DE677824C - Arrangement for regulating the ignition point of gas or vapor-filled discharge paths - Google Patents

Description

Arrangement for regulating the ignition point of gas or vapor-filled discharge paths The most diverse controls for gas- or vapor-filled discharge paths have already been proposed. However, all of these controls have the disadvantage of a relatively great inaccuracy due to an insufficiently sharp point of intersection between the control voltage and the ignition characteristic of the gas or vapor discharge path or mechanical inertia. Control circuits of this kind are for example those in which the Steuercs - ittern "one in their phase position to the ON Oden - suggested adhering j) oltage sliding sinusförmi-e ac or a dc voltage is supplied via a mechanical contact system In recognition of these control circuits deficiencies you. Now propose to use iron circuits for the control of gas discharge paths, voltage peaks being generated in a winding linked to these iron circuits by sudden magnetic reversal of the iron circuit.

According to the invention, these disadvantages are avoided in that an inductance in the circuit of the control element (grid) of the gas discharge path, in particular a choke coil is inserted in which, when the anode current is interrupted one. High vacuum tube and the resulting interruption of the inductance When the direct current flows through, an overvoltage is generated, which is called a voltage surge is transferred to the control grid of the discharge path. The time of ignition the gas discharge path is changed by controlling the high vacuum tube. In the arrangement according to the invention, for example, an ironless inductor can be applied, since in this case the entire current energy is converted into voltage energy must be implemented when switching off the inductance. Serves with particular advantage to break the direct current circuit of the inductance a high vacuum tube, the has the steepest possible characteristic and its control grid circles a in the phase position and / or the amplitude variable alternating voltage is applied will. Is it a question of an inherently small controlled variable on the control grid to allow a gas discharge path to act, it is advisable to use a cascade connection of high vacuum tubes to be provided. The inductance to be switched can be either a choke coil or a transformer.

The invention is shown, for example, in the figures. In FIG. I, i denotes a controlled gas discharge path, the anode 2 of which is connected to the AC voltage source 4 via a load 3 , to which the cathode 5 of the discharge path is also connected. A choke coil 8 is connected to the grid 6 via a resistor 7 , the other end point of which is connected to the cathode via a voltage source. The height of the voltage source is dimensioned in such a way that the discharge in the gas discharge path cannot start without additional control voltages occurring in the inductance. Parallel this choke coil is a Verstärkerröhreg "whose anode voltage is taken from a battery io. The grid circuit of the intensifier tube, by a control" voltage of variable height, phase or frequency are acted upon. If, for. Example, assume that by the control element ii supplied voltage a AC voltage is the same frequency as the anode voltage of the gas discharge path, but with variable amplitude or variable phase position, the voltages occurring at the choke coil8 are applied either directly or, if necessary, with the interposition of a transformer to the grid and cathode of the gas discharge path is positive, a current flows from the anode voltage of the amplifier tube through the choke coil 8. This current is interrupted very quickly in the times when the control voltage of the amplifier tube goes from positive to negative values through zero and thus results in high Ü overvoltage peaks. The phase position of this overvoltage peakii is the same as that of the current zero crossing of the AC control voltage in the amplifier tube and can therefore be shifted as desired with respect to the anode voltage of the gas discharge path and thereby control the working discharge in the same. On the other hand, the height of the voltage peaks depends on the steepness with which the control voltage at the amplifier tube passes from positive to negative values through zero, i.e. H. with a sinusoidal control voltage of constant frequency depending on the amplitude of the control voltage. Such a switching of the amplifier tube thus enables the gas discharge paths to be controlled both according to phase shift and according to amplitude.

The device according to the invention can also be made in such a way that the amplifier tubes are connected in cascade. An exemplary embodiment of this type is shown in FIG. 2, in which the parts corresponding to FIG. 1 are provided with the same reference numerals. A coupling transformer is connected to the grid 6 of the gas discharge path i via the resistor 7 with one winding, the other winding to the anode 12 of the amplifier tube 13 and through the line 16 to the cathode of the two amplifier tubes via the line 16 via the anode voltage for the amplifier supplying battery 14 13 or 17 is connected. A coupling transformer is also connected to the grid of the booster tube 13, the second winding of which is connected both to the anode 15 of the booster tube 17 and to the line 16. The control voltage circuit, which can be regulated in the same way as in the exemplary embodiment according to FIG. I, is connected to the grid of the amplifier tube 17 and the line 16.

Claims (2)

PATENT CLAIMS: i. Arrangement for controlling the ignition timing of gas or vapor-filled discharge paths by means of one to be fed to the control grids phase-changing voltage spiky waveform emerging from the anode circuit of a High vacuum tube is obtained, characterized in that the interruption the anode current of the high vacuum tube in an inductor, in particular one Choke coil, generated voltage surge on the control grid of the discharge vessel to be regulated is directed. 2. Arrangement according to claim i, characterized in that in the circuit A cascade connection of amplifier tubes is provided for the inductance.