DE534368C - Circuit arrangement for discharge tubes - Google Patents

Description

The subject of the present invention is a circuit for indirectly heated electron tubes, which, in addition to an electron-emitting hot cathode, have an electron-emitting heating electrode, wherein the hot cathode is heated under the influence of the electron bombardment of the heating electrode is and emits electrons. According to the invention, such a switch is

> o tion suggested that when heating the Heating electrode with alternating voltage, the distance between heating electrode and hot cathode is used for rectification - and the rectified voltage thus obtained

»5 as the anode operating voltage for the electron tube Is used. Such a discharge vessel is particularly suitable for Reception of electromagnetic vibrations when in use on apparatus in which the Operating voltages are taken from an alternating current network.

An arrangement according to the invention is shown in Fig. 1, from which the Operation of the circuit can be seen and on the basis of this exemplary embodiment should be explained in more detail. The electron tube contains the heating electrode 2, further the electron-emitting hot cathode 5, a control grid 7 and an electrode 9 acting as an anode. An alternating voltage is fed to the electrodes via a transformer 13 in such a way that that through a branch on the secondary winding a voltage for the heating electrode is removed and that an alternating voltage between the heating electrode 2 and the hot cathode 5 continues. The alternating current is via a combination circuit of capacitors 15 and Resistors 14, as indicated in the figure, fed to these electrodes. As a result Due to the valve effects of the flow of electrons, the flow can only go in one direction go through the tube so that the electrons go from 2 to 5 and hence one occupancy is charged negatively, while the other is positive.

If the electron current is large enough, it is charged up to the mains voltage. The discharge on route 5.9 naturally increases the charge of the Remove capacitors. So that lying between the cathode 5 and the anode 9 Voltage remains approximately constant during operation, it is necessary to that the capacitors 15 have a sufficiently large capacity, so that no noticeable decrease in voltage until the next charging period of the capacitors occurs. As can be seen from the circuit,

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the total supply of electrons from the hot cathode 2 to the electrode 5 must not be smaller than the discharge of the electrons caused by the discharge on the path 5, 9, otherwise the electrode 5 would be positively charged in a short time. The switched on Resistors 14 are used to compensate for the fluctuations in the current. If the individual switching elements are correctly dimensioned, the capacitor and resistance combination 15, 14 to a certain extent as a direct current reservoir, in which a positive voltage between the anode 9 and the electrode 5 is continuously maintained remain. As for the amplifier and rectifier effects of the tube for the high frequency waves to be picked up, so plays, as can be seen from the circuit of Fig. ι, according to the invention the electrode 5 the role of the cathode, and the Elelctrode 9 is the anode, and between These two electrodes are the control electrode 7, on the one hand the input circuit is connected, with the other side of the input circuit at the electrode 5.

Fig. 2 shows a circuit in which all of the available AC voltage is used for heating. ' In this case it is advisable to use the hot cathode train as a spiral and so that both half-waves of the alternating voltage for Charging of the capacitors 15 representing the anode voltage source are used, to move the connection point of the capacitors to the middle of the heating electrode 2. It is also shown in Fig. 2, a circuit which, avoiding a special Antenna works. For this purpose, the electrode 5 is grounded via the coil 23 and a tuning capacitor 24. From point 26 the connection to the grid electrode 7 takes place, so that the high-frequency currents, which flow to earth via the apparatus, cause the control voltage to be applied to the coil 23. To increase the effect a feedback of the anode circuit to the grid circuit by means of the coil is recommended 27. 22 is the house's light transformer. From the grounded center of the transformer the so-called neutral conductor goes out. The voltage for a light connection is between taken from one of the outer poles and the neutral conductor. In this case the part works of the neutral conductor between the earthing point and the connection of the tube as an antenna. As a result of the high capacitance 15, the electrode 5 is practically the full high-frequency voltage of the neutral conductor, which is balanced by the coil 23 to earth 25.

Claims (3)

Patent claims: i. Circuit for discharge tubes with one of a heating electrode by elecionic bombardment heated hot cathode, characterized in that between the hot cathode and the one AC power source heated heating electrode arranged one or more capacitors that are charged by the electron current flowing between the heating electrode and the hot cathode, and that the direct voltage thus obtained at the capacitors is used as the anode voltage for operating the tubes is used. 2. Circuit according to claim 1, characterized in that when used several capacitors, the assignments of the same are separated from each other by ohmic resistances. 3. Circuit according to claim 1 and 2, characterized in that the connection point of the capacitors is in the middle of the heating electrode. 1 sheet of drawings