electrode is essential down.

According to the present invention, these disadvantages are overcome by that a triode tube, the braking electrode of which is designed as a grid electrode, is provided with an external control electrode. In this way the brake electrode wears always that for the maintenance of vibrations of the respectively desired constant Frequency required, firmly defined potential. Continue with this arrangement the advantage of a larger penetration than is possible with the known arrangement was achieved.

Fig. I shows the subject of the invention in a cylindrical arrangement of the electrodes in longitudinal section. The following mean: i the hot cathode, its potential Let be zero, 2 a grid electrode on which a high positive DC voltage is applied, 3 a grid electrode, on which no or a relatively small positive or negative voltage, q. a dielectric, e.g. B. the glass wall of the tube, and 5 the control electrode, which is preferably used as a thin metallic coating of the Glass wall is executed.

The alternating voltage is applied between the electrode 5 and the cathode E'5 laid, through which the ultra-high frequency oscillating power of the tube or the DC current J flowing between the cathode and the electrode 2 or 3 is controlled will.

The necessary to generate the ultra-high frequency vibrations The braking field can be generated by electrode 3 or 5 or by both electrodes together will. The useful current controlled by the voltage E, 5 is either between the Electrode 2 and cathode J2 or between electrode 3 and cathode J3 removed.

Since the constant emission current Je is approximately equal to J2 + 13, an increasing current J3 corresponds to a decreasing current @ J2, and vice versa. This phenomenon is evaluated in the circuit arrangement according to Fig. 2, in that both the alternating current J @ and the alternating current J3 are fed to the useful circuit 7 via the transformer 6. The DC voltage is fed to the electrodes through the chokes 8, while the transformer 6 through the capacitor 9 against the high DC voltage. is locked.

Claims (2)

PATENT CLAIMS: i. Electron tube for amplification and rectification ultra-high frequency electrical oscillations that carry the input oscillations through an outer electrode that is capacitively coupled to the other electrodes can be supplied and in that through the mediation of a grid which is at a high positive potential and another ultra-high frequency electrode that slows down the electron flow Vibrations are generated and controlled by the input energy, characterized in that that the braking electrode, which is at a fixed potential, is designed as a grid electrode is. 2. Circuit of an electron tube according to claim i, characterized in that; that the current-carrying electrodes of the electron tube used for amplification are connected by a circuit so that all of the electrodes outgoing low-frequency alternating current components are made usable, with in the circuit - a switching element used for further transmission of the low frequency is present and a capacitor, which the high electrode DC voltage supplied via chokes away from the output circuit.