DE825854C - Speech switching for four-wire connection - Google Patents

Description

Speech switching for four-wire connection In modern wide area technology The demand for four-wire through-connection is becoming more and more popular. The connection in the remote offices has therefore already been carried out with four wires. The main problem here is how the speech circuit of the remote office for Inquiries, conversations and eavesdropping must be trained so that there are no undesirable ones Couplings arise between the four-wire circles. The application of the two-wire technology known speech circuit with appropriate expansion leads to the four-wire technology to an unsatisfactory result, as there is a certain coupling of the two directions of speech the four-wire line can never be completely avoided. So is z. B. already proposed been, the interrogator via a special hybrid circuit with Nachbildurig the interrogation device to the lines assigned to the two directions of speech of the cord pair. A complete decoupling of the four-wire circuits, as it is indispensable in the present case, as is well known, can be done with such Hybrid not achieve either. Another suggestion is for to use separate microphones and telephones for the two directions of speech. Even though this enables the required decoupling, but such a measure brings significant operational disadvantages for the site officials. The herewith associated cumbersome operation would be particularly high in long-distance traffic result in undesirable delays in handling. Even the one for such Arrangement required effort is very high. It is also suggested switch on the tube amplifier to decouple the two directions of speech. So that the surveillance officer does not use her own language, or at least only strongly hears muffled, has been further suggested, microphone and telephone over to connect a hybrid circuit with the lines of the two speech directions. This solution, however, represents a relatively high cost, which makes the economy such an arrangement calls into question. On the other hand, the decoupling effect the electron tubes from any hybrid or differential transformer can never be achieved.

The invention is based on the object of a speech circuit for four-wire connection using electron tubes for decoupling to create the two directions of speech that meet the requirements, z. B. is fair in terms of back loss and impedance and manages without additional hybrid circuits and other switchings. According to the invention the speech circuit is designed so that the two transmission lines with corresponding to the microphone group on the one hand and the audience on the other hand Windings of two coupling transformers and one double three-pole tube each connected in this way are that at the same time the anode circles of one tube and the lattice circles of the other tube are decoupled from each other. This decoupling becomes extremely simple Way by opposite polarity of two corresponding windings of the Coupling transformer reached. This creates a very simple circuit with simple coupling transformers that do not meet the high accuracy requirements need to suffice as with hybrid circuits and the like the arrangement according to the invention the use of replicas and additional Eavesdropping facilities.

In the figure, an embodiment of the invention is shown. With this arrangement, the tube expenditure is due to the use of two double triodes reduced to a minimum. In the upper part are the two speech lines of the four-wire pair of cords with wires a1, b2 for the direction of transmission shown from left to right and cores a2, b2 for the opposite direction. Each of these speech lines can be connected to or from an interrogation switch via the contacts. ab2 the primary winding of a coupling transformer can be connected. Both Coupling transformers are completely identical to one another and have a total of three Windings. One of the two secondary windings of the two transformers is used to connect to the audience, the other to connect the microphone circuit the interrogation set to the speech lines. This coupling takes place via the aforementioned Tubes in the following way.

The microphone circuit is connected to the parallel via the pre-transmitter VÜ switched negatively biased grids of the two combined in the tube R1 Systems. In the anode circuit of the left system is the left transformer winding of the the upper voice line associated transmitter ü1 arranged, while the anode circuit of the right system contains the left transformer winding of the transformer Ü2. Included this winding is made by interchanging the winding ends of the anode current "in the opposite Meaning opposite to the corresponding winding of the transformer Ü, flowed through.

The two right transformer windings are each connected to one of the control grids of the double triode R2 via a blocking capacitor. These grids also have a negative bias voltage, which can be set by the resistors Wi ,, How . The two anodes of the tube R2 are connected in parallel. The remote receiver F is coupled to the common anode circuit via the post-transmitter NÜ.

The mode of operation of the arrangement is as follows: If, for example, an incoming call from the left via a ,, bi is to be interrogated, the interrogation switch AB is thrown and thus the middle windings of U1 and U2 are switched into the voice line. The speech currents flow through the middle transformer winding and are induced on the other two windings. The voice vibrations picked up by the right winding of the upper transducer ü1 reach the connected grid of the tube R2 and are transmitted to the remote receiver F. Since the tubes are primarily used for decoupling, their reinforcing effect is irrelevant here, but it can also be used to a certain extent. This can be achieved in a manner known per se by appropriate selection of the operating voltages. Crosstalk to the second line via the second control grid of the tube R2 cannot take place, since both grids are completely decoupled from one another. However, crosstalk is not possible via the left-hand transformer windings either, since the two anodes of the tube to which they are connected also do not have any mutual coupling.

To answer the call, the microphone and the pre-transmitter in the idle position short-circuited talk button is actuated and thus the microphone circuit is switched on. The speech currents reach the grid of the tube R1 via the pre-transformer V Ü and are induced on the middle primary windings by the left-hand transformer windings in their anode circles. In this way, you can access both transmission lines at the same time. If it is only possible to speak in one direction, this can be easily achieved by appropriate switching means in the speech circuits of the cord pair on both sides of the coupling transmitter. The speech currents are also transmitted to the right transformer winding and from there reach the grid of the tube R2. However, since the induced voltages in the two grid circles are in phase opposition due to the opposite direction of the transformer windings on the left, they practically cancel each other out in the common anode circuit R2. However, due to certain asymmetries of the transformers that are always present, complete compensation is not achieved and is not necessary in this case. In any case, this measure brings back hearing loss to a favorable level. In a practically implemented circuit example of the type described, it was over 2 neper, while the crosstalk attenuation produced values of about 8 neper. These values can be changed if other tubes are selected, e.g. B. Pentodes, can be increased to about 14 Neper. The same mode of operation occurs when an incoming call from the right via line a2, b2 is to be answered. Finally, the arrangement is also readily suitable for two-wire operation. In order to create the same load conditions, in this case only a correspondingly dimensioned equivalent resistance Wis needs to be switched into the line not used for transmission. This is brought about, for example, by contacts zdr of a special switch.

Claims (5)

PATENT CLAIMS: i. Circuit arrangement for the voice circuit of switchboards with four-wire through-connection using electron tubes to decouple the two speaking directions, characterized in that the two transmission lines with the microphone circuit on the one hand and the listener circuit on the other hand via corresponding windings of two coupling transformers (Ü1, Ü2) and one double three-pole tube each are connected so that at the same time the anode circles of one tube (R1) and the lattice circles of the other tube (R2) are decoupled from each other. 2. Circuit arrangement according to claim i, characterized in that it Decoupling of the anode and grid circles by opposing polarity of two of each other corresponding windings of the coupling transformer is effected. 3. Circuit arrangement according to claim i and 2, characterized in that the microphone circuit via a pre-transformer (hÜ) to the parallel grid of a double triode (R1) is placed, their associated anodes each with a transformer winding of the both transmission lines associated coupling transformer (Ü1, Ü2) connected are. 4. Circuit arrangement according to claim i and 2, characterized in that the remote receiver circuit is arranged in the common anode circuit of a further double triode (R2) is, whose associated grid with one further transformer winding each of the two Coupling transformers assigned to transmission lines are connected. 5. Circuit arrangement according to claims i to 4, characterized in that when they are used for two-wire operation a correspondingly dimensioned equivalent resistance in the line not used for transmission (Wi9) is switched on.