DE754223C - Circuit arrangement for generating sawtooth-shaped breakover voltages with a grid-controlled high vacuum charger - Google Patents

Description

The invention relates to an arrangement for generating free tilting vibrations. Arrangements have become known which work with gas-filled discharge tubes. A capacitor is slowly charged or discharged via a resistor and quickly discharged or charged via a glow discharge tube. The use of the emission current in the discharge tube depends on its ignition and discharge voltage. However, if the capacitor is to be discharged or charged via a high vacuum tube, then 'it is no longer possible to adjust the sweep frequency by setting the ignition or extinguishing voltage'. An exact frequency range therefore makes difficulties; In order to overcome them, circuits have become known in which the anode of the charging or charging tubes is fed back to the grid, which means that after the onset of the discharge, the potential at the grid increases in a positive direction. This causes a rapid increase in the emission current, which in turn results in an increase in the grid potential until the capacitor is nearly discharged. The capacitor is then slowly charged or discharged until the voltage has risen to such an extent that the current in the tube has exceeded a certain value. This circuit

can, as already indicated above, be designed in such a way that the tube effects the rapid discharge of the capacitor or the rapid charge of the capacitor.
The subject of the invention is an improvement in such a rotary arrangement for generating sawtooth-shaped voltages with a grid-controlled high vacuum charger which rapidly charges a capacitor discharged with an almost constant current through its anode current, the anode circuit of the tube being fed back to its grid circuit in such a way that the anode current increases results in a higher positive grid voltage. The invention consists in that, in order to achieve a steeper course of the charging curve at the consumer, the breakover voltage is connected to the grid of the charging tube and to the occupancy of the capacitor which is electrically most distant from the cathode.

Such an arrangement is shown in the figure. Therein ι means the high vacuum charging tube, which has an anode 2, a cathode 3 and a grid 13. 4 is the Breakover capacitor, 6 and 7 the output terminals, the circuit, 9 and 10 the terminals, to which the operating parties are connected is placed. Parallel to the breakover capacitor 4 is in series with a resistor 12 and of the coupling coil 5, the discharger eyes 8, which optionally also by an oJimschen Resistance can be replaced. The charging tube S is connected in a known manner so that their emission current is constantly constant, d. H. independent of the anode voltage is. The capacitor is charged by the DC operating voltage by means of the tube 1. As soon as it is discharged Via tube 8, the voltage on capacitor 4 has reached a value at which the anode site current through Dreipoiliröbre 1 closes begins to flow, a part of the current of the tube 8 flows through the tube 1, and the current through the coil 5 decreases. A voltage is generated in the coil 11, which Makes grid 13 more positive and thereby. The anode current in 1 can grow. The growth of the anode current continues until the anode current of tube 1 exceeds that in tube 8 exceeds. The current through the coil 5 then changes sign and charges the Capacitor 4 on until the reverse current through 5 decreases and the potential at the grid 13 again becomes so negative that the anode current stops flowing. Because the potential at the grid 13 becomes positive faster than at the cathode 3 or at the herewith via the Coil 5 connected assignment of the capacitor 4, has the breakover voltage between the grid 13 and the cathode-remote occupancy of the capacitor 4 a steeper charging curve than between the mentioned assignment and another point of the circuit.

An increase in the steepness of the charging curve is, however, for the deflection of the cathode ray in brown seban tubes, quite desirable in many cases. By the invention Circuit manages this steepness in arrangements made with high vacuum tubes work to increase significantly.

A further increase in the slope can be achieved by the coupling of the anode circle of the tube 1 on their Lattice circle takes place via an amplifier.

Claims (3)

PATENT CLAIMS: 1. Sehaltungsano'rdnung to generate sawtooth-shaped tilting voltages with grid-controlled high vacuum charging tube, which has an approximately constant Current charges the discharged capacitor through its anode current, with the anode circuit of the tube on its lattice circuit is fed back in such a way that an increase in the anode current results in a higher positive grid voltage Has consequence, characterized in that one of the output terminals of the tilting device connected to the grid of said tube and the other with the assignment of the capacitor, which is electrically most distant from the cathode. 2. flip-flop circuit according to claim 1, characterized in that the feedback coil of the grid circuit is connected in series with a resistor, wherein the grid bias for the tube due to the voltage drop of the Ent flowing through the resistor! adungs stream it of the capacitor is generated independently of the current flowing through the electron tube. 3. Toggle switch according to claim 1 or 2, characterized in that the Feedback takes place via an amplifier. To differentiate the subject matter of the invention from the state of the art, the granting procedure the following publications have been considered: German Patent No. 564234; British Patent Specification No. 400 976, 415589, 419298;
U.S. Patent No. 1,913,449. 1 sheet of drawings © 509535 7.55