RU2187903C1 - Hot-link telephone exchange - Google Patents

Abstract

FIELD: electric communications; hot-link communications between subscribers of stationary networks and those of mobile communication centers. SUBSTANCE: telephone exchange designed for operation both using voice frequency channels and digital channels incorporating provision of encrypting data transmitted over channels has line input unit 1, subscriber line equipment unit 3, control device 6, workstation unit 7, channel equipment unit 9, transit connections unit 10, connecting lines equipment 11, channel input unit 15, transfer lines equipment unit 22, subscriber lines 23, connecting lines 24, voice frequency channel 25, digital channels 26, and transfer lines 27. Newly introduced in telephone exchange are subscriber's distribution frame unit 2, servicing instruments unit 5, data display unit 8, unit of automatic speech- converting devices 13, interface unit 14, differential systems unit 12, voice-frequency signal conversion unit 20, channel switching unit 16, group data encryption unit 17, digital channel switching unit 18, interaction signal unit 19, individual data encryption unit 21, and new ties are used between known units. EFFECT: enhanced capacity due to reduced busy time of exchange devices. 1 dwg

Description

 The invention relates to telecommunication technology and can be used to organize operational telephone communication between subscribers of fixed networks and subscribers of mobile communication nodes.

 Known terminal telephone exchange for local communication networks and a device that provides access to trunk lines for telephone installations of the intercom system, containing telephone sets, subscriber sets and sets of trunk lines, tokens of subscriber and register searches, switching blocks, subscriber telephone installations and intercom settings [12].

 However, these devices provide services to subscribers of only local networks and have low bandwidth, which limits the possibility of their use for operational communication.

 Closest to the technical nature of the present invention is a hand-held telephone station of the cordless type described in [3].

 This station contains a line input unit with subscriber and connecting communication lines connected to it, a channel input unit with transmission lines and long-distance communication channels connected to it, including tone frequency channels, a channel set unit, a switching field, a control device, an operator workstation unit, block sets of transit connections, block sets of connecting lines, block sets of transmission lines, block transmission apparatus, connecting lines to automatic and manual telephone long-distance communications.

 The well-known cordless telephone exchange provides inbound and outbound telephony over long-distance channels, establishes a connection between long-distance channels, and establishes a connection between long-distance channels and connecting or subscriber lines.

 The main disadvantage of the known manual telephone exchange is that in it all subscriber connections are provided manually through the station operator, as a result of which considerable time is spent on servicing applications and the station has low bandwidth.

 In addition, the known station does not provide protection against interception of information transmitted via communication channels.

 The aim of the invention is to increase the throughput of the station by reducing the duration of occupation of the serving devices of the station, the possibility of its operation both on tone frequency channels and on digital channels, ensuring the secrecy of the information transmitted through the channels.

 This goal is achieved by the fact that in the telephone exchange of operative communication, which contains a line input unit with subscriber and connecting lines connected to it, a subscriber line sets unit, a control device, a workstation unit, a channel set unit, the first inputs and outputs of which are connected to the outputs and inputs of the block of transit connections, the block of sets of connecting lines, the block of input channels with the connected channels of tone frequency, digital channels and transmission lines, the block of sets of trans supply lines, connected at the inputs and outputs with the channel input unit, while the first, second, third, fourth and fifth inputs and outputs of the control device are connected respectively to the control outputs and inputs of the set of subscriber line sets, workstation block, channel set block, block sets of connecting lines and block of sets of transmission lines, a block of subscribery cross-connects, a block of switching field and a block of service devices connected in series at the inputs and outputs, the second inputs and outputs which are connected to the outputs and inputs of the workstation unit, the information display unit, the differential system unit, the automatic speech-converting device unit, the interface unit, the channel switching unit, the group information encryption unit, the digital channel switching unit and the interaction signal unit, connected in series with the input and output , a tone-frequency signal conversion unit and an individual information encryption unit, while the inputs and outputs of the line input unit through the subscriber cross-connect unit are connected with the first inputs and outputs of the block of sets of subscriber lines, the second inputs and outputs of which are connected to the first inputs and outputs of the block of the switching field, the third, fourth and fifth inputs and outputs of which are connected to the third inputs and outputs of the block of channel sets, to the first inputs and outputs block of sets of connecting lines and block of differential systems, the second inputs and outputs of which are connected to the second inputs and outputs of the block of sets of connecting lines, the third inputs and outputs of which are connected to the third the odes and outputs of the subscriber cross unit, the control inputs and outputs of the switching field unit, the unit of service devices and the information display unit are connected respectively to the sixth, seventh and eighth outputs and inputs of the control device, the third, fourth and fifth inputs and outputs of the unit of service devices are connected to the fourth the inputs and outputs of the channel sets block, to the first inputs and outputs of the block of automatic speech-converting devices and the pairing unit, the second inputs and outputs of which are connected to the second and the inputs and outputs of the block of automatic speech-converting devices, the signal outputs of the switching field block, the workstation block and the channel sets block are connected to the inputs of the information display block, the inputs and outputs of the channel input block are connected to the first inputs and outputs of the channel switching block, the third and fourth inputs and the outputs of which are connected respectively to the analog and discrete inputs and outputs of the tonal frequency signal conversion unit, the second inputs and outputs of the interaction signal unit are connected inens with the second outputs and inputs of the channel sets block, the fifth input and output of which through the individual data encryption block is connected to the fifth input and output of the channel switching units, and the sixth inputs and outputs of the channel sets block are connected to the second inputs and outputs of the block sets of transfer lines, third the inputs and outputs of the digital channel switching unit through the channel input unit are connected to the inputs and outputs of the external digital channels.

