DE367833C - Circuit arrangement for telephone systems with low and high frequency connections over common lines - Google Patents

Description

The invention relates to an exchange circuit for carrying out multi-pass radio frequency telephony along lines that allow both ordinary low-frequency currents and to transmit on high-frequency currents superimposed telephone calls, the circuit being designed so that also for the High-frequency traffic automatic call and end signals are available. the The trunk circuit itself can be implemented in the most varied of ways. According to the implementation shown in the drawing is the exchange circuit a Schaltang with call and tail lights and central batteries.

The system is divided into the two offices Z ₁ and Z ₂ and the participants T _11, T ₂ , T ₃ and T ₄ , of which the participants T ₁ and T ₂ to the office Z ¹ and the participants T ₃ and T ₄ to the Office Z _{2 are} connected. The two offices are connected by the long-distance lines F ₁ and F ₂ .

The circuit should first be explained in its effect on low-frequency currents, the interrogation and call organs in the offices being omitted for the sake of clarity. Each subscriber set consists of a microphone M, the telephone H, the telephone transformer R, the AC alarm clock W and the hook switch U ₁ while the central battery is formed by A ₁ or A _2.

As soon as the subscriber T ₁ picks up the receiver from the switch U , a circuit is closed that runs from the positive pole of the battery ^ a ₁ via the busbar 1, the line 2, the relay 4, the contact 5, the subscriber line 6, the subscriber set , the subscriber line 7, the terminal 8, the relay 4, the lines 9 and 10 to the busbar 11 and from there to the negative pole of the battery A ₁ . This energizes the relay 4 and closes the contact 12. This creates a circuit: busbar i, line 2, contact 12, line 13, contact 14, incandescent lamp 15, line 10, busbar 11. The incandescent lamp 15 lights up and shows the control center Z ₁ that subscriber T ₁ wants to speak. By inserting the plug Si ₁ into the socket B ₁ , the contact 14 is separated and the incandescent lamp 15 is thereby extinguished.

After the officer has inquired about the wishes of subscriber T ₁ , the plug, SY _{2 of} the connecting line V _{1 is} plugged into socket B _2. As a result, a direct current flows from the busbar ι via the line 16, plug part 17, the long-distance line F ₁ , line 18, contact 19, incandescent lamp 20, line 21, long-distance line F ₂ , line 22, socket B ₂ , pole 23 of the plug St ₂ , Line 24, choke 25, line 26 to the busbar 11. The light bulb 20 lights up and indicates the call to the center Z ₂ . This connects with the help of the plugs St ₃ , St _{4 of} the connecting line V ₂ with the socket B ₄ to which the desired subscriber T _{3 is} connected. As long as this participant does not answer, the lamp 27 lights up because a circuit comprising busbar 28, line 29, choke 30, line 31, contact 32 of the plug St ₄ , socket B ₄ , line 33, contact 34, line 35, busbar 36 for the battery A _{2 is} closed. As soon as the subscriber T ₃ picks up the receiver H and closes the hook switch U , the circuit: busbar 36, conductor 35, relay 37, contact 38, subscriber line 39, subscriber set T ₃ , subscriber line 40, contact 41, line 42, relay 37 , Line 43, line 44, busbar 28 closed, whereby the contact 34 is interrupted and the incandescent lamp 27 is made to go out. Subscribers T ₁ and T ₃ can now speak at low frequencies via the control centers Z ₁ , Z ₂ and the subscriber lines F ₁ and F _2. As soon as one of the subscribers T ₁ or T ₃ hangs up the receiver again, the contact U is interrupted and the relay 4 'resp. 37 de-energized, which automatically causes the associated lamp 27 to light up again. A call from subscriber T ₂ to control center Z ₂ is made in the same way as described above for T ₁ , with the line 35,

45) contacts 46 and 4Ö ¹ , line 44, the light bulb 47 lights up and indicates the start of the call.

