RU2632802C1 - Low-channel radio relay station - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: invention can be used for the organization of low-channel communication lines, branching of channels from trunk communication lines and remote control of HF and VHF radio stations. The low-channel radio relay station comprises a metre-band antenna, a metre-band transducer unit (MBTU) of waves, consisting of a feedthrough-power metre, a frequency isolation (FI) reception filter, a high-frequency amplifier (HFA), a local oscillator frequency synthesiser (LOFS), the first intermediate frequency amplifier (IFA1), the second intermediate frequency amplifier (IFA2), a frequency detector, a power amplifier and a frequency isolation filter, a switching panel, a monitoring and control unit (MCU) consisting of a matching unit, a group reception amplifier, a reception pilot-signal subunit, a transmission pilot-signal subunit, an extension block and a balance-to-unbalance transformer, a channel multiplexer, an exciter frequency synthesizer.

EFFECT: extension of the station's frequency range.

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Description

The invention relates to techniques for radio relay communication and can be used to organize small-channel communication lines, branch channels from communication lines and remote control of HF and VHF radio stations.

At present, radio relay communication is becoming more widespread in communication systems of various ministries and departments. At the same time, multichannel radio relay stations (RRS) are used to organize trunk lines of microwave links. The use of such RRS in certain areas of communication and for branching channels from trunk communication lines is impractical due to their unprofitability, cumbersomeness and high cost. For these purposes, low-channel radio relay stations can be used.

The objective of the invention is the creation of a small-sized small-channel radio relay station, providing the formation of several channels of telephone and telegraph communications, data transfer, as well as work in the meter and decimeter wavelengths.

The aim of the invention is to expand the frequency range of the station and reduce its overall dimensions, which allow you to place the station equipment in a vehicle with a limited volume and low carrying capacity.

This goal is achieved in that the low-channel radio relay station consists of an antenna of a meter wavelength range, a meter-range transceiver unit (PMT), which includes a series-connected meter of transmitted power, the input-output of which is connected to the input-output of a meter-long antenna, a frequency decoupling filter ( PD) reception, high frequency amplifier (UHF), first intermediate frequency amplifier (UPCH1), second intermediate frequency amplifier (UPCH2) and frequency detector, local oscillator frequency synthesizer a (MFG), the output of which is connected to the second input of the UHF, a serially connected power amplifier and a PD transmission filter, the output of which is connected to the second input of the passing power meter, the switching panel, the control and control unit (BCC), which includes the matching unit , a group reception amplifier and a reception pilot subunit, series-connected transmission pilot subunit, an extension unit and a balancing transformer, the output of which is connected to the first input of the remote control A driver, the first output of which is connected to the input of the matching unit, the output of the frequency detector is connected to the second input of the control panel, a channel compaction unit, the input of which is connected to the first output of the pilot sub-block of the control and control unit, the first input of the transmission pilot sub-block of which is connected with the output of the channel sealing block, the frequency synthesizer of the pathogen, which includes a decade switch connected in series, a conversion device, a control device, a phase detector and a tunable frequency-modulated generator (FMG), as well as a reference frequency generator, the output of which is connected to the second input of the phase detector, the second input of the tunable FMG is connected to the second output of the switching console, and the first output of the tunable FMG is connected to the input of the power amplifier of the meter transceiver unit waves, decimeter wave antennas, decimeter wave band transceiver unit, including a series-connected meter of transmitted power, input-output which is connected to the input / output of the decimeter range antenna, a PD PD filter, a high-frequency amplifier, a first intermediate frequency amplifier, a second intermediate frequency amplifier and a frequency detector, the output of which is connected to the third input of the switching console, as well as a series frequency synthesizer and a frequency multiplier reception, the output of which is connected to the second input of the UHF, series-connected transmission frequency multiplier, the input of which is connected to the second output of the FMG synthesizer you are an exciter, a power amplifier, and a PD transmission filter, the output of which is connected to the second input of the passing power meter, line input unit, to the first, second, and third linear inputs and outputs of which the inputs and outputs of the connecting lines (SL) are connected for issuing / receiving telephone channels, trunk lines for issuing / receiving telegraph channels and trunk lines for receiving / issuing channels of data transmission equipment (ADF), while the first, second, third and fourth inputs and outputs of said channel compaction unit are connected respectively to the first, second, third and fourth station inputs / outputs of the line input unit, the input of which is connected to the second output of the pilot signal receiving subunit of the control and control unit (BCC), and the output of the line input unit is connected to the second input of the transmission pilot signal subunit of the control unit and management.