 Comparative analysis with the prototype shows that the inventive telephone exchange for operational communications is characterized by the presence of new units: a subscriber unit, a unit of service devices, an information display unit, an automatic speech-converting device unit, an interface unit, a differential system unit, a tone frequency signal conversion unit, a channel switching unit , a group encryption information block, a digital channel switching block, an interaction signal block, an individual encryption block information, as well as their connections with the rest of the circuit.

 Thus, the claimed telephone exchange of operational communication meets the criteria of the invention of "novelty." Comparison of the proposed solution with other technical solutions shows that the blocks introduced into the proposed station are widely known [3, 4, 5].

 However, when they are introduced in the indicated connection with the rest of the circuit elements into the inventive telephone exchange of the operative communication system, the above blocks exhibit new properties, which leads to an increase in throughput by reducing the time required for servicing devices, and the possibility of its operation both on tonal frequency channels and digital channels with secrecy of information transmitted through the channels. This allows us to conclude that the technical solution meets the criterion of "significant differences".

 The drawing shows a structural electrical diagram of the proposed telephone exchange operational communications.

 The hotline telephone exchange contains a block 1 for inputting lines, a block 2 for a subscriber cross, a block 3 for sets of subscriber lines, a block 4 for a switching field, a block 5 for service devices, a control device 6, a block 7 for a workstation, a block 8 for displaying information, a block 9 for channel sets, block 10 transit connections, block 11 sets of connecting lines, block 12 differential systems, block 13 automatic speech-converting devices, block 14 pairing, block 15 input channels, block 16 switching channels, block 17 group encryption information unit 18 for switching digital channels, block 19 for interaction signals, block 20 for converting tone signals, block 21 for individual encryption of information, block 22 for sets of transmission lines, subscriber lines 23, trunk lines 24, tone channels 25, digital channels 26 and transmission line 27.

 Subscriber lines 23 through block 1 input lines and block 2 subscriber cross connected to the sets of block 3 subscriber sets. In this case, the conversational and calling circuits of each subscriber set of block 3 are connected to the first inputs and outputs of the switching field block 4, and the control inputs and outputs of block 3 are connected to the first outputs and inputs of the control device 6. Second inputs and outputs of the switching field block 4 through block 5 service devices are connected to the inputs and outputs of block 7 of the workplace, and the third, fourth and fifth inputs and outputs of block 4 of the switching field are connected respectively to the third inputs and outputs of block 9 of channel sets, to the inputs and outputs of block 11 sets of connecting lines and block 12 of differential systems, the second inputs and outputs of which are connected to the second inputs and outputs of block 11 of sets of connecting lines, the third inputs and outputs of which are connected to the third inputs and outputs of block 2 of the subscriber cross to which connecting lines 24 are also connected through the line input unit 1, and the signal outputs of the switching field unit 4 are connected to the inputs of the information display unit 8, to the other inputs of which the signal outputs of the unit are connected and 7 workplaces and block 9 channel sets, the first inputs and outputs of which are connected to the outputs and inputs of block 10 of the transit connections. The second inputs and outputs of block 9 of the channel sets are connected to the second outputs and inputs of block 19 of the interaction signals, to the first inputs and outputs of which are connected to channel 25 through block 18 for switching digital channels, block 17 for group encryption of information, block 16 for switching channels and block 15 for channel input tone frequency and digital 26 channels. The fifth input and output of the channel channel block 9 through the individual information encryption block 21 is connected to the fifth output and the input of the channel switching unit 16, the third input and output of which is connected to the analog output and the input of the tone-frequency signal converting unit 20, the discrete input and output of which is connected to the fourth output and input of the channel switching unit 16. The sixth inputs and outputs of the block 9 channel sets are connected to the second outputs and inputs of the block 22 sets of transfer lines, the first inputs and outputs of which through the block 15 input channels connected transfer 27 lines. The second, third, fourth, fifth, sixth, seventh and eighth inputs and outputs of the control device 6 are connected respectively to the control outputs and inputs of the unit 7 of the workstation, block 9 channel sets, block 11 sets of connecting lines, block 22 sets of transmission lines, block 4 switching field, block 5 serving devices and block 8 information display. The third, fourth and fifth inputs and outputs of the unit 5 serving devices are connected to the fourth inputs and outputs of the unit 9 channel sets, to the first inputs and outputs of the unit 13 of automatic speech-converting devices and the interface unit 14, the second inputs and outputs of which are connected to the second inputs and outputs of the unit 13 automatic speech-converting devices.

 The line input unit 1 includes connecting elements for connecting subscriber and connecting lines combined into common cables, at the other end of which subscriber units and similar stations or terminal devices for conducting telephone conversations and transmitting messages on these communication lines are turned on. It is designed for operational switching and distribution of connected lines on the input circuits of unit 2 of the subscriber cross.

