DE428806C - Circuit arrangement for generating vibrations by means of cathode tubes - Google Patents

Description

In order to transform the high vacuum tubes used in tube transmitters into high frequency Various methods have been used to supply high voltage direct current power. So one has z. B. in the connecting line between the anode of the discharge vessel and one end of the antetin self-induction placed a capacitor, on both sides of which the direct current ίο energy was applied, so that the capacitor served as a blocking element, connected between the two poles of the direct current, but as a Transitional link for the high frequency energy worked. The cathode that is grounded on the other The end of the antenna's self-induction was, although it was earthed, so there was no voltage, but the circuit refused due to the capacitive shunt of the machine Earth to the antenna had the disadvantage that a lot of useful energy was lost.

You also have the high voltage via chokes on the cathode and anode of the tube placed. However, this circuit also has the advantage of the grounded cathode also have disadvantages, which are due to the capacitance of the chokes to earth and certain Transmitter parts as energy losses, especially with uncertain attenuation ratios the coil, even to a very considerable extent. But also with the choice of different wavelengths makes the choke coil difficult. Because Their correct dimensioning for long waves can only achieve the necessary self-induction value difficult to achieve, and with short waves the inductive effect of the coil is through the self-capacitance of the windings is almost completely suppressed. Instead of throttles, a so-called current resonance circuit has also been used, but this always required it a match to the wavelength used in each case.

The circuit according to Fig. 1 is free of all unfavorable influences on the high-frequency generation. The coil L _a with the other antenna parts forms a wave

supply circuit in the anode circuit, / represents an on approximately the same wavelength as the circuit L _a -t adjusted oscillation circuit in the grid circuit of the tube e is. "From Fig. is ι readily seen that with sufficient size of the high-frequency transfer capacitor, a derivative of the high frequency current c to wrong ways are excluded at all. The only disadvantage of this circuit method is that the cathode of the tube carries the entire high voltage potential to earth, so that the operator is at risk, especially with large transmitters, where this potential can be several thousand volts, if the operating devices and Heating batteries are not extremely well insulated. This fact is also disadvantageous with certain telephony circuits used by the inventors.

In order to eliminate this disadvantage too, the idea of the invention is based on the knowledge that from the point of view of the generation of vibrations and also j in, · pure; From an energetic point of view, there is no disadvantageous effect if a second self-induction, Lb, is connected in parallel to the self-induction L _{a of the oscillation circuit.} This only changes the tuning of the anode oscillation circuit. Do you z. If, for example, the self-induction part Lb is ten times as large as La, which does not present any difficulty with the self-induction values of the coils used in wireless telegraphics, the tuning of the oscillation circuit would only change by S percent. But this leads to easily controllable conditions, and. the dimensioning would be able to be made accordingly from the outset. The coil Lb now also carries the tenth part of the total oscillation current, which, however, in no way represents a leakage current. B. is fully used energetically.

However, this arrangement now also allows the cathode to be grounded. Fig. Shows 2 how to use the parallel connection of two inductances to achieve a practical lossless high-frequency supply, even if the "cathode of tube η also prevented on earth Hegt. The high-tension direct current is supplied through the coil Lb of the tube. The capacitor a short circuit, the high voltage, while the capacitor c in turn blocks the current source. The transfer self-induction Lb represents a component of the oscillation system itself and can be dimensioned practically loss-free without difficulty. The Bo anode direct current flows from b only via Lb and tube 0 to a, the high-frequency current flows through the capacitor c and coil Lb on the one hand and coil L _a and capacitor η on the other hand in a kind of parallel connection, to tube 0.

Claims (2)

Patent Claims: 1. Circuit arrangement for generating vibrations by means of cathode tubes, with an oscillating circuit between the grid and cathode, characterized in that the feed energy is fed to the anode circuit via a special self-induction coil (Lb) , while the antenna circuit is separated from the anode by a blocking capacitor. 2. Circuit arrangement according to claim 1, characterized in that the cathode is grounded. Fig.i. Fig. 2.