DE509164C - Push-pull transmitter for short electrical waves - Google Patents

Description

Push-pull transmitter for short electrical waves The generation of short Originally damped electric waves of centimeter length happens in the well-known Braking field circuit of a three-electrode tube, in which the grid has the high positive, the anode, on the other hand, receives the voltage zero or a negative potential. Because of The abnormal field distribution between the tube electrodes causes a pendulum motion the electrons held around the lattice by. the electrons emitted by the filament partly fly through the grid, then delayed in the braking field of the anode and again to be driven back to the grid, which they pass a second time, whereupon the process in which for the electrons flying in the opposite direction is now Repeatedly acting as a braking field grid cathode space. The length of this way The resulting electrical waves are given by the back and forth movement of an electron, which is only dependent on the distance between the electrodes and the airspeed, d. H. the electrode voltages.

In Fig. I a is the movement of a pendulum swinging around the grid Electrons shown schematically. K is the cathode; G the grid and A the anode a three-electrode tube. For the sake of simplicity, only one electrode space is considered, in technical tubes, the image is to be thought of as a mirror image. Between A single electron oscillates back and forth between the anode and the cathode, and that is in the Fig: i assumed a double pendulum movement around the grid. For the total mass of the electrons emanating from the cathode is the consideration by taking into account to supplement the negative space charge, -their periodic changes for the synchronous and conphase motion of the electrons is decisive.

If one exchanges in Fig. I a cathode and outer electrode, like it is indicated in Fig. i b, the conditions for the occurrence of electron oscillations remain unchanged, d. H. an electron emitted from the cathode K 'becomes equal Swing around the grille as in Fig. I a, only in the opposite direction.

The present invention now relates to an arrangement in which both Brake electrodes are designed as cathodes, as shown in Fig: iä and ih resulting Scheme 2 shows. In such a tube meet the grid of two electron masses coming in opposite directions, with those from one Cathode: electrons emanating from and entering the braking field of the other cathode a periodic change in the space charge and thus a control of this Electrons emanating from the cathode. The consequence is that both cathodes The electrons emitted control each other in push-pull and conphas around glass The bars swing around.

It is useful to .the frequency of both electron groups in exact to bring consistency, the one cathode is in front of the other granted, whereby the vibrations are given in both rooms Have the electrode spacing synchronized.

Fig. 3 shows two practical embodiments of the push-pull oscillator, for plate-shaped and cylindrical electrodes. G is the lattice-shaped, positively biased electrode, K and K 'are those located on either side thereof Hot cathodes. These can, as indicated in the case of the tube with plate-shaped electrodes consists of a heating wire, which is expediently through an equipotential electrode shielded from the outside, or made of a sheet of metal coated with oxide, (read, as indicated in the case of the cylindrical outer cathode, by means of a heating wire is indirectly heated.

Analogous to the braking field circuit of a normal three-electrode tube the electron oscillations through oscillation systems connected to the electrodes to be influenced. In order to counter-control the electrons in terms of circuitry promote, can, according to the scheme in Fig. q., both cathodes together with be connected to the grid with one oscillation system each.

It has been found that the circuit in the previous braking field Wavelength not (by increasing the voltages and reducing the distance between the electrodes can be shortened arbitrarily, but that a lower 'limit of the oscillation ranges is available. The present invention significantly decreases this limit shifted towards higher frequencies.

Claims (6)

PATENT REQUIREMENT: i. Push-pull transmitter for short electrical waves, characterized in that the: oscillating tube on both sides of a grid-shaped electrode each has an electrode designed as a hot cathode; and that the electrode potentials are chosen so that each one glow electrode braking electrode for the electrons of the other glow electrode is: 2. Push-pull transmitter according to claim i, characterized in that that the glow electrodes on the side facing away from the grid by equipotential electrodes are shielded. 3. push-pull transmitter according to claim i and 2, characterized in that that with cylindrical electrodes the one glow electrode made of a filament, and the other consists of a cylindrical oxide cathode that is indirectly heated from the outside, consists .. q .. Push-pull transmitter according to Claims r to 3, characterized in that one glow electrode has an auxiliary potential compared to the other glow electrode. 5. push-pull transmitter according to claim i to 4, characterized in that both glow electrodes are connected to the grid electrode via an oscillation system each: 6. Push-pull transmitter according to claim i to 5, characterized in that both glow electrodes have one Vibration system are connected.