RU2490794C1 - Composite radio station - Google Patents

Abstract

FIELD: radio engineering, communication.SUBSTANCE: invention includes a channel and subscriber switching unit, a switching control unit, captain, officer and radio operator panels, a portable SW radio station, two portable VHF radio stations of different power, an antenna filter unit, an antenna switch, an on-board broadband antenna, an antenna control unit, a private communication device, an interface converter, a notebook computer, a navigation receiver, cable leads, a landline telephone switch, a telephone set switching unit, a distribution box, two telephone sets for encrypted communication, portable radio stations for dispatcher communication systems, including VHF radio stations, a telescopic mast, a mast broadband antenna, connecting lines, a remote linear shield, a subscriber line from an external automatic telephone station, wire lines for connecting different telephone sets, connecting lines and subscriber lines from an external switch for telephone encrypted communication.EFFECT: faster set-up and conducting communication, higher quality and number of communication services rendered.

Description

The invention relates to information and communication systems and can be used to provide radio communications for officials of the interregional management link of the Ministry of Emergency Situations of Russia in the parking lot and on the move, linked via wire lines to a fixed communication network of the Russian Emergencies Ministry and a public telephone network, as well as wired communication with elements of the communication center and control points of the operational group, rescue center when deploying the site on the ground.

Currently, separate radio stations KB and VHF frequency bands are used to provide officials with inter-regional management of the Russian Emergencies Ministry with radio communications. At the same time, to ensure that officials access to radio networks of different frequency ranges, it is necessary to have several radio stations with them, which leads to a significant investment of time for switching from one radio network to another, and significantly complicates operational radio communications in the interests of providing rescue operations in emergency situations [1, 2 , 3, 4].

A possible solution to this problem is the creation of a combined radio station, incorporating radio stations of various frequency ranges, terminal devices for conducting radio communications installed at the workplaces of officials, and switching devices that switch channels formed by KB and VHF radio stations to any of the workplaces. Such a combination of radio facilities in one facility will significantly increase the efficiency of establishing and maintaining communications by officials.

The aim of the invention is to increase the efficiency of establishing and maintaining communications, expanding the volume and quality of communication services provided to officials.

The essence of the invention lies in the fact that the combined radio station consists of a channel and subscriber switching unit (CCA unit), a switching control unit, a first commander console (PC1), a second commander console (PC2), an officer’s console, a radio operator’s remote, short-wave (KB) radio stations with a power of up to 100 W with an antenna, portable ultrashort-wave (VHF) radio stations with a power of up to 100 W, portable VHF radio stations with a power of up to 25 W, antenna filter unit, antenna switch, onboard wide-band antenna (WDA), control unit antennas, the first and second confidential communication devices, the C1-I interface converter to the RS-232 interface, an EC-1866 personal computer (PC), a TRITON navigation receiver with an antenna, a first cable input, a telephone wire switch communication unit, telephone switch unit (BPTA), junction box (RC) for connecting the SLT, the first and second SLTs for encrypted communication, the second cable entry, the first and second VHF portable radio stations of the Granite type with antennas, n (n≥6 ) wearable p Granit-type radio stations with a built-in antenna, telescopic mast for installing on it an antenna of VHF radio stations, mast SDA, trunk line (SL) for receiving external channels of PM, SL for receiving digital channels (CC), remote line shield (LS) for connection subscriber lines (AL) of wired communication, wire line for connecting a remote TA of the MB system, AL from an external automatic telephone exchange (PBX), the first and second wire lines for connecting a remote TA of the Central Bank system, SL from an external telephone switch, encrypted communication and AL from an external telephone encrypted telephone switch, while the inputs and outputs of the switching control unit are connected to the first inputs and outputs of the KKA unit, the second, third, fourth and fifth inputs and outputs of which are connected to the inputs and outputs of the first and second commander panels , the officer’s panel and the radio operator’s panel, the inputs and outputs of the transportable KB radio station at the junction of C1-PM are connected to the sixth inputs and outputs of the KKA unit, the seventh inputs and outputs of which at the junction of the C1-PM are connected to the first inputs and outputs of the transportable VHF radio station up to 100 W, the second inputs and outputs of which at the C1-I junction are connected to the eighth inputs and outputs of the KKA unit, the ninth inputs and outputs of which at the C1-I junction are connected to the first inputs and outputs of the transportable VHF radio station with a power of up to 25 W, the second inputs the outputs of which at the junction C1-I are connected to the tenth inputs and outputs of the KKA unit, the high-frequency input-output of the transportable KB radio station is connected to the high-frequency input-output of the antenna for the KB radio station, the control input-output of which is connected to the first input-output of the antenna control unit, second input the one output of which is connected to the control input-output of the onboard SDA for VHF radio stations, the high-frequency input-output of which is connected via an antenna switch to the high-frequency input-output of the antenna filter unit, the first and second inputs and outputs of which are connected to the high-frequency inputs and outputs of the transportable VHF radio stations with power up to 100 W and portable VHF radio stations with power up to 25 W, the third high-frequency input-output of the antenna switch is connected to the high-frequency input-output of the antenna via an antenna feeder cable input, the channel inputs and outputs of the first confidential communication device at the C1-PM interface are connected to the eleventh inputs and outputs of the KKA unit, the twelfth inputs and outputs of which are connected via the ten-wire interface to the first subscriber inputs and outputs of the first confidential communication device, the channel inputs and outputs the second confidential communication device at the C1-PM interface is connected to the thirteenth inputs and outputs of the KKA unit, the fourteenth inputs and outputs of which are connected to the first subscriber via a ten-wire interface the inputs and outputs of the second confidential communication device, the discrete inputs and outputs of which at the C1-I junction are connected to the first inputs and outputs of the junction converter, the second inputs and outputs of which at the RS-232 junction with the first inputs and outputs of the EC-1866 PC, the second inputs - the outputs of which at the RS-232 interface are connected to the channel inputs and outputs of the TRITON type navigation receiver, whose high-frequency input-output is connected to the antenna, the fifteenth inputs and outputs of the KKA unit are connected via multi-wire interface to the first station inputs and outputs the first cable input, the second station inputs-outputs of which are connected via a multi-wire junction to the first linear inputs and outputs of the wire telephone switch, the second line inputs and outputs of which are connected to the first inputs and outputs of the Republic of Kazakhstan to connect the TA, the second inputs and outputs of which are connected to the third station inputs and outputs of the first cable input, the fourth station inputs and outputs of which with the second subscriber inputs and outputs of the second confidential communication device, sixteenth inputs and outputs KKA unit are connected to the first inputs and outputs of the BPTA, the second and third inputs and outputs of which are connected respectively to the third inputs and outputs of the Republic of Kazakhstan and to the linear input-output of the first SLT for encrypted communication, the second subscriber inputs and outputs of the first confidential communication device are connected to the first station inputs and outputs of the second cable input, the second station inputs and outputs of which are connected to the third subscriber inputs and outputs of the second confidential communication device, the fourth subscriber inputs and outputs to of which along a ten-wire interface are connected to the third station inputs and outputs of the second cable input, the fourth station inputs and outputs of which are connected to the linear input and output of the second SLT for encrypted communication, the seventeenth inputs and outputs of the KKA unit are connected to the channel inputs and outputs of the first portable VHF radio station type "Granite", the high-frequency input-output of which is connected to the antenna, the eighteenth inputs and outputs of the KKA unit are connected to the channel inputs and outputs of the second portable VHF radio station, high-frequency the input-output of which is connected to the antenna, each of the n wearable VHF radio stations of the Granite type is connected over the air to the antennas of the first and / or second portable VHF radio stations of the Granite type, the high-frequency input-output of the mast antenna of the SDA mounted on the telescopic mast is connected with the first linear input-output of the first cable input, the second and third linear inputs and outputs of which are connected to the inputs and outputs respectively SL for receiving external channels PM and SL for receiving digital channels, remote LS for connecting AL wired connection connected to the fourth line inputs-outputs of the first cable input, the fifth line input-output of which is connected to a wire line for connecting an external SL of the MB system, the sixth linear input-output of the first cable input is connected to the AL from an external telephone exchange, the first and second wire lines for connection remote TA systems of the central bank are connected respectively to the first and second linear inputs and outputs of the second cable input, to the third and fourth linear inputs and outputs of which are connected respectively SL and AL from an external switch torus telephone encrypted communication.

