RU2007879C1 - Concentrator - Google Patents

Abstract

FIELD: electric communications. SUBSTANCE: device has trunk lines, station unit 2, user lines 3, user sets 4, line unit 5, control unit 6, commutation system 7, device for control of commutation system, unit of functional relays, cord circuit 11, dial tone generator, commutation units. EFFECT: increased functional capabilities. 2 cl, 3 dwg

Description

 The invention relates to telecommunications and can be used for telephony sparsely populated areas and small industrial enterprises.

 Known concentrator CTR 160 subscriber lines, containing interconnected n connecting lines a station block, subscriber lines of which are included in subscriber sets of the basic telephone exchange, and a linear block containing a control unit, switching system, control device of the switching system, N subscriber sets and functional relay node . Each subscriber set with the first output is connected to the output of the switching system and, through the corresponding emergency switching element of the functional relay node, is connected to the corresponding connecting line, which is connected to the input of the switching system through the corresponding dividing switching element of the functional relay node, with the second output each subscriber set is connected to the control unit, and the functional relay node is also connected to the control unit, which through the switching control device The onion system is connected to the switching system.

 The functional relay node in this device is designed to provide a certain number of concentrator subscribers with a basic telephone exchange when the supply voltage is lost and to disconnect from the connecting lines of the switching system when controlling it, which achieves a currentless switching of its switching points.

 However, this hub is not without drawbacks, namely, communication between subscribers included in one hub can only be carried out through a basic telephone exchange with occupying trunk lines. This drawback with a small number of trunk lines, for example, with six, for twenty subscribers, becomes very significant. The noted drawback limits the scope of use of the known hub, for example, for remote settlements in which there is significant mutual attraction of subscribers.

 The purpose of the invention is to simplify the management of the hub.

 For this purpose, a subscriber line concentrator containing a station block interconnected by n connecting lines, the subscriber lines of which are connected to subscriber sets of the basic telephone exchange, and a linear block that contains a control unit, a switching system, a switching system control device, N subscriber sets and a functional unit relay, each subscriber set with the first output is connected to the corresponding output of the switching system and through the corresponding emergency switching element node functional relay is connected to the corresponding connecting line, which is connected to the input of the switching system through the corresponding dividing switching element of the functional relay node, each subscriber set is connected to the control unit by the second output, and the functional relay node is also connected to the control unit, which is connected through the switching system control device with the control input of the switching system, a cord set and a ring signal generator are introduced, the first input Nurov generator sets connected to the ringing signal, the second input - to a switching system control unit, a first input-output of the cord set is connected to the control unit and the second input-output connected to a switching system.

 In addition, it is proposed that the call relay and power relay of each cord set be included in the corresponding horizontals of the switching system, with the start of the call relay switching winding connected to the horizontal bus of the switching system and its end connected to the control system of the switching system. It is proposed to connect the end of the turn-off winding of the power relay to the turn-off bus of this horizontal, the beginning of which is connected to the control system of the switching system and, through the diode, to the start of the turn-off winding of the call relay, the end of which is connected to the end of the turn-on winding of the power relay. It is proposed to apply the start of the turn-on winding of this relay to a common bus for connecting the start of the turn-on windings of the power relay of other cord sets, this common bus is connected to the control device of the switching system.

 In FIG. 1 shows a block diagram of a hub; in FIG. 2 is an equivalent diagram of said cord set and its connection with switching points of a switching system and a ringing signal generator; in FIG. 3 - connection diagram of the windings of the call relay and the power relay of the cord set to the on-off buses of the horizontal lines of the switching system of the hub.

 The hub contains interconnected n connecting lines 1 station block 2, the subscriber lines 3 of which are connected to the subscriber sets 4 of the basic telephone exchange, and the linear block 5 containing the control unit 6, the switching system 7, the device 8 control the switching system, N subscriber sets 9, node 10 functional relays, cord set 11 and the generator 12 of the ringing signal. Each subscriber set 9 is connected with the first output to the corresponding output of the switching system 7 and, through the corresponding emergency switching element 13 of the functional relay node 10, is connected to the corresponding connecting line 1. The number of emergency switching elements 13 can reach the number of connecting lines 1. Each connecting line 1 through a corresponding dividing line the switching element 14 of the node 10 functional relay is connected to the input of the switching system 7. The second output each subscriber complex t 9 is connected to block 6. The node 10 of the functional relay is also connected to block 6. Block 6 through the device 8 of the switching system is connected to the control input of the switching system 7. The generator 12 is connected to the first input of the cord set 11, the second input of which is connected to the control device 8 switching system. The first input-output of the cord set 11 is connected to the unit 6, and the second input-output of this cord set 11 is connected to the switching system 7.

 The hub works as follows.

