DE709281C - Multiple telephony system - Google Patents

Description

Multiple telephony systems Ls are known for simultaneous transmission a number of long distance calls over the same medium. z. B. a common transmission line, to use a mechanical or electrical commutator, whichever is in the series gradually and periodically - each channel over which a conversation is conducted on one short moment finite the leg inseminate medium, namely finite the transmission line, connects.

In such a system, each of the conversations becomes periodic short impulses are transmitted, the amplitude of which corresponds to the conversation to be transmitted is modulated as shown in FIG.

The invention aims. in these systems in a simple way signal currents. like call streams and dialing pulses. zli transferred.

According to the invention, the periodic pulses, those during and as a result of the call to be transmitted in terms of amplitude be modulated, wholly or partially suppressed in the rhythm of the signals to be transmitted.

The invention is therefore based on the fact that even at the time at which in a certain channel no conversation is transmitted, but the periodic impulses be sent out in this channel, so that by suppressing these pulses in the Sender a signal can be sent.

This is e.g. B. the case in systems. as the commutator of one Make use of the cathode ray tube. The cathode ray beam, which acts as a switching element is effective, will yes even then. if no one speaks in a channel, nevertheless periodically the connection between this channel and the common transmission line mediate and as a result periodic electricity Shock in the transmission line bring about. By suppressing these impulses in a previously determined hliytlimus signal streams can be transmitted.

If a mechanical switch is used as the commutator, which in turn and periodically connects the Ge-F pr ': chsk with . the over; ragungs'eitung ZN #, erbi d ---., wcrdcn i; n general kc'nc pulses sent out during the time in which there is no speaking in a certain channel. If, however, a constant EMF, for example, is fed to the communication channels, pulses are also sent out in this system if there is no call transmission.

In Fig. 2 of the drawing, one of the two end devices is one -Multiple telephony systems shown, in its transmitting and receiving circuit as a KOmultitator a cathode ray tube is used. The connections with the cathode ray tubes are only used for one channel) cn. Those for the other channels are in trained accordingly.

A subscriber line i is linked by means of a hybrid circuit which contains a differential transformer 2 with a replica 3, finitely separated transmitting and receiving circuits 2o and 21 v =. The point-1 of the differential transformer 2 is connected via a connecting line 5 to the first control electrode 6 of a cathode ray tube switch, while the point 8 of the differential transformer via part of the resistor 9, the line io and the normally closed contact i1 of a relay t2 and part of a parallel to one Bias source gcschaltctcn '\ Ä'iderstaiids 13 is connected to earth. Since the cathode 1.1 of the cathode ray tube 7 is grounded, the voltage loss across the mentioned part of the resistor 13 determines the bias voltage of the steel electrode 6 # of the cathode ray tube; . When the subscriber connected to the end of the subscriber line speaks, the speaking voltages occurring between the points + and S are superimposed on this bias voltage, so that the cathode ray beam, which is periodically moved back and forth by means of a voltage applied to the connector 17, each time - when it falls through the opening 15 corresponding to the first control electrode of a screen 16 which ends in front of the control electrode lic, it is inodulated according to the instantaneous value of the voltage rtii of the control electrode 6 . As a result, periodic impulses occur in the output connected to a -cincins: unen anode i S, the amplitude of which is modulated according to the conversation entering via the line i. In a similar manner, pulses are generated in sequence in the remaining channels each connected to the other control electrodes of the cathode ray tube. After amplification by an amplifier r9, these impulses are transmitted over a transmission line 20, at the other end of which the receiving circuit of the other terminal equipment is connected. This end device is designed in a manner similar to that shown in FIG. For the description of the receiving circuit of the terminal equipment at the other end of the transmission line, only the description of the receiving circuit of the terminal equipment shown in FIG The terminal equipment at the other end of the transmission line 2o can be received via a transmission line 21.

Similar to the pulses emitted in the other channels, these pulses are fed to a control electrode 22 @ of the cathode ray tube 23 and consequently modulate the intensity of the cathode ray beam generated in the tube. This beam is periodically moved back and forth by means of a voltage applied to the deflection plates 29 in such a way that each time a pulse is received in the first channel under consideration, the cathode ray beam also falls on the first of the anodes 2.1. The first anode 24 is connected to earth via a connecting line 25, the windings 26 of the differential transformer and the capacitors 27 and 28. Since the cathode of the tube 23 is also grounded, flows through it. when the cathode ray ring hits the first anode 2.1, a current modulated according to the call to be transmitted runs the windings 26 so that a voltage is generated in the windings 2 of the differential transformer and the call is fed to the subscriber via the subscriber line i. The movement of the cathode ray beam in the tube 23 and in the cathode ray tube in the transmission circle of the. High-speed equipment at the other end of the transmission lines 20 and 21 takes place synchronously and with such a phase shift as corresponds to the transit time of the pulses from one terminal equipment to the other. This movement can) cispiclswcise from the: \ blenkplatten t; or 29 of the voltage supplied to the h; itliodeiistralilrölire of a generator, for example, which generates sääcxahn-shaped voltages. even if there is no incoming call via the subscriber line r and thus no modulating voltage to the first control element of the cathode ray tube; is gclegt. it is still urgent. Impulse is emitted in the output circuit, which is finitely connected to the common anode 13, every time the cathode ray bundle falls through the first opening 15 of the electrode 16 and strikes the anode. The same also applies to transmission 111 in the reverse direction, so that pulses are thus also received via line 2 t. if there is no speaking in this direction in the channel you are looking at. In the circle connected finitely to the first anode 24 there is thus a current consisting of successive pulses. The Gleicbstronikompoilrnte these pulses energizes the relay 3-, and the switch 3.1. stays open.