When studying well-known technical solutions in this technical field, the totality of features that distinguish the claimed combined radio station was not detected. The proposed solution is significantly different from the currently known technical solutions.

Thus, the claimed combined radio station meets the criteria of the invention of "novelty." A comparison of the proposed solution with other technical solutions shows that the new set of features leads to an increase in the speed of establishing and maintaining communications, expanding the volume and quality of communication services provided to officials, and the proposed combined radio station provides for the deployment of a subscriber network of wired telephone communications (local telephone communications), long-distance telephone networks via PM and digital channels with automatic and semi-automatic connection establishment, service Noah radio telephone.

This allows us to conclude that the technical solution meets the criterion of "significant differences".

The claimed solution explicitly does not follow from the prior art and has an inventive step.

The inventive combined radio station can be implemented using existing apparatus and equipment, telecommunications and computer technology and is industrially applicable. Currently, an industrial design of a combined radio station has been manufactured, which has been tested and showed good results, which confirms the possibility of industrial implementation of the proposed radio station.

The drawing shows a structural electrical diagram of a combined radio station.

The combined radio station (KRS) contains block 1 for switching channels and subscribers (KKA block), block 2 for switching control, the first console 3 commanders (PK1), the second console 4 commanders (PK2), the console 5 officer (PO), remote 6 radio operator (PR ), transportable KB radio station 7 with power up to 100 W, antenna 8 for KB radio station, transportable VHF radio station 9 with power up to 100 W, transportable VHF radio station 10 with power up to 25 W, antenna filter unit 11 (BAF), antenna switch (KA) 12, onboard wide-band antenna (SDA) 13, the antenna control unit 14, the first 15 and second 16 devices to of private communications, a converter 17 of the C1-I joint to the RS-232 joint, a personal electronic computer (PC) 18 of the EC-1866 type, a TRITON navigation receiver 19 with an antenna 20, the first cable entry 21, a telephone switch 22 , block 23 switching telephone sets (BPTA), a junction box (PK) 24 for connecting telephone sets, a first telephone set (TA) 25 for encrypted communication, a second cable entry 26, a second TA 27 for conducting encrypted communication, the first portable VHF radio station 28 type "Granite" with antenna 29, the second transportable VHF radio station 30 of the Granite type with an antenna 31, n (n≥6) wearable VHF radio stations 32 (32 ₁ -32 _n ) of the Granite type with a built-in antenna, a telescopic mast 33 on which a wide-range mast is installed antenna 34 for VHF radio stations, mast wide antenna 34 (SDA), SL 35 for receiving external PM channels, SL 36 for receiving external digital channels, remote line shield (LS) 37 for connecting AL wire communication, wire line 38 for connecting remote TA MB, AL 39 systems from an external automatic body onnoy station (PBX), the first 40 and second 41 conductive lines for connection of the external CBA TA system 42 by telephone trunk encrypted communication external switch, AL 43 by an external switch telephone encrypted communication.

The inputs and outputs of the switching control unit 2 are connected to the first inputs and outputs of the KKA unit 1, the second, third, fourth and fifth inputs and outputs of which are connected to the inputs and outputs of the first 3 and second 4 commander’s panels, officer’s panel 5 and radio operator’s panel 6, the inputs and outputs of the transportable KB radio station 7 at the junction of C1-PM are connected to the sixth inputs and outputs of the CCA unit 1, the seventh inputs and outputs of which at the junction of the C1-PM are connected to the first inputs and outputs of the transportable VHF radio station 9 with a power of up to 100 W, the second inputs are the outputs of which at the junction C1-I are connected the eighth inputs and outputs of block 1 of the ACA, the ninth inputs and outputs of which at the junction of C1-PM are connected to the first inputs and outputs of the transportable VHF radio station 10 with a power of up to 25 W, the second inputs and outputs of which at the junction of C1-I are connected to the tenth inputs and outputs of the block 1 CCA.

A high-frequency input-output of a transportable KB radio station 7 with a power of up to 100 W is connected to a high-frequency input-output of an antenna 8 for a KB radio station, the control input-output of which is connected to the first input-output of the antenna control unit 14, the second input-output of which is connected to the control input the output of the onboard SDA 13 for VHF radio stations, the high-frequency input-output of which is connected through the antenna switch 12 to the high-frequency input-output of the antenna filter unit 11, the first and second input-outputs of which are connected to the high-frequency inputs to the ladies-outputs respectively of a transportable VHF radio station 9 with a power of up to 100 W and transportable VHF radio station 10 with a power of up to 25 W. The third high-frequency input-output of the antenna switch 12 through the antenna feeder is connected to the high-frequency input-output of the first cable entry 21.