By disconnecting the line on the control center Z ₁ or Z ₂ , either the lamp 20 or the lamp 48 lights up. If the control center Z ₂ wants to call the control center Z ₁ , the plug St _{s is} inserted into the socket B ₃ , and the lamp 48 now lights up as a call lamp as a result of the circuit: busbar 28, conductor 29, choke 30, line 31, Contact piece 49 of the plug St ₅ , socket B ₃ , line 50, trunk line F ₂ , line 51, line 52, contact 53, trunk line F ₁ , contact 54, line 55, busbar 36, whereby the center Z ₁ the call from the Central Z ₂ receives. The further connection of the center Z ₁ with the subscriber T ₁ takes place in the manner described.

Of course, the circuit can also be used to connect subscribers T ₁ and T ₂ as well as T ₁ to T ₁ , T ₂ to T ₃ and T ₃ to T ₄ . Furthermore, the special design of the control center for this low-frequency voice traffic can be designed or modified in a known manner with service lines and the like or also with flap cabinets etc. The circuit shown in the drawing with call and tail lamp is only chosen as an example to show the interaction of low-frequency and high-frequency superimposed speech currents.

Accordingly, it should be assumed in the following that, while the subscribers T ₁ and T _{8 are in} low-frequency traffic, the subscriber T ₂ wishes to speak to the subscriber T ₄ and consequently has to be switched over the trunk lines F ₁ , F _{2 already in operation} . Since only low-frequency currents flow between all subscribers and the associated control panels, the circuit between subscriber T ₂ and socket B ₅ or the circuit between subscriber T ₄ and socket B _{e is} identical to that for subscriber T ₁ described system. The tail lamps 27 in the participant's earbuds St _s and St _s are also found in the same way as wi ^! e described application. Only the DC clocking capacitors 56 in the connecting lines V ₃ and V _{4 are} not required.

Before the mode of operation of the high-frequency circuit is discussed in more detail, the circuit itself should first be described. Each of the two high-frequency transmitters consists of a small DC machine G ₁ or G ₂ . The chokes D ₀ and the capacitor C ₀ are used to eliminate 'the collector noise, while the chokes D ₁ keep the high-frequency currents from the supply circuit. The oscillation circuit is formed by the self-induction 57 and the capacitor 58. The oscillating circuit is excited by the transmitter tube S ₁ or S ₂ , which is coupled to the self-induction 57 in the voltage divider circuit. The speech currents are fed to the grid circuit through the transformer TS ₁ or TS ₂ on both sides of the grid capacitor GK and cause corresponding fluctuations in the grid voltage. These cause similar fluctuations in the currents in the oscillation circuit. The high-frequency currents are transmitted through the coil 57 to the secondary circuit, which is connected to the subscriber lines F ₁ and F ₂ . The secondary circuit consists of the coupling coil 59, the self-induction coil 60 and a tuning capacitor 61, which is followed by a choke chain 62. This choke chain has the effect that the operating frequency of the transmitter S ₁ or S _{2 is} transmitted to the long-distance lines F ₁ , F ₂ , but that the passage of harmonics into the line is prevented. The transmitter tubes are heated by the heating batteries HB ₁ and HB ₂ . The receiving system consists of a receiver tube B ₁ or E ₂ , to which the anode current is supplied either by a machine or by an accumulator battery AB ₁ or AB ₂ . The heating battery HB ₃ or HB ^ is used for heating. The high-frequency oscillations coming through the long-distance lines F _x , F ₂ end in a coordinated circuit 63 and are brought from this by the coupling 64 via the sieve chain 65 to the grid and the cathode of the receiving tube E. The sieve chain makes it possible that only the current of the one oscillation to be received is fed to the receiving tubes E , while the remaining high-frequency currents are kept away from the grid circle of the tube. Instead of a receiving tube, any amplifier circuit can of course also be used. The 'amplified and freed from the high frequency vibrations speech streams are finally transmitted to the transformers TE ₁ and TE ₀ for the subscriber connection. In order to prevent coupling between the individual transmitting and receiving tubes, the low-frequency transformers TV is connected to the transmitting transformer TS and the receiving transformer TE with the aid of an artificial subscriber line if in a bridge circuit.