This goal is also achieved by the fact that the channel compaction unit comprises a device for addition and separation (USR) of receiving channels, a telephone channel unit, consisting of a series-connected channel receiving filter of the first telephone channel, a first balancing transformer of the first telephone channel, an amplifier of the first telephone channel and a second balancing transformer of the first telephone channel, series-connected differential system unit (DS) and channel transmission filter of the first telephone channel, a second telephone channel reception filter, a second telephone channel demodulator, a second telephone channel low pass filter (LPF), a second telephone channel amplifier and a second telephone channel balancing transformer, a second telephone channel modulator and a second telephone channel filter , channel switching unit, series-connected group transmission amplifier and USR transmission channels, telegraph channel unit fishing, consisting of a channel filter for receiving the first telegraph channel, a demodulator of the first telegraph channel, an electronic relay of the first telegraph channel and a low-pass filter of the first telegraph channel, a series-connected block of converting devices (BPU) for transmitting the first telegraph channel, a telegraph modulator and a channel filter for transmitting the first telegraph channel, series-connected channel filter receiving the second telegraph channel, the demodulator of the second telegraph channel, e a cathodic relay of the second telegraph channel and a low-frequency filter of the second telegraph channel, a transmission unit of the second telegraph channel and a channel transmission filter of the second telegraph channel, the input of which is connected to the second output of the telegraph modulator, the second input of which is connected to the output of the transmission unit of the second telegraph channel, the first output USR of the receiving channels is connected to the inputs of the channel receiving filter of the first telephone channel and the channel receiving filter of the second telephone channel, and the outputs of the channel fil Three transmissions of the first telephone channel and the channel transmission filter of the second telephone channel are connected to the first input of the group transmission amplifier, the second input of which is connected to the outputs of the channel transmission filter of the first telegraph channel and the channel transmission filter of the second telegraph channel, the first and second inputs of the channel switching unit are connected to the outputs respectively, the second balancing transformer of the first telephone channel and the balancing transformer of the second telephone channel, and the first The outputs of the channel switching unit are connected to the inputs of the differential system unit and the balancing transformer of the second telephone channel of the telephone channel unit, the third and fourth inputs of the channel switching unit are connected to the outputs of the low-pass filter of the first telegraph channel and the low-frequency filter of the second telegraph channel, and the third and the fourth outputs of the channel switching unit are connected to the inputs of the transmission control unit of the first telegraph channel and the transmission unit of the second telegraph channel a block of telegraph channels, while the input of the SSR of the reception channels and the output of the SSR of the transmission channels are the second input and second output of the channel compression unit, and the first, second, third and fourth inputs and outputs of the channel switching unit are the first, second, third and fourth, respectively the inputs and outputs of the channel compaction unit, to which the first, second, third and fourth station inputs and outputs of the line input unit are respectively connected.

The search in the patent and technical literature did not reveal analogues in the totality of features and technical solutions of the proposed low-channel radio relay station. Thus, the claimed low-channel radio relay station meets the criteria of the invention of “novelty”, and the proposed structural diagram of the station allows for the formation of two telephone and two telegraph communication channels in two wave bands - meter and decimeter, transmitting telephone and telegraph information along with data from required communication quality and time parameters for information transfer. This allows us to conclude that the technical solution meets the criterion of "significant differences".

This decision on a small-channel radio relay station does not explicitly follow from the prior art and has an inventive step. In addition, it is industrially applicable, which is confirmed by the development of documentation and the manufacture of a prototype radio relay station, in which the technical solutions of the invention are implemented. Such a radio relay station is especially widely used in mobile objects operating in the field for organizing small-channel radio relay communication directions, for linking mobile objects to trunk communication lines, and for remote control of medium-power radio stations operating also in the field.