The channel inputs and outputs of the first confidential communication device 15 at the interface C1-PM are connected to the eleventh inputs and outputs of the CCA unit 1, the twelfth inputs and outputs of which are connected via the ten-wire interface to the first subscriber inputs and outputs of the first confidential communication device 15, the channel inputs and outputs of the second confidential communication devices 16 at the C1-PM interface are connected to the thirteenth inputs and outputs of the ACA unit 1, the fourteenth inputs and outputs of which are connected via a ten-wire interface to the first subscriber inputs and outputs the second confidential communication device 16, the discrete inputs and outputs of which at the C1-I junction are connected to the first inputs and outputs of the junction converter 17, the second inputs and outputs of which at the RS-232 junction with the first inputs and outputs of an EC-1866 personal computer 18, the second inputs and outputs of which at the RS-232 interface are connected to the channel inputs and outputs of the TRITON navigation receiver 19, the high-frequency input-output of which is connected to the antenna 20.

The fifteenth inputs and outputs of block 1 of the ACA are connected via a multi-wire interface to the first station inputs and outputs of the first cable entry 21, the second station inputs and outputs of which are connected via a multi-wire interface to the first linear inputs and outputs of the telephone switch 22, the second linear inputs and outputs of which connected to the first inputs and outputs of the junction box 24 for connecting a TA, the second inputs and outputs of which are connected to the third station inputs and outputs of the first cable entry 21, the fourth communication inputs-outputs of which are connected to the second subscriber inputs-outputs of the second confidential communication device 16.

The sixteenth inputs and outputs of block 1 of the ACA are connected to the first inputs and outputs of the BPTA 23, the second and third inputs and outputs of which are connected respectively to the third inputs and outputs of the junction box 24 and to the linear input and output of the first TA 25 for encrypted telephone communication.

The second subscriber inputs and outputs of the first confidential communication device 15 are connected to the first station inputs and outputs of the second cable input 26, the second station inputs and outputs of which are connected to the third subscriber inputs and outputs of the second confidential communication device 16, the fourth subscriber inputs and outputs of which are connected via a ten-wire interface connected to the third station inputs and outputs of the second cable entry 26, the fourth station inputs and outputs of which are connected to the linear input-output of the second TA 27 d I conduct encrypted communication.

The seventeenth inputs and outputs of the CCA unit 1 are connected to the channel inputs and outputs of the first portable VHF radio station 28 of the Granite type, the high-frequency input-output of which is connected to the antenna 29. The eighteenth inputs and outputs of the CCA unit 1 are connected to the channel inputs and outputs of the second VHF radio station 30, the high-frequency input-output of which is connected to the antenna 31. Wearable VHF radio stations 32 (32 ₁ -32 _n ) of the Granite type are connected over the air with antennas 29 and / or 31 of the first 28 and / or second 30 transportable VHF radio stations of the Granite type ".

The high-frequency input-output of the mast antenna 34 of the SDA mounted on the telescopic mast 33 is connected to the first linear input-output of the first cable entry 21, the second and third linear inputs and outputs of which are connected to the input-outputs of SL 35, respectively, for receiving external channels of PM and SL 36 for receiving digital channels, a remote LSP 37 for connecting AL of wired communication is connected to the fourth line inputs-outputs of the first cable entry 21, the fifth linear input-output of which is connected to a wire line 38 for connecting the remote T And MB systems, the sixth linear input-output of the first cable entry is connected to AL 39 from an external telephone exchange.

The first 40 and second 41 wire lines for connecting the remote TA of the central bank system are connected respectively to the first and second line inputs and outputs of the second cable input 26, to the third and fourth line inputs and outputs of which are connected respectively SL 42 and AL 43 from an external telephone encrypted telephone switchboard .

Station equipment is located in a K4.5 350 box van on the chassis of a KamAZ-5350 all-terrain vehicle.

Block 1 of the KKA consists of control and signaling cells, subscriber switches, relay and electronic switches, a board of electronic keys for managing office communications and a communications blocking cell. Switching control is carried out using control commands generated by block 2.

The switching control unit 2 comprises a typesetting device consisting of push-button switches with indication elements, a central processor, indication and memory cells. At the same time, the choice of the subscriber, the type of equipment and radio station is carried out using the push-button switches of the dialer.

The central processor of block 2 performs a cyclic interrogation of the state of the push-button switches, generates control commands for block 1ККА in the ИРПС format, receives signals from the block 1 on switching the switches on and off in accordance with the control commands, and turns on the corresponding indicators on block 2.

The first 3 and second 4 commander’s consoles, officer’s console 5 and radio operator’s console 6 are subscriber units that provide telephone communications via KB and VHF radio stations, wire lines, internal telephone communications between themselves and with subscribers of remote telephone sets of the system MB (devices of type TA-88), circular and conferencing. At the same time, the indicated remotes provide signaling the busyness of radio stations and calling subscribers, adjusting the volume of the received signal.

The organization of channels for communication is carried out according to a custom-made system using block 1 KKA and block 2 control switching. Moreover, communication paths are provided by typing and transmitting control commands to the corresponding units and consoles with indication of the selected channel and the connection established through the channel or communication line.

The pairing of unit 1 of the spacecraft with radio equipment of cattle is carried out via the C1-PM and RS-232C interfaces. This enables the connection of radio stations 7, 9 and 10 via RS-232C and C1-PM interfaces, reception of a ringing signal on a C1-PM channel with a frequency of 1000 Hz and its conversion to an AVSKU format command for signaling a call on block 2 of the switching control, and with Confidential communication devices interact with the digital channels of radio stations 7, 9 and exchange information via the C1-FL interface at a speed of 1200, 2400, 4800, 9600 and 16000 bit / s.

The transported KB radio station 7 contains a transceiver, an antenna matching device, a KB modem and a whip antenna 8 of the ASh-4 type. When parking, it is also possible to use Dipole antennas to increase (up to 350 km) the range of KB radio communications.

Radio station 7 provides the formation of one simplex radio channel for operation in KB radio networks, two-way communication in the fixed-frequency mode with similar radio stations, and operation in noise-tolerant modes with the same type of radio station.

Radio station 7 is intended for the formation of one radio channel with single-band modulation. It provides a simplex or two-frequency simplex on one of eight pre-prepared channels, pseudo-random tuning of the operating frequency, automated adaptive radio communication in the frequency range from 1.5 to 30.0 MHz, scanning reception at eight pre-prepared frequencies, manual and automated recording of radio data, transmission and reception of a circular, address and tone call, standby reception, control from an external computer at the RS-232C interface and automated monitoring of the health of station elements.

When working in radio networks station 7 provides telephone communication in the open mode and with technical masking of speech with single-band modulation, a telegraph with frequency and amplitude manipulation, transmission of digital information at a speed of 1200 and / or 2400 bit / s.