The mode of operation of the circuit is as follows

gende: It may be assumed that the subscriber T _{2 has called} the center Z ₁ and the same has indicated the desired subscriber T _4. For this purpose, the control center Z ₁ has already plugged the plug St ^ into the socket B- and thereby switched off the call lamp 66. A connection must now be established between the control center Z ₁ and Z ₂ , although it should be noted that the long-distance lines F ₁ and F _{2 are} already being used for the conversation taking place _{between the subscribers T 1} and T _n. The office Z ₁ puts the plug St ₇ into the socket B ₇ . As a result, a direct current is initially closed, which runs from the busbar 1 via the line 67, the relay 68, the socket B ₇ , the contact 69 of the plug St ₇ , the line 26 to the busbar 11. The relay 68 responds, and a connection is now made between the conductor pairs 72 and 73 through the switch 70 and the mutually insulated contact pieces 71, through which the heating batteries HB ₁ and HB _{3 are} switched on. As a result, the transmitter S ₁ begins to generate vibrations, which are conducted via the lines 74 and 75 to the long- distance line F ₁ and F., and from there via the lines 76 and 7γ to the receiving circuit 63 of the center Z ₂ . Since the heating battery HBi is still not switched on here as a result of the open position of the switch 78, the received oscillations cannot be recorded. On the other hand, they trigger a schematically illustrated drop relay 80 through the coupling 79, whereby a circuit: busbar 36, line 81, relay contact 82, line 83, switch 78, incandescent lamp 84, busbar 28 is closed. The lighting up of the incandescent lamp 84 indicates to the control center Z ₂ that a conversation by means of high-frequency vibrations via the long-distance lines F ₁ and F _{2 is} desired from the control center Z _1.

In order to indicate to the center Z ₁ when and whether the center Z ₂ has responded to the call, the following device is provided: The relay 80 closes in its rest position, ie when no received energy is transmitted through the coupling 79, through the contact 85 a Circuit: busbar 1 or 36, line 81 to 86, contact 85, line 89, lamp 90 or 91, line 92, busbar 11 or 28 closed, which, however, remains open at switch 93 or 94 until the latch _s is inserted St St ₇ and _s in the socket B ₇ and B, respectively. As long as the latter (Z ₂ ) does not respond to the call from Z ₁ to Z ₂ , the incandescent lamp 90 burns, while the incandescent lamp 84 on the control center Z ₂ burns as a call lamp. Conversely, when the control center Z _{1 is called} by the control center Z ₂ , the call lamp 87 burns in the former, while the busy lamp 91 is switched on in the latter. At the same time, the lamps 90 and 91 act as tail lamps when, at the end of the conversation, by pulling out the sockets St _s or St _7, the generation of vibrations in the tubes S _z and S _{1 is} switched off and the relay 80 is switched back.

The transmitter and the receiver are appropriately matched to different waves from each control center. It is also advisable to use compensation devices for the transmitter and receiver of the same station in order to prevent mutual interference. The chokes D and the capacitance C are intended to prevent the high-frequency currents from disturbing _{subscribers T 1} and T _2.

The switching elements shown in the drawings for automatic calling and for the automatic indication of the final character etc. are only intended as an example and can be replaced by suitable equivalent means. When using the same However, it is necessary to execute the individual relays with delays in such a way that the switching operations are correct. The circuit can also be used in The way that can be improved either by hand or automatically with the help of special Relay, the couplings 79 serving to actuate the relays 80 are switched off as soon as the connection is established. Instead of lamps, flaps or the like can also be used. It is also possible to trigger direct indicators through the transmission vibrations of the transmitter itself. That too Calls between the two centers can also be made in such a way that those with the Receiver circuits coupled relay 80 designed as mechanical resonance devices which are put into operation by power surges of the calling transmitter station. For this purpose, for example, the repeated actuation of a special could change the transmitter. and disconnecting rocker switches are used. Eventually it would be possible to take the call with you To carry out the help of an interference reception, for example, on each transmitting station a special auxiliary vibration generator would be provided.