 Block 2 of the subscriber cross contains switching elements and protection elements of the lines and maintenance personnel from dangerous voltages and short circuit currents. It is intended for operational switching of subscriber lines when they fail, monitoring and measuring parameters of connected lines.

 Block 3 sets of subscriber lines contains linear equipment designed to connect subscriber lines to the switching system of the station, matching them with the switching field, the control device and the serving devices. It includes subscriber kits (according to the number of connected subscriber lines) designed to receive a call from subscribers, take a marker and transmit information about the number of the calling subscriber to it, transmit a busy signal to the subscriber if the called line or connecting paths are busy in the search direction. The subscriber set may include individual call receivers for each subscriber, differential system, inductor call generator, signal level matching elements, switching elements for switching conversational and calling circuits, composing a conversation path in the process of establishing a connection and communicating between subscribers.

 Block 4 switching field contains switching devices of the stages of subscriber, group and register searches, which include subscriber and linear searchers. To build a switching field, reed relays, ferrides can be used, combined into various types of connectors, from which switching blocks with the required structural parameters are built, designed to connect linear sets to the servicing devices of block 5.

 Block 4 of the switching field can also be made in the form of switches of various capacities, built on the basis of a matrix coordinate connector or a rectangular matrix. At each switching point, for example, two three-wire polarized reed relay relays of the RES-44 type can be included as actuators. In this case, four wires are used for switching a four-wire spoken path, one wire for signaling and one for holding a switching point.

 The switching field of the station is general and constructed according to the multi-link principle, in which all subscriber sets, sets of connecting lines, inputs and outputs of sets of long-distance communication channels are included in link A, and all cord sets and registers in link B.

 Block 5 of the service devices contains registers and cord sets (HK) that perform the functions of creating a path for transmitting information, ensuring blocking of the created path for transmitting information, monitoring the end of communication and transmitting various kinds of signals informing the subscriber about the stages of his service by the switching system of the station.

 The registers provide: reception of dialing pulses and fixing the number of the called subscriber from the calling subscriber, converting it into a form convenient for the marker of the control device and corresponding to the system for calculating the contact field of switching devices and transmitting the converted address (number) to the marker. The structure of the register may include: a pulse receiver, a counting circuit, a pulse clamp and a transceiver for exchanging information between the register and the marker, as well as a control and fender device.

 The cord set (ШК) is designed to create in-station paths for transmitting telecommunication signals between the input and output of the switching system in the process of connecting subscriber, trunk lines and long-distance communication channels.

 The control device 6 contains markers for subscriber and group searches, as well as a memory unit. It provides control of the switching field in accordance with the recorded program and the processes of establishing a connection between subscribers, selecting the line and the mode of operation along it, bringing station elements to their original state at the end of negotiations. The control device 6 in the process of establishing a connection identifies the caller, issues commands to switch the caller line through the switching field of block 4 to the register of the block 5 of the servicing devices, and from the address information received from the register, it determines the path to establish the connection and issues executive commands for making the connection to switching field of block 4.

 A subscriber search marker may include a subscriber identity, a communication type identifier, an input type identifier, a number lock, a test device, a code transceiver, a subscriber line sample unit, multiple electromagnet connectors connectors electromagnet switching circuits, and sequence distributors.

 The group search marker contains an input identifier, a direction identifier, a test device, a code transceiver, and electromagnet inclusion circuits for multiple coordinate connectors.

 Block 7 of the workplace is intended for connecting terminal devices to subscriber, connecting, transmission lines and communication channels, making and receiving calls, as well as negotiating the established path. Block 7 contains a remote control equipped with keys and buttons for selecting linear sets and a COMMUNICATION button for issuing a control command to the control device 6 for connecting the selected input and output in the switching field of block 4, intercoms and ringing devices as part of a handset or handheld microphone with a transmission amplifier and a loudspeaker with an amplifier for receiving, a generator and call receivers, a dialer, with which the operator connects to the side of the channel or subscriber, conducts a survey of subscribers, provides calls call in the channels and communication lines, and also transmits information to the marker about the required connections.

 Block 7 of the workplace is connected to lines and communication channels through block 5 of service devices. When reaching the PBX subscribers, the subscriber number is dialed using the dialer on the remote control unit 7 of the workplace.

 The information display unit 8 is intended for visual monitoring of the status (free or busy, accident) of channels and lines, displaying data on the status of subscriber, connecting lines and communication channels, elements of the switching field and the operating mode of the station as a whole. It contains control boards, control circuits for LEDs and relays, schemes for receiving and storing decoded commands received from the output of control device 6, for transmitting data to the unit 6 on the progress of the connection establishment processes, as well as for receiving data from the output of unit 4 of the switching field, unit 7 of the working places and block 9 channel sets.

 Block 9 of channel sets contains sets of long-distance communication channels constructed according to the multi-wire principle and providing various functions for interacting with channel-forming equipment (blocks 17, 20 and 21), switching equipment (blocks 16 and 18) and block 10 of transit connections, and for operation on the automated long-distance communication channel, block 9 also includes an automation unit that generates the signals "Channel Occupation", "End" and transfer them to the communication channel.