The antenna of the 8 KB radio station is a 4-meter high ASH-4 type antenna designed to operate in the parking lot and in motion in the frequency range from 1.5 to 30 MHz. It can also be used to work with a surface wave in the frequency range from 30 to 108 MHz. The ASH-4 antenna can be used as a wide-range antenna of anti-aircraft radiation (SHAZI) when it is installed not vertically, but at an angle of 30 degrees to the horizontal using the antenna lifting mechanism (MPA), which is part of antenna 8, and antenna control unit 14.

To increase the range of KB radio communication, instead of antenna 8, a Dipole antenna can be used, which is deployed and installed on the roof of the cattle body on a telescopic mast, 11 m high, for parking in a spatial wave. At the same time, a balancing adapter is installed on the ASh-4 antenna shock absorber.

The transportable VHF radio station 9 is mounted on the chassis as part of a transceiver and power amplifier. A VHF radio transceiver 10 with a power of up to 25 W is also mounted on the same chassis. Both radio stations provide telephone communication in open mode, technical masking mode and frequency hopping / speaker mode. Radio station 9 or 10 is controlled from blocks 3, 4, 5 and 6, which are part of the automatic control system, as well as from the remote TA of the MB 38 system through blocks 24, 23 and block 1 of the ACA.

VHF radio station 9 also provides two-channel operation at different frequencies. The first radio channel is used to provide communication from one workplace in the radio network of a superior, and the second - to work on the network with subordinate units. In this case, the transceivers of the radio stations 9 and 10 operate on one antenna 13 through the block 11 of the antenna filters. When VHF radios operate on a single antenna, in order to avoid mutual influence, the operating frequencies must be selected in different parts of the range with a frequency spacing over the range of at least 10 percent of the selected frequencies.

There is a variant of providing signal retransmission in cattle in duplex mode. In this case, both radio stations 9 and 10 are used with switching using block 1 KKA and block 2 control switching.

In the mode with time division of channels, each of the transceivers of stations 9 and 10 can be used to increase the communication range between correspondents by switching it to the relay mode, for which, when entering radio data, any pair of five time channels is assigned. Any switching in the low-frequency and high-frequency paths of the radio stations 9 and 10 when switching between simplex, duplex and relay is not required.

When working on different antennas, VHF radio stations are switched using the antenna switch 12. In this case, VHF radio station 9 (with a power of up to 100 W) and VHF radio station 10 (with a power of up to 25 W) operate through an antenna filter unit 11 to antenna 13 or to a mast antenna 34 SDA connected to the antenna switch 12 through the connectors of the first cable entry 21.

Block 11 of the antenna filters is designed to ensure the joint operation of two transportable radios (VHF radios 9 and 10) on one common antenna 13 or mast antenna 34 SDA.

The principle of operation of block 11 is based on the use of low-pass and low-pass filters that have separate inputs from the side of radios 9 and 10 and a common input from the side of the antenna 13 through the antenna switch 12. Such switching reduces interference caused by transceivers of radios 9 and 10 to each other, in proportion to the attenuation introduced by the high-pass and low-pass filters in the delay band. In this case, the operating frequencies for each transceiver of radio stations 9 and 10 should be assigned in the passband of each of the filters.

Block 11 provides the ability to operate radio stations 9 and 10 in the frequency range from 30 to 108 MHz.

Antenna switch 12 contains a set of electronic relays and a switch, with the help of which the antennas 13 and 34 are connected to the high-frequency inputs-outputs of VHF radio stations 9 and 10. It is designed to switch high-frequency paths of VHF radio stations during radio communications.

The onboard wide-range antenna 13 is designed for installation on moving objects and provides communication in motion and in the parking lot. Antenna 13 belongs to the class of whip antennas and consists of a three-rod emitter mounted on a shock absorber. The antenna is mounted on the antenna lifting mechanism (MPA), which, in turn, is mounted on the base of a steel all-metal frame, the lower part of which is mounted directly on the roof of the cattle through a rubber gasket and is fixed with screws. The antenna 13 has a circular radiation pattern in the horizontal plane.

The antenna control unit 14 includes a control controller and an antenna lifting mechanism, by which the antennas 8 and 13 can be raised to a vertical position or lowered to a horizontal position when the cattle is in motion.

The first 15 and second 16 confidential communication devices are designed to encrypt information transmitted over radio channels and wire lines in order to hide the content of transmitted messages, protect against false information and intercept transmitted messages. Each of them contains a temporary compaction and decompression unit, an individual encoder, input and output matching devices. As such devices, the confidential communication device described in the patent of the Russian Federation No. 2117401 [5. RU, patent No. 2117401, class. H04K 1/00, 1998], which contains an analyzer of a speech-converting device, a pseudo-random sequence generator, a cipher block, a linear block (adder, digital-to-analog converter) in the information transmission path, and includes a linear block (low-pass filter, analog in the receiving path -digital converter), a pseudo-random sequence generator, a cipher removal unit, a speech-converting device synthesizer, as well as a frequency generating unit.

The converter 17 of the C1-I joint to the RS-232 joint is designed to match the signal levels of the second confidential communication device 16 and the EC-1866 type 18 PC during the transmission through the PC of the data coming from the output of the navigation receiver 19 via radio or wire communication channels.

On the basis of the personal computer 18, type EC-1866, the official workstation was made, which is a multifunctional terminal (a computer supplemented with hardware and software for navigation, communication and data transfer) and provides the official with the opportunity to use all the resources and services provided by the combined radio station. Structurally, the PC type 18 EC-1866 is a portable secure computer type "Notebook" mounted on a cushioning frame in order to prevent its movement when the cattle is in motion.

The workplace of an official on the basis of PC 18 also allows for internal communication with subscribers of all workplaces, telephone communication in the open mode and in the mode of masking information on radio and wire communication channels, as well as interaction with the navigation receiver to determine the location of a moving object (RED) .

Cattle navigation aids were made using a TRITON 19-type navigation receiver with an antenna 20, coupled at the RS-232 junction with an EC-1866 type 18 PC. Triton is a protected pocket industrial computer and is intended for use as a navigation device complete with a GPS or GLONASS / GPS navigation receiver and navigation system, as well as an individual means of collecting, processing and displaying information in the field: increased air humidity , rain and other parameters.

The navigation receiver 19 together with the antenna 20 is designed to determine the coordinates of the location and the directional (azimuthal) angle of the longitudinal axis of the moving object (cattle). The principle of operation of the receiver 19 is based on the integrated processing of information from the autonomous navigation system of the geomagnetic type and the receiver of the satellite navigation system GLONASS / GPS.