 When you remove the handset of the telephone, for example TA1, in the line unit 5 of the hub at the output of the subscriber set 9 attached to this telephone, a signal appears to establish a connection. Block 6 finds a free connecting line 1 and through node 10 of the functional relay transmits information about the incoming connection request to the station block 2. Having received from the station block 2 a confirmation of the received information, block 6 includes a switching system 7, and then a switching switching element 14 of the selected connecting lines 1. The station block 2 also makes similar connections. As a result, the subscriber set 9 of the line block 5 of the concentrator turns out to be connected to the subscriber set 4 of the basic telephone exchange. Further, the interaction of the subscriber and the basic telephone exchange occur according to the usual telephone algorithm. After the end of the conversation, the hub frees all nodes involved in servicing this connection. It should be noted, however, that first the separation switching element 14 and then the switching system 7 are opened.

 If the call comes from the side of the PBX, then the corresponding subscriber set 4 informs about this event. The station block 2 of the concentrator transmits this information to the line block 5, the block 6 of which determines if the subscriber is free (he can be busy with the internal connection), makes the switching system, and then the separation switching element 14. The circuit is connected, providing a connection between the calling and called subscriber.

 After the conversation, all nodes of the hub circuit involved in this connection are returned to their original state.

 In the event of a line failure, in the event of power failure of the linear 7 or station 2 units, some of the telephone sets, the number of which can be equal to the number of connecting lines, are connected by emergency switching elements 13 of the node 10 of the functional relay directly to the subscriber sets 4 of the basic telephone exchange.

 Communication between subscribers included in one hub can be carried out either through a basic telephone exchange according to the above-described algorithm for working with two trunk lines during a conversation, or without a basic telephone exchange and without using trunk lines for reduced dialing.

 This is possible due to the introduction into the hub of the cord set 11, the generator 12.

 The work of the hub for internal communication is as follows.

 Let the subscriber pick up the handset of, for example, the TA1 telephone. The control unit for subscriber kit 9 finds this connection request, also finds a free connecting line, and according to the above algorithm, the subscriber kit 9 of the line unit 5 is connected to the subscriber kit 4 of the base exchange. From the basic telephone exchange, the subscriber hears the signal "Station Response".

 If the subscriber uses the first digit, for example, "9", dials the internal connection code, block 6 of the line block 5 disconnects the subscriber from the connecting line 1 and connects it to the cord set 11, from which he receives power for the telephone set. The dial receiver in cord set 11 receives the last two digits of the number. Based on these numbers, block 6 determines the subscriber set 9 of the called subscriber. The corresponding switching points of the switching system 7 are turned on. As a result, the cord set 11 is connected to the subscriber lines of the called and calling subscribers. The control process of the switching system 7 and the cord kit 11 is described in detail in the description of the operation of the device in FIG. 2 and 3.

 The called subscriber through the cord set 11 from the generator 12 of the ringing signal receives the ringing signal. When the called subscriber picks up the handset, the ringing signal stops. Connection established. The power supply of the telephone sets of both subscribers is carried out from the cord set 11. At the end of the conversation, all nodes of the concentrator are returned to their initial state.

 If, at the time of the connection request, it turns out that there are no free connecting lines, then the subscriber set 9 of the calling subscriber is connected to the cord set 11. From the cord set 11, the subscriber receives a “Station Response” signal, by which the subscriber dials, for example, the number 9 is the internal code communication and the last two digits of the called number.

 As can be seen from FIG. 2 and 3, the cord set 11 comprises an outgoing cord set 15 and an incoming cord set 16, interconnected by capacitors C1 and C2. The outgoing cord set 15 comprises a caller power choke 17, a first receiving device 18, a transistor switch 19, a first 20 and a second 21 resistors. The incoming cord set 16 contains the third 22 and fourth 23 resistors, the choke 24 of the called party's power supply, the second 30 and third 25 receiving devices, call relay PB1 with contacts 26 and 27, power relay RP1 with contacts 28 and 29 and diode 39.

 The switching system 7 comprises a block 31 of switching points with the horizontals 32 and the verticals 33, the bus 34 on-off horizontal lines of the switching system.

 In FIG. 2 shows one cord set 11 connected to two verticals 33 of a block 31 of switching points of a switching system. There can be several such cord sets; each of them is connected to two verticals 33.