 Block 10 transit connections is designed to interconnect the transmission and reception circuits of channels and coordination of signal levels in the formed conversational paths when establishing transit connections via long-distance communication channels.

 Block 11 sets of trunk lines (SL) includes (according to the number of lines) sets of trunk lines to the stations of the MB, Central Bank, and ATS systems. The circuit of sets of the Central Bank and the PBX differs from the MB set in the presence of an additional device for connecting the dialer and additional contact sockets for creating a circuit when making a call to the Central Station or the PBX.

 SL kits can be single or double acting, operating on two-wire, three-wire or four-wire connecting lines. Kits of connecting lines can work both in two-wire and in four-wire modes. Trunk stations are connected to trunk sets in two-wire mode from PBX and Central Bank stations, and in four-wire mode, lines from long-distance telephone exchanges are connected. The transition from four-wire to two-wire in the proposed station is provided using block 13 differential systems. When a call signal is received via any connecting line, the calling lamp on block 12 lights up and a tone signal is heard in the telephone of the remote control of block 7 of the workplace.

A trunk kit (SL) performs the following functions:
receives an occupation signal from the oncoming station;
provides connection to the register line through its circuit and broadcast pulses to the register;
carries out the sending and control of the call;
receives a response signal from the subscriber and provides power to the subscriber’s microphone;
receives a hang up signal;
transmits a busy signal to the oncoming station if the subscriber is busy.

 Block 12 of the differential systems contains differential systems and extension cords, allowing the transition from a four-wire path of a communication channel or four-wire trunk to a two-wire switching path. It is designed to interface switching equipment and regulate the levels of transmission and reception when establishing various types of connections.

 Block 13 automatic speech-converting devices contains vocoder or lipreder devices, including analog-to-digital and digital-to-analog signal converters, amplifiers and frequency filters, matching elements. It is designed to convert analog signals to digital form during voice transmission and reverse conversion on the reception of digital signals to analog form.

 The interface unit 14 is designed to convert speech and control signals with the aim of matching the outputs of the unit 13 of automatic speech-converting devices with subscriber sets of block 3 sets of subscriber lines and channel sets of block 9 according to signal levels and call system.

 The channel input unit 15 includes connecting elements for connecting tonal frequency channels, digital channels and transmission lines from similar stations integrated into common cables. It is intended for operational switching and distribution of connected channels and transmission lines along the input circuits of channel switching unit 16 and channel channel unit 9.

 The channel switching unit 16 performs the functions of a channel cross, on which channels are monitored and tested, their parameters are measured, and switching from the main to the backup channel when the main channel fails.

 Block 17 is intended for group encryption of information transmitted via long-distance communication channels in order to protect it from interception and hiding the content of transmitted messages. It contains a temporary compaction and decompression unit, a group encoder, a channel distributor, and matching devices.

 As such a unit, the confidential communication device described in [4] can be used, which contains the analyzer of the speech-converting device, the pseudo-random sequence generator, the cipher overlay unit, the linear unit (adder, digital-to-analog converter), and in the receiving path includes a linear block (low-pass filter, analog-to-digital converter), a pseudo-random sequence generator, a cipher removal unit, a speech-processing device synthesizer, as well as a block f frequency shaping.

 Block 18 switching digital channels is designed for switching and distribution formed by the block 17 channels, their control and testing, as well as for switching and distribution to consumers of external digital channels 26 received through block 15 input channels.

 Block 19 is intended for the exchange of interaction signals between the terminal devices of the telephone exchange when working on long-distance communication channels. It provides an analysis of interaction signals, subscriber numbers and commands for establishing the type of communication, transmitting and receiving signals from a channel, converting received interaction signals to appropriate commands, generating control signals based on the received information, and making a call to the subscriber through a block of 9 channel sets and block 4 switching field, and in the direction of the channel through the switching blocks 16, 18 and signal conversion blocks 17, 20.

 Block 19 of the interaction signals contains a translator, a generator and a receiver of interaction signals, an outgoing register, a transceiver that encode, decode, transmit and receive control signals and linear signals via long-distance communication channels. A double-acting translator can include a block of differential systems and extension cords, an outgoing communication unit, an incoming communication unit, a type of communication determinant, an interaction unit, and an alarm unit.

 Block 19 of interaction signals can also be made in the form of a device for interfacing hand-held telephone exchanges with automatic telephone exchanges via long-distance communication channels described in [5].

 Block 20 converting signals of a tonal frequency (PM) is designed to provide the station with standard channels of a tonal frequency when transmitting discrete signals using block 17, the input and output signals of which are digital. As such a block, a PM modem can be used at a transmission speed of 9600 bit / s of the type “Modem-9600”.

 Block 21 of individual information encryption is designed to protect against interception of telephone messages and other data transmitted through the communication channel. As such a block, the confidential communication device described in [4] can be used. Block 21, unlike block 17, incorporates an individual encoder instead of a group one.

 Block 22 sets of transmission lines is designed to expand the capacity of the station by combining part of the serviced subscribers of the interactive telephone exchanges of operational communications when working on long-distance communication channels.

An exchange telephone exchange provides the following types of connections:
1) internal connections via subscriber lines (local network subscribers);
2) outgoing connections via trunk lines (SL) from other stations;
3) incoming trunk connections from other stations;
4) outgoing, incoming and transit connections via long-distance communication channels;
5) encryption mode of information transmitted over long-distance channels.