The receiver 19 provides at any point in the route of the movement of cattle the definition of the following basic parameters: flat rectangular (or geographic) coordinates of the location of the cattle, directional (magnetic) azimuth of the longitudinal axis of the product, angles of inclination in the longitudinal and transverse planes, speed and distance traveled, storage and storage coordinates of control points of the route of movement.

The navigation receiver 19 in combination with a PC 18 of the EC-1866 type provides visualization of an electronic map of the area, real-time display of graphic and digital information of the route and movement parameters, correction of the measured coordinates by matching the cattle path with the geometry of the roads encoded in a digital map database , information exchange with external devices via RS-232. The navigation receiver 19 receives data from a global satellite system GPS or GLONASS, which is designed for high-precision determination of the three position coordinates that make up the velocity and time vectors of various moving objects.

The antenna 20, which is part of the navigation receiver 19, is a whip antenna mounted on the car cab of a combined radio station.

The first 21 and second 26 cable entry blocks contain connecting and switching elements to which connecting lines from interacting objects and stations are connected using cable connectors. They are designed to distribute information and control circuits to apparatus and equipment, as well as devices and units installed in cattle. Structurally, the first 21 and second 26 cable entry blocks are made according to the same type in accordance with the industry standard, but differ in the number of connector blocks installed on the panels and in the wiring of pairs of connected communication cables.

Telephone wire switch 22 is a small capacity hand-held switch for 10 subscriber two-wire lines, at the other end of which are connected MB-type telephones of the TA-57 or TA-88 type. Switching is carried out by individual cords, with the connection of colloquial-calling devices of the telephone operator’s workplace using the interrogative-calling buttons. Making and receiving a call on the lines is carried out by alternating (inductor) current voltage of 50-80 V with a frequency of 25-50 Hz. Receiving a call is accompanied by an acoustic and light alarm. Negotiation is carried out using a handset. As switch 22, a small-capacity switch of the P-193M type can be used, the circuit and technical capabilities of which are described in [6].

Block 23 contains connection boards for four-wire and two-wire communication lines, a call receiving board, and a power supply device for microphone circuits of telephone sets of the Central Bank system. Block 2 is designed to generate interaction signals, including ringing signals, pressing the tangents and calling the subscriber, block 1 KKA with telephones connected to block 2, as well as to provide power to the microphone circuits of telephone sets of the Central Bank type P-170 [6] or P -171D, working on a four-wire communication line in duplex mode, and receiving a call.

BPTA 23 is a switching device designed for alternately switching and pairing the input-output of block 1 of the spacecraft with the inputs and outputs of RK 24 for connecting the SLT and the first SLT 25 for encrypted communication operating over a four-wire line, as well as for galvanic isolation of open telephone circuits communication conducted through a wired line 38 with the remote TA system MB, and encrypted communication carried out from the first TA 25.

Moreover, the joint use of blocks 1, 23, and 24 provides for receiving an inductor call from a TA, sending an inductor call to a TA, issuing a command to switch the transceiver from a telephone set of MB-type TA-88 through a two-wire line 38 from a cable of type P-274M up to 1000 m long radio stations 9 or 10 to transmit or receive when pressing (depressing) the tangents on the mentioned TA-88.

The second TA 27 (like the first TA 25) is a telephone system of the Central Bank system, for example, a TA of the type P-170 [6] or P-171D, operating on a four-wire communication line in duplex mode, through which encrypted communication via AL 43 is performed from an external telephone encrypted communications switch.

The transportable radio stations 28 and 30 are VHF radio stations with a power of 10 to 20 W and include a transceiver, an antenna of type AC-3, and a micro-telephone headset of type GM-6. They have several scanning modes, various call signal standards - CTCSS, DCS, DTMF, tone calling and memory for 100 channels.

The radio station is controlled from the front panel, on which various transceiver statuses are displayed on the indicators: channel number, transmission, reception, scanning, output power level, failure indication of the transceiver and antenna-feeder paths.

Mobile 28 type “Granit” radios with antenna 29 and 30 with antenna 31, as well as portable 32 type “Granite” radios with built-in antenna, are designed to organize an autonomous radio communication network between crew members and officials outside the cattle. At the same time, simplex radio communication is provided with the ability to conduct open and disguised telephone communication between crew members and other (up to six correspondents) officials who carry portable radio stations 32 with a built-in antenna.

The complex of radio stations “Granit” refers to the VHF equipment of dispatching radio communication systems and is intended for the organization of simplex and duplex communication in the frequency range 146-174 MHz. The complex’s radio stations provide communication of simplex radio stations of all types with each other, with subscribers of a production telephone exchange and through a radio station operating in relay mode [7].

Radio stations can also be controlled remotely over two pairs of wires of a standard telephone cable.

The general call of the required subscriber in the simplex network of complex radio stations is carried out by sending tonal frequency signals (1000 or 1450 Hz). When a call signal is received, the radio station automatically switches to loud-speaking reception for 5-10 seconds, during which you can call the subscriber by voice.

The transportable radio stations “Granit” 28 and 30, as well as the portable radio stations 32, are designed to provide official radiotelephone communications in the frequency range 146-174 MHz in the open mode in the parking and on the move.

The telescopic mast 33 is a mast up to 12 m high, consisting of seven sections made of duralumin tubes of various diameters. The use of such a mast, with a mast antenna 34 SDA installed on it, allows you to increase the range of VHF radio communications to 60 km when the cattle is parked.

The connecting lines 35, 36 and 42 are made using a field distribution multi-pair (multi-core) cable with a quadruple structure of the type P-269M-2 × 4 + 1 × 2.

Subscriber lines of wire communication, on the other end of which are included telephone sets of type TA-8 8 [6], connected to the remote LS 37, as well as AL 39 from an external telephone exchange, made using a two-wire field cable of type P-274M.

The first 40 and second 41 wire communication lines, at the second end of which are included telephone sets that have a tangent to control the operation of the radio station and operate on a four-wire communication line from a field cable P-269M-1 × 4 + 1 × 2, for example, type AT-3031 (ATS RG2.187.096 TU).