For the purpose of transmitting signal currents, according to the invention, the pulses sent out in the absence of a conversation are suppressed in a specific rhythm. This suppression of the pulses takes place by means of a relay i2, which is obtained from signal currents supplied via vain line 31. As a result, the switch is placed on the normally open contact 32 and the t @ e; @ative bias voltage of the first control electrode 6 is changed in such a way that the cathode bundle is suppressed at the times at which this bundle falls through the first control electrode If signaling is carried out in a completely normal manner in the channel under consideration in the opposite direction to rain, there will be no impulse at the steticrel electrode 22 during the times at which the hatchicle beam hits the first anode 2.1 of the cathode ray tube 23 In this case, the voltage of this electrode is only determined by its bias voltage, which is selected in such a way that it is suppressed connected circuit, so that the excitation of the relay 33 is interrupted, whereby the relay contact 24 is opened and signals are sent over the line 35, In Fig.3 of the drawing is t shows a system in which a mechanical switch is used as the commutator. These switches, labeled .14 and: 15, are driven by a motor and are connected to one another by a transmission line 46. The # switches contain as many contacts as there are too many (#bearing calls present, namely 36 to .to etc. as 39 to .13, and they connect each of these calls in turn and periodically for a brief moment to the i @ i) income-related .16.

If in this system there is no talk in one of the cannulas, zh im @ anal; 0 to To, no pulses are sent out during the periods in which this channel is finitely connected to the transmission line .16, so that in this case System not easily the Signal151ertnlg can be applied according to the invention. To make this possible. - LlIK hurriedly incorporated into the conversation channels. This is z. B. for the channel 36 to so by a battery .l; reproduced. via a resistor 4S and a switch -; o. which is normally closed, is switched on between the lines of channels 36 to 4.o. As a result, there is a voltage on these lines, so that every time the slider: 4T connects this channel to the transmission line .16, a pulse is transmitted. When speaking in the channel, the speaking voltages are superimposed on the constant voltage of the battery .17 and the pulses transmitted via the transmission line 46 are modulated in terms of amplitude in accordance with the conversation to be transmitted.

For the purpose of signaling, switch .19 is required in a Rhythm opened so that in this. Case no pulses over the transmission line into the channel 36 to .4o. with which the mean direct current, which should flowing through this channel is suppressed. In the receiver -to a relay 5o attached, which is normally excited by the mean direct current, and this excitation is interrupted during signaling. This will the switch of the relay is placed on contact 5 t, so that the signal circuit 5 'is closed. will.

Claims (1)

PATENT CLAIMS :,, 1. All-in-one telephony system. in which in each of the paragraphs to the common saine transmission line installed ca- nee impulses are sent out, the 11-during the breaks in the conversation unmodular and during the conversation the respective conversation amplitude modul are lated, characterized in that - the transfer of additional signals such as call streams or dialing pulses, by -anae or partial L: n-oppression the . periotliscllcil impulses inl rhythm this signal takes place. 2. \ Irrephonical system according to universal Say i, with your on the sender side a cathode ray tube as a conimutator (7) is used, which contains a number of control electrodes (6) each connected to one of the communication channels and a common anode (1 8) connected to the transmission line common to all channels, and a cathode ray tube (23) is used on the receiver side as a Kotnmutator which contains a control electrode (22) connected to the transmission line and a number of anodes (24) each connected to one of the communication channels, and in which means for deflecting the cathode ray beam which operate synchronously are provided on the transmitter and receiver side, so that the amplitude The beam current of the cathode ray tube (7) on the transmitter side is sequentially modulated by the calls fed to the control electrodes (6) and hits the anodes (24) successively on the receiver side, characterized in that the transmission of additional signals in one of the Conversation channels by changing the bias of the controls associated with that channel electrode of the cathode ray tube takes place on the transmitter side, whereby the pulses transmitted in this channel are wholly or partially suppressed and that in the circle that is connected to the corresponding anode of the cathode ray tube on the receiver side, there is a relay (33), which is from the middle, the circuit flowing through direct current is excited and controls the signal circuit (35). 3. The multiple telephony system according to claim t, in which each of the communication channels is connected to a common transmission line (. 16) one after the other and periodically for a brief moment through a rotating switch (: 14 and: E5) on the transmitter and receiver side, characterized in that in each of the communication channels on the transmitter side there is a voltage source (.17) which is switched off during the transmission of additional signals and in that on the receiver side there is a relay (50) which, when the aforementioned voltage source is switched off on the transmitter side a signal circuit (52) closes.