The general procedure for establishing a connection is divided into two stages:
at the first stage, a call is received from a subscriber set or a set of trunk line (SL), finding and connecting the register to them to receive information;
at the second stage, the nature of the connection (internal or external), the employment test of the called subscriber set (AK) or the SL set, the selection and occupation of the cord set and the compilation of the conversation path are determined from the received information.

 The internal connection is made between the subscribers of the local communication network, i.e. between subscribers included in the same station. At the same time, depending on the type of lines and subscriber units used, the connection can be established automatically via subscriber lines connected to the PBX station and manually with subscribers of central office and MB system stations through the telephone exchange operator by connecting to the specified lines and servicing subscribers using the unit 7 remote control workplace.

 With an internal connection, the subscriber set receives a call from the subscriber and generates a request signal to the control device 6, which searches for a free register (Per) and an intermediate line available for both the subscriber set and the register. After connecting the register, the subscriber receives the signal "Station Response" ("OS") and can dial the number of the called subscriber. The process of establishing a connection is as follows.

 When the caller picks up the handset, the call signal from the telephone through the subscriber line 23, the line input unit 1 and the subscriber cross unit 2 enters the block 3 sets of subscriber lines. In block 3, the subscriber set captures the call and, through the subscriber search step of block 4 of the switching field, takes the marker of the control device 6 to service the connection, transfers information about the number of the calling subscriber to it. The marker identifies this number, searches for a free cord set (HQ) and an intermediate line between links A and B, through which the caller can be connected to this cord set. If there is no such free HQ, then the subscriber search marker is released after a certain time, and the subscriber receives a busy signal from his subscriber set. If a free HK is selected, then the AI marker turns on the switching points in links A and B, connecting the subscriber set with a free cord set, and turns it off. A register search marker (RI) is connected to the cord set, which selects a free register, connects it through the RI circuit to the selected cord set, and turns off. From the register circuit, the subscriber receives a station response signal (“OS”). This concludes the first step in establishing a connection.

 The second stage begins with fixing the first digit in the register and request the control device 6 to analyze this figure. If the number corresponds to the index of his station, then the request is canceled and the register records all other digits of the subscriber number. Then, the control device 6 is again requested and the received number is analyzed, as well as a busy sample of the required subscriber set, and if it is free, then the free and available at that moment cord set is searched for, and the intermediate line available is sampled from the selected cord set the called party.

 As a result of switching on the switching points, a conversational path is compiled, the register is turned off, a call is sent to the subscriber from the cord set, and a call sending control (CPV) is sent to the caller. The cord kit captures the response and holds the connection until it hangs up.

 The subscriber, upon hearing the "OS" signal, dials the number of the called subscriber, which is fixed by the register. The register after fixing the last digit of the full number through the register finder and cord kit takes the group search marker (MGI) and transmits information about the direction of the search into it. Having received this information, the GI marker performs a group search: it determines the required direction and tries the outputs in this direction for employment. If there are free outputs, the GI marker selects an intermediate line between links A and B, with which the calling input can be connected to the found output, turns on the corresponding switching points of links A and B and turns it off. If there are no free outputs in the required direction or a free and accessible intermediate line between links A and B, the GI marker is disabled and the caller receives a busy signal. Then, along the established path through the GI stage, the register takes the subscriber search marker and transmits information about the number of the called subscriber into it. Based on this information, the subscriber search marker determines the subscriber set, which includes the line of the called subscriber, and if the called subscriber is free, then selects the connection path of this subscriber set with the served input of the link C of the subscription search circuit. If there is such a path, the subscriber search marker gives the command to turn on the corresponding switching points of the switching field unit 4 to connect the calling subscriber to side A and the called subscriber to side B of the cord set of the service unit block 5 selected for connection. After creating the switching points, the marker is disabled, freeing up the register.

 The connection is further serviced from the cord kit, which, through blocks 4, 3, 2, and 1, sends an alternating current call to line 23 of the called subscriber, sends the tone “Call Control” (CVC) to the line of the calling subscriber, receives the signal answer from the called subscriber and puts his circuit into conversational state, provides power to the microphones of the telephone sets of both subscribers, creates in block 4 circuits of keeping two switching points in working condition, with the help of which the calling and calling Vai subscribers switched through via the subscriber stage Hunt unit 4 to the set of corded unit 5 receives a signal and performs disconnection rebound subscribers.

 The negotiation path is established along the chain: the subscriber line 23 of the caller, the block 1 line input, block 2 subscriber cross, block 3 sets of subscriber lines, block 4 switching fields, input (side A) and output (side B) of the cord set of block 5 serving devices and then through blocks 4, 3, 2 and 1 to the subscriber line 23 of the called subscriber. This concludes the second stage of establishing an internal connection.

 After the negotiations end, there is a hang up. If in the case under consideration the caller was the first to hang up, then after the line breaks, the activated cord set of unit 5 de-energizes the switching points in the switching field of unit 4 and is released. If the second subscriber has not put the handset on this point, then the signal “Busy” is sent to him from his subscriber set of unit 3.