AL 43 from an external telephone encrypted telephone switchboard is made using a field cable of type P-269M-1 × 4 + 1 × 2,

The proposed combined radio station provides:

1) information exchange (open telephone, encrypted communication and data transfer) in one KB and two VHF radio networks (radio directions);

2) information exchange (open telephone, encrypted communication and data transfer) via the lines of a fixed communication network, public telephone network, as well as through channels formed by the hardware (stations) of the field communication node of the control center;

3) exchange of telephone information on a connecting and / or subscriber line from an external encrypted communication switch;

4) deployment of one line from an external telephone set of the MB system and providing open telephone communications from it;

5) the deployment of two lines from external telephones of the Central Bank system and providing with their help telephone encrypted communication;

6) deployment of a wire telephone network with a capacity of up to ten subscribers and servicing subscribers using a wire telephone switch;

7) the organization of a radio access network to ensure interaction between officials when leaving and finding them outside workstations equipped in a combined radio station using portable and portable VHF radio stations of the Granit type;

8) official radiotelephone communication in the open mode in the parking lot and in motion using VHF radio stations with a power of up to 25 W;

9) official telephone communication between crew members of the combined radio station in the parking lot and on the move using the commander, officer, and radio operator remote controls;

10) automatic determination by the GLONASS and / or GPS systems of the coordinates of the station’s location, components of the velocity vector, course (movement azimuth) and current time.

On the channel KB of the radio station 7 provides telephone and telegraph communications. Telephone communication can be both open and encrypted. In this case, open telephone communication can be conducted from any of the terminal devices: the first 3 and second 4 commander remotes, officer’s remotes 5 and radio operator’s remotes 6. The communication path is organized by order using the KKA block 1 together with block 2 and includes: consoles 3, 4, 5 or 6, block 1 and the channel of the radio station 7 with antenna 8. After the connection is established, the channel is transmitted to the corresponding console using the telephone handsets or headsets of which radio communication is conducted. When you press the tangent, the radio turns on the transmission, and when released, it goes into receive mode. At the end of the conversation, the end call is sent to the communication channel and the radio goes into standby mode.

Telegraph communication via KB radio channel is carried out using a telegraph key. For this, it is necessary to set the required type of work on the control panel of the radio station (amplitude telegraphy - AT, frequency telegraphy - ЧТ1, ЧТ2) with the “Mode” switch, connect the telegraph key and install it in the place of the radio operator, check the value of the set frequency on the radio station, put the radio station in mode transfer by pressing the tangent. Then carry out the transfer using a telegraph key. In this case, it is necessary to listen to the transmitted information in the phones. After that, put the radio in receive mode by releasing the tangent.

In cattle using VHF radio stations 9 and 10, telephone communications from all workstations are ensured using blocks 1, 2, 3, 4, 5, and 6, as well as using a micro-telephone headset, which is part of these stations and is directly connected to transceivers. In addition, the proposed cattle provides the ability to control radio stations from a remote telephone 38 of the MB system type TA-88 (RG2.180.021 TU).

The channel for conducting open telephone communication over the radio channel of stations 9 and 10 includes: transmission over the radio channel - block 3 (4, 5 or 6), block 1 KKA together with block 2, VHF radio station 9 (or 10), block 11 antenna filters, antenna switch 12 and onboard 13 SDA; reception - airborne 13 SDA, antenna switch 12, block 11 antenna filters, radio station 9 (or 10), block 1 KKA and then to the input of any of blocks 3, 4, 5 and 6.

Radio stations 9 or 10 from the remote TA system of the MB system are controlled by the path, including: remote TA-type TA-88, wire line 38 for connecting the remote TA of the MB system, the first cable entry 21, blocks 24, 23, block 1 of the ACA, input-output at the junction of C1-PM radio stations 7 with access to the antenna 8, VHF radio stations 9 or 10, then over the radio channel through blocks 11, 12 and antenna 13, which emits radio signals into the air. In this case, the call signal by inductor current from the remote TA of the MB system included in the wire line 38 through the first cable entry 21 and block 24, enters the block 23, which converts it into a tonal call to provide a call through the KB 7 channels of the radio station, VHF radio stations 9 or 10, and when receiving a call from a radio channel, block 23 converts the tone call into a call signal with inductor current, which from the output of block 1 of the ACA through blocks 23, 24 and the first cable input 21 through wire line 38 goes to the input of the remote TA system of the MB- type TA- 8 8.

Encrypted telephone communication over the public telephone network is provided using the second confidential communication device 16, which includes a built-in keypad for automatically dialing the number of the called subscriber and maintaining automatic telephone communication over the channels of the public network. The path for conducting such communication includes: a confidential communication device 16, a first cable entry 21 and then via AL 39 from an external telephone exchange to provide access to an automatic telephone exchange, which includes subscribers who have similar confidential communication devices.

Transmission of data via radio channels 7, 9 and 10 to the central governing bodies or to a higher control center, including data on the operational situation from the emergency response sites, data from an electronic map of the area, real-time graphical and digital information of the route and traffic parameters of cattle encoded in the digital map database, as well as data received using the navigation receiver 19, is carried out using a PC 18 and the navigation receiver 19 with the antenna 20. The path for transmitting information and data includes: a PC 18 of the type EC-1866, a junction converter 17, a second confidential communication device 16, a CCA unit 1, and then into the KB channel of a radio station 7, the signals of which are transmitted through the antenna 8 and transmitted to the input via the ether a similar KB radio station of a higher control center, from the output of the channel of which information and data are fed to the same type of PC. Data received using the navigation receiver 19 is recorded in the memory of the PC 18 type EC-1866 and, if necessary, can be transmitted to consumers in cattle and other subscribers.

With deployed cattle networks, encrypted telephone communication is provided through a custom-made system also via KB 7 and VHF (9 and 10) channels of radio stations from remote telephone sets of the AT-3031 type central bank via the first 40 and second 41 wire lines, respectively, through the first 15 and second 16 devices confidential communication. At the same time, the KRS operator (radio operator) carries out channel setting and communication with subscribers on the opposite side and transmits closed communication channels via the first 40 or second 41 wire lines to telephone sets of the central bank system of the AT-3031 type. Communication during the transmission of information is carried out by pressing the tangents on the mentioned devices of type AT-3031. In this case, when the tangent is pressed, the radio station is switched on for transmission, and when the tangent is released, the radio station enters the reception mode, the subscriber receives information on the telephone of the AT-3031 type handset. After the negotiations, the end call occurs automatically when laying the tube on the SLT. The negotiation path includes: remote TA, the first 40 or second 41 wire lines for connecting the remote TA of the central bank system, the second cable entry 26, the first 15 or second 16 of the confidential communication device, block 1 KKA, radio stations 7, 9 or 10, then communication channel output to the opposite station to the called party. When working on VHF channels of radio stations, the path after block 1 of KKA additionally includes radio stations 9 or 10, block 11 of antenna filters, antenna switch 12 and antenna 13, or through antenna switch 12, the first cable entry 21 leads to the mast wide-band antenna 34 mounted on telescopic mast 33.

