DE373141C - Switching of intermediate amplifiers working with two cathode tubes or two amplifiers - Google Patents

Description

Switching with two cathode tubes or two amplifiers working repeaters. In front of a z. B. in. A voice line to be switched on Cathode tube repeater is to be demanded that it comes into effect, it doesn't matter in which direction the speech streams flow through the line. Furthermore, his must Circuit can be made so that no excitation of the grid voltage by the anode current and with it a self-oscillation of the tube or tubes. occurs as well as that no such Reaction of the amplifier on the receiving circuit takes place, which the ratio the grid voltage to the speech voltage supplied by the microphone.

In the known circuits either an amplifier or two separate amplifiers used. Each amplifier can take it along for itself one tube or several tubes connected in cascade. work.

The disadvantages of circuits with a tube or an amplifier consists in relying on cables with the same characteristics, if one avoids a reaction of the anode current on the grid circle sidher want.

If two separate cathode tubes or amplifiers are used, so the anode current of each tube was previously divided. The partial streams then flow through Transformers whose secondary windings are in series between the cathode and the grid other tubes are placed in such a way that the secondary voltages cancel each other out and one Back-influencing of the receiving circuit does not take place. The division of the anode current but here on the one hand has the disadvantage that half of the energy is lost, on the other hand again when only one is used Amplifier occurring disadvantage .the reduction of the external resistance between Cathode and anode and thus a reduction in the efficiency of the tube.

The invention now eliminates these disadvantages by leaning on it to the known circuit of with only one cathode tube or one Amplifiers working intermediate amplifiers, in which the lying in the anode circuits Primary windings of those transformers are connected in series with their Help induced by the anode current in the grid circle - canceling voltages will. The circuit is made so that while parallel to the Primary winding of one transformer, the line is parallel to the primary winding of the other transformer is connected to an equalizer corresponding to the line is.

The new switching method will be explained using two examples. These are in the Ab: b. t and 2 of the drawing.

In contrast to the known one that works with two cathode tubes The circuit in Fig. R shows the two transformers 22 and 23 or 24 and 25 in row. The primary windings 27 and 3o of the transformers 22nd and 2.I, the branches i, i and 12 are parallel, while the primary windings are in place 29 and 32 of the other two transformers 23 and 25, the equalizers 34 and 35 lie parallel. The secondary windings 26, 28 and 31, 33 of the two transformer sets lie in the grid circle of the other tube 2i or 2o.

It is now assumed that branch line II is connected to a microphone transmitter, and therefore carries the speech streams. Correspondingly, the branch line 12 would then have to carry the amplified currents, ie it would have to be connected to a receiver. The received current arriving through ii then flows only through the primary winding 27 of the transformer 22, since the path through the coil 29 and: the tube 2o is blocked by the high internal resistance of the tube. The received current thus induces, through the intermediary of the primary winding 27 in the secondary winding 26, a voltage which is applied to the grid of all of the tubes 21. In contrast, no induction voltage occurs in the coil 28. since the coil 29 is not traversed by any current. The resulting grid voltage of the tube 21 now controls the anode current of the same tube. This flows through the coils 3o and 32. The resistance of the line branch 12 is parallel to the coil 30 , and an equalizer 3d is parallel to the coil 32 32 for self-induction 3o, and the characteristics of the line branches ii and 12 must be as identical as possible. The voltage drops in coils 30 and 32 then have the same phase. Are the number of turns of the transformers 2.1. and 25 in the opposite proportion to the two voltage drops in the primary windings 30 and 32 and if the secondary windings 3 r and 33 are connected to one another, the voltages generated in them cancel each other out, ie the grid of the tube 2o is not excited. A feedback of the amplified current on the line branch ir does not take place. In order to keep the power loss in the equalizer 3.1 small compared to the power in the line 12, the ratio in 34 and 12 must be made small.

If the line branch 12 leads the line branch to be reinforced and the line branch i r the amplified currents, since the circuit is completely symmetrical, the reverse process. Of course, each of the tubes 20 and 21 can again for itself be replaced by two or more cascaded.

The circuit according to Fig. 2 differs from the one according to Fig. i only in that on the one hand the high-voltage battery 18 in two batteries 18a and 18b is divided, and that on the other hand between the line branches i i and 12 and the anode circuits of tubes 20 and 21 transformers 37 and 38 switched on are what in some cases, especially in the case of lines with unsuitable alternating resistance, is appropriate.

Claims (5)

PATENT CLAIMS: i. Connection of intermediate amplifiers working with two cathode tubes or two amplifiers, in which the anode current with the help of transformers induces canceling voltages in the grid circuit, the secondary windings of each transformer being in the grid circuit of the other tube, characterized in that the in the Anode circuit lying primary windings of the transformers are connected in series, and that parallel to the primary winding of one transformer is the line, parallel to the primary winding of the other transformer is a balance corresponding to the line. 2. Switching mode according to claim i, characterized in that the active and reactive resistances are balanced and line are in the same ratio as the real and reactive resistances fler Transformers. 3. Circuit according to claim i and 2, characterized in that that the number of secondary turns of the transformers is inversely related to the number of primary turns are. .I. Switching method according to claim r, characterized in that that the resistance of each equalizer and the self-induction of those parallel to it Primary winding small compared to the resistance of the line branch or the self-induction which is held in this parallel primary winding. 5. Circuit according to claim r and .I, characterized in that between the anode circuit of each tube and the associated branch line a transformer is switched on.