 So the connection between the subscribers of the PBX system.

 Connection with a subscriber of the securities system is as follows.

 When the handset is removed by the subscriber of the central bank connected to the central bank set of unit 3, a loop is formed, a loop forms and the call lamp (LP) on block 3 lights up, the general call lamp (RL) and the acoustic signal on block 8 is turned on.

 To interrogate the subscriber, unit 7 of the workplace using spoken devices through the cord set of unit 5 of service devices and unit 4 of the switching field is connected to the set of central banks on unit 3. After polling the subscriber and receiving the order, the station operator selects linear kits using the buttons on the remote control of unit 7 of the workplace required subscribers and by pressing the COMMUNICATION button transmits to the control device 6 a command to establish a connection, by which the device 6 generates a control signal and transmits it to the switching unit 4 to connect conversational circuits of subscriber sets of the calling and called subscribers among themselves.

 The negotiation path is established along the chain: the subscriber line 23 of the caller, the block 1 line input, block 2 subscriber cross, block 3 sets of subscriber lines, block 4 switching fields, input (side A) and output (side B) of the cord set of block 5 serving devices and then through blocks 4, 3, 2 and 1 to the subscriber line 23 of the called subscriber.

 The subscriber of the Central Bank, ending the conversation, puts the handset on the telephone. At the same time, the bump lamp on the set of the central bank of the block of 3 sets of subscriber lines lights up, the switching points are disconnected and all elements of the station return to their original state.

 To send a ringtone to a subscriber who has forgotten to put the handset on, you must press the button to make a call (PV) on the remote control unit 7 of the workplace. A call tone sent to the subscriber is heard on the workstation's handset.

 The establishment of outgoing external communication via trunk lines to the oncoming exchange of a telephone exchange also takes place in two stages.

 With outgoing external communication, the connection of the caller’s line to the register is carried out in the same way as with the internal connection. In the second stage of the connection, the register, having fixed the dialed number, transmits to the group search marker a digit (or digits) that determines the direction of external communication. The group search marker determines the desired direction of search and selects one of the free connecting lines in this direction, then selects the switching points on links A and B and the intermediate line between them, includes the switching points, thereby connecting the cord set to the connecting line set of the desired direction. Further, the GI marker transmits to the register a signal about the order of its subsequent operation.

 If the oncoming station is of the same type, then there are two options for transferring the number, depending on the type of sets of trunks used. According to the first option, the transmission of the number does not differ from the previously considered method of interaction with the exchange of other systems with the disconnection of its register. According to the second option, the register records the entire number, including the numbers related to the establishment of the connection at the oncoming station, and after receiving the signal from it, transmits the information about the number with the high-speed code via the trunk directly to the group and subscriber search markers of the oncoming exchange.

 With incoming external communication, a set of SLs is engaged. Further, if the interaction is carried out according to the first option, then the register search marker connects the register to the set, which receives subsequent information about the number from the subscriber of the outgoing exchange.

 During the interaction of the same type of automatic telephone exchange according to the second variant, the occupation signal from the SL set goes directly to the GI marker. The register of the outgoing telephone exchange, having received the signal for connecting the group search marker, issues the corresponding parts of the number first to the GI marker, and then to the subscriber search marker of the incoming PBX. The further procedure for establishing a connection is similar to that considered for internal connection, with the only difference being that the set of the connecting line performs the functions of the cord set at the incoming station.

 Hang up at the station is one-way - from any subscriber. With any type of connection, the end signal is perceived by the cord kit (connecting line kit or channel kit), which opens the holding circuits of the electromagnets of the switching points in the search stages, and the connection is destroyed. All devices of the station are returned to their original state.

 Through long-distance communication channels, automatic and semi-automatic connections are provided, depending on the type of oncoming station connected to the channel.

 Outgoing automatic connection via long-distance communication channel.

 When the caller picks up the handset, his line is switched off through the subscriber search stage to a free cord set, with which a register is connected to the subscriber line. The subscriber dials the number of the desired station. Under the control of the marker, the group search stage ensures the subscriber line is connected to the translator of a free long-distance channel in the desired direction. When the oncoming station answers (second ready signal), the subscriber dials the subscriber number, which is transmitted through the translator to the devices of the incoming oncoming station.

 Incoming automatic connection. The occupation signal from the channel goes to the translator, to which the register is connected through the register finder. The caller is sent a station ready signal for dialing. The first two digits of the dialed number are accepted by the register. The first digit determines the need for establishing a terminal connection, and the second - the number of the switching unit of the subscriber search stage, which includes the called subscriber. Through the group search step, the output of the translator is switched to a free cord set. The register of the subscriber search stage is connected to the busy HQ, which receives through the translator information about the number of the called subscriber (the last two digits). Further, the AI marker, through the link of the subscriber search switching circuit, connects the cord set to the subscriber set of the called subscriber. When the called subscriber answers, the translator of the incoming station and the translator of the outgoing station are set into a talk state.

 When establishing an outgoing semi-automatic connection, the operator, using the remote control of unit 7 of the workstation, connects to the channel kit of unit 9 and tests for the occupancy of the channel into which the called subscriber is included in the oncoming station. If the channel is free, the operator dials the called number. The dialing pulses are received by block 9 and transmitted by block 19 through blocks 18, 17, 16, 20 and 15 to the tone frequency channel 25 and then the signals are sent to the oncoming station via the channel, where an incoming connection via the long-distance communication channel takes place.