Using the first 25 telephone set, telephone encrypted communication is provided via external communication channels (PM and digital channels) via four-wire trunk lines 35 and 36 in duplex mode along paths including: the first TA 25 through blocks 23, 1 and the first cable entry 21, then SL 35 for receiving external PM channels or SL 36 for receiving digital channels with access to channels formed by channelization means of nodal hardware communications of an interacting control center, including wired, radio relay and satellite channels tie.

Encrypted communication with the second TA 27 is provided through an external switch via AL 43 from an external telephone encrypted telephone switch along a path that includes: TA 27, a second cable entry 26, AL 43 from an external telephone encrypted telephone switch, and then the external switch operator connects the called party to the AL 43 of the caller, after which the subscriber talks behind the second TA 27 and the subscriber included in the external switch.

An autonomous radio access network is organized using portable radio stations 28, 30 and portable radio stations 32 of the Granite type to provide officials with radio communications when they are outside the cattle. Work in the radio network is based on the principles of cellular radio communication with the address call of correspondents in the radio network. In some cases, it is possible to access the network and conduct open telephone communications through the channels of transportable radio stations 28 and 30 from the radio operator 6 through block 1 of the ACA, provided that at the given time, through channel 1 of the ACA, encrypted communication is not being conducted through other channels.

Formation of wired communication channels.

When deploying a wireline telephone network, wireline ALs are connected to the RNC through a line shield 37 and a first cable entry 21 to the wireline telephone switch 22. In this case, the operator’s call behind switch 22 from the telephone of a TA-8 8 type subscriber connected at the other end of the wireline AL is made by sending a ring signal from the TA-88 inductor, which is received on switch 22 and the acoustic signaling on it is turned on. Using the handset of the switch 22, the operator negotiates with the wired subscriber. At the end of negotiations with the switch 22, the subscriber AL wire communication is sent a hang up.

From a subscriber line of wire communication, at the other end of which the MB system TA is turned on, it is possible to access VHF channels of radio stations 9 or 10 and carry out telephone communication through channels with remote control to turn on and off VHF radio stations for transmission. The communication path includes: MB system TA, wireline subscriber lines, line shield 37, first cable entry 21, wireline telephone switch 22, blocks 24, 23, block 1 KKA, radio stations 9 or 10.

Internal communication in cattle is provided using control unit 2, CCA unit 1, units 3, 4, 5 and 6 with selective calling of subscribers and in conference mode.

In the initial state (without pressing the buttons), block 1 of the CCA provides all subscribers of cattle with internal communication in the conference network.

To conduct selective communication, the official with other cattle subscribers must press the “BC” button (internal communication), the number of the corresponding block of the called party (3, 4, 5 and 6) and the “Call” button on block 2. At the end of the conversation, click the End call button.

Maintaining internal communication from the workplace of the radio operator (from the remote control 6 of the radio operator) is similar to maintaining internal communication from the workplace of the official (blocks 3, 4 and 5).

If the priority of the called subscriber is higher, then the “Busy” sound signal in the form of short beeps is sent to his phone and the corresponding indication on the remote control (unit) is carried out.

To maintain a circular internal communication of the official between the workplaces of cattle, it is necessary to press the button “CA” (circular communication) on the switching control unit 2 and hold it until the end of the circular communication session. When the “CA” button is pressed, its backlight turns on, and “Circular communication” appears on the screen of unit 2. In this case, block 1 KKA connects all subscribers of cattle in a circular communication network. Indication of conducting circular communication is displayed on all other consoles (AVSKU units) installed in the workplaces of cattle.

When you press the "CA" button, all the cattle subscribers return to their previous modes of operation. The indication on the consoles (blocks) will be replaced by the indication of the current operating mode.

Automatic determination by the GLONASS and / or GPS systems of the coordinates of the station’s location, components of the velocity vector, course (azimuth of movement) and current time, is carried out using the TRITON type navigation receiver 19 with antenna 20 and EC-1866 type 18 PC. In this case, the navigation receiver 19 with antenna 20 receives from the global GPS or GLONASS system and determines data including the following main parameters: flat rectangular (or geographical) coordinates of the location of cattle, directional (magnetic) azimuth of the longitudinal axis of the product, angles of inclination in the longitudinal and transverse planes , speed and distance traveled, as well as storing and storing the coordinates of the control points of the route of movement of cattle. The received data is transferred to the memory (database) of the PC 18 type EC-1866 for storage and delivery on demand to consumers.

The technical effect of the proposed combined radio station is to increase the efficiency of establishing and maintaining communications, expanding the volume and quality of communication services provided to officials. This is achieved through the joint use of channelization facilities, confidential communication devices, navigation aids, personal computers and switching equipment, which is part of the internal communication, switching and control equipment. Introduction to the composition of navigation tools, with the help of which the reception and constant updating of data (coordinates) about their location and the location of interacting objects is provided, allows you to speed up communication with radio networks, helps to increase the efficiency of communication and information exchange, as well as the quickest solution to liquidation tasks emergency situations in the field.

In addition, the collection of data in the proposed cattle through various channels (KB and VHF radio) and communication lines about an emergency in a large territory and concentrating them in one point also allows you to speed up the solution of the emergency response. This makes it possible to use the proposed cattle as a field dispatch center for the inter-regional management link of the Ministry of Emergencies of Russia, which in practice was confirmed in the process of testing a prototype of cattle.

The advantage of a combined radio station is the provision of information exchange on the KB channels of radio stations at a speed of 1200, 2400 bit / s, on VHF channels of radio stations at a speed of 4800, 9600 and 16000 bit / s when conducting encrypted telephone communications, as well as the presence of noise-protected operation mode (frequency hopping mode) and the ability to conduct telephone confidential communications over public telephone networks.

A prototype of the proposed combined radio station was manufactured according to the developed drawings (decimal number ATDG.461269.001 GP), which was tested. The results of tests of the proposed radio station confirmed the possibility of its commercialization and commissioning of the station on the communication networks of the Russian Emergencies Ministry.

Information sources

1. The radio station R-168-100KB (T). ITN. 464511.015-02. Manual.

2. The radio station R-168-100U-2. ITN. 464511.245-01. Manual.

3. The radio station R-168-25U-2. ITN. 464511.245-02. Manual.

4. The complex of technical means of mobile radio communications R-169. Prospectuses from the exhibition 2003. OJSC Ryazan Radio Plant (Russia, Ryazan, 11 Lermontov St.).

5. RU, patent No. 2117401, class. H04K 1/00, 1998.

6. Military switching systems and telephony. B.A. Gordienko, V.N. Filippov. Ed. B.A. Gordienko. - YOU, p. 62-70, 134-136, 1977.