It is also expedient to provide control apparatuses that "have the task of" check whether all receiver tubes are burning and whether the anode voltage resp. the anodenetrom is available at all or at the necessary height. this could for example by ammeter with one or two relay contacts in connection with

Alarm devices can be achieved. The same setup could of course also be used for the transmitter tubes are used.

Claims (15)

"Patent claims: 1. Circuit arrangement for telephone systems with low and high frequency connections via common lines, in which the subscriber connections with ίο low frequency currents work while the connection between the exchanges or offices optionally through high-frequency and low-frequency Streams can take place, characterized in that to control the traffic between the exchanges (Offices) serving call devices (lamps, flaps, etc.) on the calling office when the Connecting line automatically triggered high-frequency oscillations are used. 2. Circuit arrangement according to claim i, characterized in that at When the line is in use on the calling station, a relay (68) is actuated through which the high-frequency oscillations triggered. 3. Circuit arrangement according to An-Spruch ι and 2, characterized in that the relay · "(68) also switches on the high-frequency receiving device (E ₁ ) _{at the same time as the high-frequency generator (^ 1} ) is started. 4. Circuit arrangement according to claim ι to 3, characterized in that the heating batteries (HB) for generating the high-frequency vibrations and for receiving the same serving cathode tubes are switched on by the relay (68). 5. Circuit arrangement according to claim ι to 4, characterized in that that the calling device (84) on the called station through an on the incoming High-frequency received energy corresponding device (80) is triggered. 6. Circuit arrangement according to An-Spruch ι to S, characterized in that that the receiving energy actuates a relay (80) which is in the rest position Circuit prepared for a busy or closing signal (91) in the working position on the other hand, turns on the calling device (84). 7. Circuit arrangement according to claim ι to 6, characterized in that that the relay (80) to hold "the call, Busy and closing signals is designed as a resonance relay in such a way that ■ the control of the relay by rhythmic impulses from the sender of the calling party Station is effected. 8. Circuit arrangement according to claim ι to 7, characterized in that that the coupling (79) of the relay (80) for the calling device and the like is brought by the switching organs of the called office so that the coupling during the high-frequency Traffic is turned off. 9. Circuit arrangement according to claim ι to 8, characterized in that that the triggering of the. Call relay (80) by repeated operation of one of the calling transmitter on and off rocker switch takes place. 10. Circuit arrangement according to claim ι b-is 9, characterized in that that an interference receiver is provided for calling the called office. 11. Circuit arrangement according to claim ι to 10, characterized in that that the interference receiver when establishing the high-frequency connection is switched off automatically. 12. Circuit arrangement according to claim ι to 11, characterized in that the connection sockets (B) for the production of high-frequency connections with the sockets for low-frequency traffic are combined in common cabinets and are operated by the same jacks (St) . 13. Circuit arrangement according to claims ι to 12, characterized in that a switch (93 or 94) is provided on the sockets (B ₁ , B _s ) for high-frequency traffic, through which, when the pawls are plugged in, the call relay (80 ) monitored circuit for the busy or closing signal is closed. 14. Circuit arrangement according to claim ι to 13, characterized by the Arrangement of control devices through which the working of the cathode tubes as well as the value of the anode voltages is displayed. 15. Circuit arrangement according to claim ι to 14, characterized by Ammeter with one or two relay contacts used in conjunction with alarm devices monitor the anode currents of the cathode tubes. 1 sheet of drawings.