 Incoming semi-automatic connection via long-distance communication channel.

 When an incoming connection is established, the signals from channel 25 through blocks 15, 16, 20, 17 and 18 are fed to the block 19 of the interaction signals. In block 19, when the translator is busy with the incoming connection from the receiver of interaction signals, the signal "Occupation" is received, the block occupies the group search stage register, from which the signal "Station response" is sent to the channel. At the same time, through the alarm unit, the compiler is blocked from other activities. The dialing pulses from the receiver go to the group search register. When you turn off the translator through the switching field of the group search stage, the spoken wires of the translator will be switched off in accordance with the type of connection and the conductivity of the subscriber line. Hang up is similar to hang up on an outgoing connection.

 With an incoming semi-automatic connection, a call from the communication channel is fixed on the channel set of block 9, which is directly assigned to this channel. In addition, the PR lamp lights up. CHALLENGE on the block 19 of the interaction signals, if the channel is enabled through the specified block. The operator connects to the channel using the remote control unit 7 of the workplace, polls the subscriber and, having received the order (number of the called subscriber), transmits information about the number of the called subscriber to the register of block 5 of the service devices. Next, the connection is established in the same way as with the internal connection of subscribers.

 Disconnection (release) during semi-automatic connections occurs in the usual way without operator intervention. The “Hang up” signal is transmitted to the channel and received from the communication channel automatically using the automation unit of the block of 9 channel sets.

 The transit connection in the station is between the long-distance communication channels in automatic and manual modes.

 Transit automatic connection. In transit connections, two translators of a block of 9 channel sets work. The incoming translator (the translator to which the call was received on the channel) works the same way as with an incoming connection. When the register receives the number that defines the transit connection, the group search marker connects through the switching circuit of block 4 of the switching field, block 5 and block 10 of the transit connections, the output of the incoming translator with the input of the outgoing translator of the free channel of the desired direction. When the incoming translator is connected to the outgoing one through a differential system and extension cords of the transit connection block 10, a four-wire transit circuit is formed. In the future, both translators work as with normal incoming and outgoing connections. Moreover, all control signals and linear signals, except for hang-up signals, pass through the transit station without affecting its devices.

 The establishment of a transit connection via long-distance communication channels in manual mode is carried out by the station operator using the remote control unit 7 of the workplace. Reception of a call signal, interrogation and connection of subscribers of the calling and called channels occurs in the same way as with the semi-automatic incoming and outgoing channel connections. The only difference is that the called and calling channels are connected through the block of transit connections 11, in which the differential system and extension cords are included in the connected conversational circuits to match the signal levels of the transmission and reception channels of the channels. Fulfilling the order, the station operator using the remote control unit 7 of the workstation is connected to the channel translator, which received the call-order, dials the number in the direction of the called subscriber and connects it to the channel through the group and subscriber search steps.

 The work of the station on digital communication channels is carried out using the block 13 automatic speech-converting devices (ARPU) and block 14 pairing. At the same time, in the negotiating tract, compiled in accordance with the considered operating modes for communication channels, in the section between the subscriber and cord sets, an automatic speech-converting device is turned on, which converts the analog signals into discrete ones, matches them using the pairing unit 14 and outputs digital signals through blocks 5, 9, 19, 18 and 15 to the input of the external digital channel 26. At the reception, digital signals coming from the output of the external channel 26 through blocks 15, 18, 19, 9, 5 and 14 per they are fed to the input of the ARPU of block 13, which converts them into analog signals and passes through the cord set of block 5 of service devices and block 4 of the switching field to the input of the subscriber set of block 3, and then these signals through block 2 of the subscriber cross, block 1 of line input and subscriber line 23 is received at the input of the telephone set of the subscriber.

 The encryption mode of information transmitted over long-distance communication channels is carried out by including blocks 17 and 21 in the compiled negotiation path. At the same time, the encrypted information (when using the block 17 of the group encryption of information) from the output of the channel of the tone frequency 25 enters through the blocks 15 and 16 to the third (analog input) of the block 20, is converted into a discrete form in it, and from the fourth (discrete) output it goes to one from the channel inputs of block 17, in which the cipher is removed. The decrypted information from the output of one of the channels of block 17 enters through blocks 18 and 19 to the channel set of block 9, in which ringing signals are received and control signals are generated. Further, the information in discrete form from the output of block 9 through blocks 5 and 14 is fed to the input of block 13 of automatic speech-converting devices, with which the station operator negotiates with the subscriber of the oncoming channel through a channel.

 When using the individual encryption unit 21, it is included in the tone channel 25 between the channel set unit 9 and the channel switching unit 16 through the channel input unit 15. The negotiation path goes along the following path: the tone channel 25 is transmitted through blocks 15 and 16 to the first input and output of the individual information encryption block 21, in which the cipher is removed, converted from the digital form to analog, and transmitted, using its own ARPU in analog form from the second input and output to the channel set of block 9 assigned to this block, in which ringing signals are received and control signals are generated. In the future, the processes of establishing a connection occur similarly to those discussed above when working on long-distance communication channels.