7. Mobile radio communications equipment for the agro-industrial complex: Reference manual / I. M. Pyshkin, I. I. Dzhurny, V. M. Kuzmin and others; Ed. I.M. Pyshkina. - M .: Radio and communications, p.24-51, 1984.

Claims (1)

Combined radio station consisting of a channel and subscriber switching unit (CCA unit), a switching control unit, a first commander panel (PC1), a second commander panel (PC2), an officer panel, a radio operator panel, a transportable short-wave (KB) radio station with a power of up to 100 W s an antenna, a portable ultra-short-wave (VHF) radio station with a power of up to 100 W, a portable VHF radio station with a power of up to 25 W, an antenna filter unit, an antenna switch, an onboard wide-band antenna (WDA), an antenna control unit, the first and second devices and confidential communication, a C1-I interface converter to an RS-232 interface, a personal electronic computer (PC), which is a portable secure Notebook computer installed on a cushioning frame, of a navigation receiver, which is a secure handheld industrial computer, with antenna, the first cable entry, wire telephone switch, telephone switching unit (BPTA), junction box (RC) for connecting telephone sets (TA), the first and second telephones On-board devices (TA) for encrypted communication, second cable entry, first and second VHF portable radio stations of communication systems for organizing simplex and duplex communication in the frequency range 146-174 MHz with antennas, n (n≥6) portable radio stations of communication systems with a built-in antenna, telescopic mast for installing on it an antenna of VHF radio stations, mast SDA, connecting line (SL) for receiving external channels of tone frequency (PM), SL for receiving digital channels (CC), remote line shield (LS) for connection of subscriber lines (AL) of wire communication, wire line for connecting remote TA of the local battery system (MB), AL from external automatic telephone exchange (PBX), the first and second wire lines for connecting remote TA of the central battery system (CB), trunk from an external telephone encrypted communication switch and AL from an external telephone encrypted communication switch, while the inputs and outputs of the switching control unit are connected to the first inputs and outputs of the KKA unit, the second, third, fourth, and fifth inputs and outputs of which connected to the inputs and outputs of the first and second commander’s console, officer’s and radio operator’s panels, the inputs and outputs of the transportable KB radio station at the junction of C1-PM are connected to the sixth inputs and outputs of the KKA unit, the seventh inputs and outputs of which at the joint of C1-PM are connected to the first inputs and outputs of a transportable VHF radio station with a power of up to 100 W, the second inputs and outputs of which at the junction C1-I are connected to the eighth inputs and outputs of the KKA unit, the ninth inputs and outputs of which at the junction C1-HF are connected to the first inputs and outputs of a portable VHF radio power up to 25 W, the second inputs and outputs of which at the C1-I junction are connected to the tenth inputs and outputs of the KKA unit, the high-frequency input-output of the transportable KB radio station is connected to the high-frequency input-output of the antenna for the KB radio station, the control input-output of which is connected to the first input - the output of the antenna control unit, the second input-output of which is connected to the control input-output of the on-board SDA for VHF radio stations, the high-frequency input-output of which through the antenna switch is connected to the high-frequency input-output of the antenna filter unit, the first and second inputs and outputs of which are connected to high-frequency inputs and outputs of a transportable VHF radio station with a power of up to 100 W and a portable VHF radio station with a power of up to 25 W, the third high-frequency input-output of an antenna switch is connected to a high-frequency input-output of a first cable input by an antenna feeder, channel inputs-outputs of the first confidential communication device at the C1-PM interface are connected to the eleventh inputs and outputs of the KKA unit, the twelfth inputs and outputs of which are connected to the ten-wire interface with are dined with the first subscriber inputs / outputs of the first confidential communication device, channel inputs and outputs of the second confidential communication device at the C1-TCH interface are connected to the thirteenth inputs and outputs of the KKA unit, the fourteenth inputs and outputs of which are connected via a ten-wire interface to the first subscriber inputs and outputs of the second confidential communication devices, the discrete inputs and outputs of which at the C1-I junction are connected to the first inputs and outputs of the junction converter, the second inputs and outputs of which at the RS-232 junction with the first PC inputs and outputs, the second inputs and outputs of which at the RS-232 interface are connected to the channel inputs and outputs of the navigation receiver, the high-frequency input-output of which is connected to the antenna, the fifteenth inputs and outputs of the CCA unit are connected via multi-wire interface to the first station inputs and outputs of the first cable input, the second station inputs-outputs of which are connected via a multi-wire junction to the first linear inputs and outputs of a wire telephone switch, the second line inputs and outputs of which are connected to the first inputs RK odes-outputs for connecting a TA, the second inputs-outputs of which are connected to the third station inputs and outputs of the first cable input, the fourth station inputs and outputs of which are with the second subscriber inputs and outputs of the second confidential communication device, the sixteenth inputs and outputs of the KKA unit are connected to the first BPTA inputs-outputs, the second and third inputs and outputs of which are connected respectively to the third inputs and outputs of the Republic of Kazakhstan and to the linear input-output of the first SLT for encrypted communication, the second subscriber inputs are you the passages of the first confidential communication device are connected to the first station inputs and outputs of the second cable input, the second station inputs and outputs of which are connected to the third subscriber inputs and outputs of the second confidential communication device, the fourth subscriber inputs and outputs of which are connected to the third station inputs and outputs through a ten-wire junction the second cable entry, the fourth station inputs-outputs of which are connected to the linear input-output of the second SLT for encrypted communication, the fifth inputs and outputs of the KKA unit are connected to the channel inputs and outputs of the first transportable VHF radio station, the high-frequency input-output of which is connected to the antenna, the eighteenth inputs and outputs of the KKA unit are connected to the channel inputs and outputs of the second portable VHF radio station, the high-frequency input-output of which is connected to antenna, each of the n wearable VHF radio stations on the air is connected to the antennas of the first and / or second portable VHF radio stations of dispatch communication systems, a high-frequency input-output mast mast, mounted on a telescopic the mast is connected to the first linear input-output of the first cable input, the second and third linear inputs-outputs of which are connected to the input-outputs respectively SL for receiving external channels PM and SL for receiving digital channels, remote LS for connecting AL wire connection is connected to the fourth linear inputs and outputs of the first cable input, the fifth linear input-output of which is connected to a wire line for connecting an external SL of the MB system, the sixth linear input-output of the first cable input is connected to the AL from an external telephone exchange, the first and second wire lines for connecting the remote TA of the central bank system are connected respectively to the first and second line inputs and outputs of the second cable input, to the third and fourth line inputs and outputs of which are connected respectively SL and AL from an external telephone encrypted telephone switchboard.

Images