 The first winding of the caller’s power choke 17 is included in the collector circuit of the transistor switch 19, the base circuit of which is connected to the control unit 6, the second winding of the choke 17 is connected to the negative pole (-60 V) of the power source with one output, and to the other through the first resistor 20 the connection point of the first output of the first capacitor C1 and the first wire of the first vertical 33 of the block 31 of the switching points of the switching system 7. The third winding of the caller’s power supply inductor 17 with one output through the second resistor 21 is connected to the connection point of the first output of the second capacitor C2 and the second wire of the first vertical 33 of the block 31 of the switching points of the switching system, and the other output is to the input of the first receiving device 18, the output of which is connected to the control unit 6. The second terminal of the first capacitor C1 is connected to the connection point of the first terminal of the first winding of the choke 24 of the called party and the first terminal of terminal 29 of the power relay. The second output of the contact 29 of the power relay is connected to the first wire of the second vertical 33 of the block 31 of the switching points of the switching system 7 and through the first contact 27 of the call relay to the ring signal generator 12. The second terminal of the first winding of the called-party power supply choke 24 is connected to the negative pole of the power supply (-60 V) through the third resistor 22.

 The second terminal of the second capacitor C2 is connected to the connection point of the first terminal of the second winding of the power inductor 24 and the first terminal of terminal 28 of the power relay. The second terminal pin 28 of the power relay is connected to the second wire of the second vertical 33 of block 31 and through the second terminal 26 of the call relay to the input of the second receiving device 30, the output of which is connected to the control unit 6. The second output of the second winding of the power inductor 24 through the fourth resistor 23 is connected to the input of the third receiving device 25, the output of which is also connected to the control unit 6.

 On the connection diagram of the windings of the call relay РВ and the relay РП of the power supply of the cord set 11 to the on-off buses of the horizontal lines of the switching system 7 of the concentrator (see Fig. 3), it can be seen that the call relay РВ1 and power relay РП1, the number of which should be equal to the number in pairs cord sets 11 and can reach a value of K, are included in the respective horizontal 34 of the switching system 7.

 The beginning of the turn-on winding 35, the call relay PB1 (RVC) is connected to the horizontal switching cable 36 of the switching system 34. To the off-line bus 37 of this horizontal 34, the end of the turn-off coil 38 of the power relay RP1 (RPK) is connected, the beginning of which is connected to the switching system control device 8 and, through the diode 39, is connected to the start of the winding 40 of the call relay РВ1 (РВК). The end of the winding 40 of the relay RV1 (RVK) is connected with the end of the winding 41 of the relay RP1 (RPK) power. The start of the winding 41 of the inclusion of this relay RP1 (RPK) is fed to the common bus 42 by connecting the start of the windings of the inclusion of the relay RP1 (RPK) of power for all cord sets 11, which is also connected to the device 8 of the control switching system. The vertical 43 of the switching system are designed to supply the positive potential of the power source during its control.

 Presented in FIG. 2 device operates as follows. Let the subscriber, whose telephone set (not shown in Fig. 2) is switched on to the first (upper) horizontal 32, pick up the handset. The control unit 6 determines this event by closing the switching point, for example, point A of the switching system, connects the outgoing cord set 15 to this horizontal, from which the called station responds (425 Hz) via the power choke 17 to the called party.

 The subscriber dials. On the first break in the circuit, the “Station Response” signal is removed. By the receiving device 18, the dialed number is received. By the received number determine whether the called party is free? Suppose that he is free and this is the subscriber connected to the last (lower) horizontal 32. By turning on the switching point B, an incoming cord set 16 is connected to this vertical. The contacts 26, 27 of the call relay PB1 are turned on. As a result, the ring signal generator 12 and the receiver 30 are connected to the indicated vertical. The ring signal is received by the called party. If the called subscriber picks up the receiver, the receiving device is activated and block 6 gives commands to turn off the contacts 26, 27 of the call relay PB1 and to turn on the contacts 28, 29 of the power relay RP1, which are closed and supply voltage to the telephone of the called subscriber through the inductor 24. Conversational current of subscribers passes through capacitors C1 and C2.

 If at least one subscriber hangs up the handset, the receiving devices 18 and 25 will send a signal to this unit 6, which issues commands to turn off the contacts 28, 29 of the power relay RP1 and switching points A and B. The circuit returns to its original state.

 Let us follow the process of controlling the switching points A and B, as well as the relays PB1 (RVK) and RP1 (RPK) of the cord set 11 of FIG. 2 and 3.

 In order to close the switching point A (see Fig. 3), the device 8 of the switching system supplies a current impulse along the circuit: vertical 43, the relay coil of the switching point A, the horizontal switching bus 36. The switching point A is triggered and connected to the first horizontal 32 outgoing cord set 15 (see Fig. 2).

 To connect the incoming cord set 16 to the required horizontal, the switching system control device 8 delivers a current pulse along the circuit (see Fig. 3): vertical 43, switch on winding point of switching point B, call RVC relay turn-on winding 35, horizontal turn-on bus 36. By This command connects the incoming cord set 16 to the horizontal 32 and closes the contacts 26, 27 of the RVC relay (see Fig. 2). In order to open the contacts 26, 27 of the relay RVK after the called party answers and close the contacts 28, 29 of the relay PKK power (see Fig. 2), the device 8 control the switching system must provide a current pulse through the circuit (see Fig. 3) common bus 42 winding 41 turning on the relay RPK power, winding 40 turning off the relay RVK call diode 39, bus 37 off horizontal 34. This command disconnects the ring generator 12 and the receiving device 30 from the horizontal 34 to which the called subscriber is connected, and made throttle connection to it 24 power, through which voltage is supplied to the telephone of the called subscriber (see Fig. 2).