 The station provides for the establishment of connections with subscribers via transmission lines connected to a similar interacting station, with the provision of the above types and modes of operation via long-distance communication channels.

 At the same time, long-distance communication channels from a similar interacting station via transmission lines 27 through channel input unit 15 and transmission line sets block 22 are connected to certain channel sets of block 9 and can be used in the interests of subscribers of this station to provide communication on these channels. In this case, customer service is carried out by forwarding calls from one station to another and servicing them with the operator of the station in which the called subscribers are included. This helps to increase the capacity of the proposed station and expand the scope of its services.

 The technical efficiency of the proposed telephone exchange of operational communications is to increase the throughput achieved through the implementation of a combined service system in the station, in which some of the subscribers of the station (subscribers of the local network of the PBX system) are served by the fast system with automatic connection between them, the other part of subscribers included in the subscriber lines of the Central Bank system, MB and long-distance communication channels, it is served directly and through the station operator for immediate and to other systems while providing semi-automatic and automatic connection between the indicated subscribers, as well as by eliminating unproductive time spent on receiving information about the status of subscriber, connecting lines and communication channels, switching field actuators, calling circuits and voice paths for transmitting telephone messages. All this made it possible to reduce the average occupation time of servicing devices and, accordingly, increase the number of telephone requests served by the station, which leads to an increase in the throughput of the proposed telephone exchange for operational communications.

 Calculations showed that in the proposed station, the average occupancy time for serving devices is about 48-50 s, which is 1.5 times less compared to the prototype. It follows that the throughput of the station is approximately 35% higher than that of the prototype.

 In addition, at the station, due to the introduction of group and individual information encryption blocks, protection is provided against interception of telephone messages transmitted via communication channels, which expands the scope of the possible use of the proposed telephone exchange on special-purpose communication networks.

Sources of information
1. SU, copyright certificate 572942, cl. H 04 M 3/00, 1977.

 2. US patent 4016372, cl. H 04 M 1/72, NKI 179-99, 1977.

 3. Military switching systems and telephony. B.A. Gordienko, V.N. Filippov, L.P. Shcherbina. / Ed. B.A. Gordienko-YOU, 1984, p. 212-214 (prototype).

 4. RU, patent 2117401, cl. H 04 K 1/00, 1998.

 5. SU, copyright certificate 482920, cl. H 04 Q 3/04, 1975.

Claims (1)

 A hotline telephone exchange comprising a line input unit with subscriber and connecting lines connected to it, a subscriber line sets block, a control device, a workstation block, a channel sets block, the first inputs and outputs of which are connected to the outputs and inputs of the transit connection block, a sets block connecting lines, a channel input unit with tonal frequency channels connected to it, digital channels and transmission lines, a transmission line sets unit, connected at the inputs and the outputs with the channel input unit, while the first, second, third, fourth and fifth inputs and outputs of the control device are connected respectively to the control outputs and inputs of the block of subscriber line sets, the workstation block, the channel set block, the connecting line set block and the transfer set block lines, characterized in that a subscribery cross-section is introduced into it, a switching field block and a block of service devices connected at the inputs and outputs, the second inputs and outputs of which are connected to are identical with the outputs and inputs of the workstation block, the information display unit, the differential system block, the automatic speech-converting device block, the pairing unit, the channel switching unit, the group information encryption unit, the digital channel switching unit and the interaction signal unit, the unit conversion of tone frequency signals and an individual information encryption unit, while the inputs and outputs of the line input unit through the subscriber unit are connected to the first the inputs and outputs of the block of subscriber line sets, the second inputs and outputs of which are connected to the first inputs and outputs of the switching field block, the third, fourth and fifth inputs and outputs of which are connected to the third inputs and outputs of the block of channel sets, to the first inputs and outputs of the block of sets of connecting lines and block of differential systems, the second inputs and outputs of which are connected to the second inputs and outputs of the block sets of connecting lines, the third inputs and outputs of which are connected to third inputs and output subscriber unit, the control inputs and outputs of the switching field unit, the unit of service devices and the information display unit are connected respectively to the sixth, seventh and eighth outputs and inputs of the control device, the third, fourth and fifth inputs and outputs of the unit of service devices are connected to the fourth inputs and the outputs of the channel sets block, to the first inputs and outputs of the automatic speech-converting device block and the pairing unit, the second inputs and outputs of which are connected to the second inputs and you the strokes of the block of automatic speech-converting devices, the signal outputs of the switching field block, the workstation block and the channel sets block are connected to the inputs of the information display block, the inputs and outputs of the channel input block are connected to the first inputs and outputs of the channel switching block, the third and fourth inputs and outputs of which are connected respectively, to the analog and digital inputs and outputs of the tonal frequency signal conversion unit, the second inputs and outputs of the interaction signal block are connected to the second the outputs and inputs of the channel sets block, the fifth input and output of which through the individual information encryption block is connected to the fifth input and output of the channel switching block, and the sixth inputs and outputs of the channel sets block are connected to the second inputs and outputs of the block sets of transfer lines, the third inputs and the outputs of the block switching digital channels through the block input channels are connected to the inputs and outputs of external digital channels.