After the conversation, the device 8 (see Fig. 3) delivers a current pulse in the following circuits:
vertical 43, switch-off winding of switching point A of the switching system, bus 37 for turning off the horizontal 34 of the switching system; the outgoing cord set 15 is disconnected from the horizontal of the caller;
vertical 43, winding off point B switching, winding 38 off relay RPK power, bus 37 off horizontal 34.

 The switching point B releases, the contacts 28-29 of the PKK relay open and the circuit returns to its original state (see Fig. 2).

Therefore, to connect and disconnect two subscribers included in one hub, the following operations are necessary to control the incoming cord set 16 (see Fig. 2):
connect the incoming cord set to the horizontal of the called party and turn on the PB call relay;
turn off the relay RV call and turn on the relay RP power;
disconnect the incoming cord set 16 from the horizontal of the called party and open the contacts of the power supply relay. (56) Journal Commutat et trane, 1983, 5, No. 3, p. 97-10v.

Claims (2)

 1. A HUB of subscriber lines, comprising a station block interconnected by n connecting lines, the subscriber lines of which are connected to subscriber sets of a basic telephone exchange, and a linear block that contains a control unit, a switching system, a control system of a switching system, N subscriber sets and a functional relay node , each subscriber set with the first output is connected to the corresponding output of the switching system and through the corresponding emergency switching element of the function node The relay is connected to the corresponding connecting line, which is connected to the input of the switching system through the corresponding dividing switching element of the functional relay node, each subscriber set is connected to the control unit by the second output, and the functional relay node is also connected to the control unit, which is connected through the switching system control device with a control input of the switching system, characterized in that, in order to simplify the management of the hub, cord a set and a ring signal generator, wherein the first input of the cord set is connected to the ring generator, the second input to the control device of the switching system, the first input-output of the cord set is connected to the control unit, and the second input-output is connected to the switching system.  2. The hub according to claim 1, characterized in that the cord set consists of outgoing and incoming cord sets interconnected by the first and second capacitors, the outgoing cord set contains a caller's power choke, a first receiving device, a transistor switch, first and second resistors , the incoming cord kit contains the third and fourth resistors, the choke of the called party, the second and third receiving devices, call relay with contacts, power relay with contacts and diode, switching systems contains a block of switching points with horizontals and verticals of the on-off line of the horizontal lines of the switching system, the first winding of the caller’s power choke is included in the collector circuit of the transistor switch, the base circuit of which is connected to the control unit, the second winding of this choke is connected to the negative pole of the power source with one terminal, and the other through the first resistor - to the connection point of the first output of the first capacitor and the first wire of the first vertical of the block of switching points of the switching system, the third winding of this caller’s power choke with one output through the second resistor is connected to the connection point of the first output of the second capacitor and the second wire of the indicated first vertical of the switching points block of the switching system, and the other output is connected to the input of the first receiving device, the output of which is connected to the unit control, the second terminal of the first capacitor is connected to the connection point of the first terminal of the first winding of the power inductor of the called subscriber and the first terminal of one of the contact in the power relay, the second terminal of this contact is connected to the first wire of the second vertical block of switching points of the switching system and through the first contact of the call relay to the ringing signal generator, the second terminal of the first winding of the called party's power inductor is connected to the negative pole of the power source through the third resistor, the second terminal the second capacitor is connected to the point of connection of the first output of the second winding of the power inductor of the called subscriber and the first output of another contact of the power relay, the second output of that contact is connected to the second wire of the second vertical block of switching points of the switching system and through the second contact of the call relay to the input of the second receiving device, the output of which is connected to the control unit, the second output of the second winding of the called party's power inductor is connected to the input of the third receiving device through the fourth resistor the output of which is also connected to the control unit, and the call relay and power relay of each cord set are included in the respective horizontals of the switching system we, the start of the turn-on coil of the call relay is connected to the horizontal bus of the switching system, and its end is connected to the control device of the switching system, the end of the turn-off coil of the power relay connected to the bus of this horizontal connection, the beginning of which is connected to the control system of the switching system and through the diode the start of the turn-off winding of the call relay, the end of which is connected to the end of the turn-on winding of the power relay, the start of the turn-on winding of this relay is fed to the common connection bus of the start of the turn-on windings If the power relay of other cord sets is connected, this common bus is connected to the control device of the switching system.

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