In FIG. 1 shows a structural electrical diagram of a small-channel radio relay station, and in FIG. 2 shows a structural electrical diagram of a channel sealing unit.

A small-channel radio relay station contains (Fig. 1) an antenna of 1 meter band, a block 2 of a meter transceiver (PMM) of waves, consisting of a transmitter 3 of transmitted power, a filter 4 of a frequency decoupling (PD) receiver, an amplifier 5 of a high frequency (UHF), synthesizer 6 the local oscillator frequency (SCH), the amplifier 7 of the first intermediate frequency (UPCH1), the amplifier 8 of the second intermediate frequency (UPCH2), the frequency detector 9, the amplifier 10 of the power and the filter 11 of the frequency isolation of the transmission, the remote control 12 switching, control unit 13 (BKU) consisting from the matching unit 14, the reception group amplifier 15, the reception pilot subunit 16, the transmission pilot subunit 17, the extension unit 18 and the balancing transformer 19, the channel compaction unit 20, the exciter frequency synthesizer 21, consisting of a decade switch 22, the device 23 transformations, control devices 24, a phase detector 25, a tunable frequency-modulated generator (FMG) 26 and a reference frequency generator 27, a decimeter range antenna 28, a decimeter range transceiver unit 29 (PDD) waves, consisting of a meter 30 for transmitted power, a filter 31 for PD reception, an amplifier 32 for a high frequency, a synthesizer 33 for the frequency of the local oscillator, a multiplier 34 for a reception frequency, an amplifier 35 for a first intermediate frequency, an amplifier 36 for a second intermediate frequency (UPCH2), a frequency detector 37, a multiplier 38 transmission frequency, power amplifier 39 and PD filter 40, line input unit 41, trunk lines (SL) 42 for issuing / receiving telephone channels, trunk 43 for issuing / receiving telegraph channels and trunk 44 for receiving / issuing channels of data transmission equipment ( PD).

The input-output of an antenna of 1 meter band is connected to the input-output of a passing power meter 3, the output of which is connected to the input of a series-connected filter 4 of the frequency decoupling of the reception unit 2 of the meter-range transceiver (PPMD), the output of which is through a series-connected UHF 5, amplifier 7 of the first intermediate frequency (IF1), amplifier 8 IF2 and frequency detector 9 with the first input of the switching console 12, the output of the local oscillator frequency synthesizer 6 is connected to the second input of the high-frequency amplifier 5, and the amplifier output 10 power unit 2 through the filter 11 PD transmission is connected to the input of the meter 3 passing power.

The first output of the switching console 12 is connected to the input of the matching unit 14 of the monitoring and control unit 13, the output of which through a group receiving amplifier 15 is connected to the input of the reception pilot subunit 16, the first output of which is connected to the input of the channel sealing unit 20, the output of which connected to the input of the sub-block 17 of the transmission pilot signal of block 13, the output of which through the extension block 18 is connected to the input of the balancing transformer 19, the output of which is connected to the second input of the switching console 12.

The output of the decade switch 22 of the frequency synthesizer 21 is connected to the input of the conversion device 23, the output of which is connected to the control device 24, the output of which is connected to the first input of the phase detector 25, the second input of which is connected to the output of the reference frequency generator 27, the output of the phase detector 25 is connected to the first input of the tunable frequency-modulated generator (FMG) 26, the second input of which is connected to the second output of the remote control 12, the output of the tunable FMG 26 of the synthesizer 21 frequency Ithel connected to the input of the amplifier 10, the power unit 2 PPMD.

The input / output of the decimeter wave antenna 28 is connected to the input / output of the transmitting power meter 30 of the decimeter wave transceiver (PDD) unit 29, the output of which is through a series-connected filter 31 of the PD receiver, an RF amplifier 32, the second input of which is connected to the output of the frequency multiplier 34, the input of which is connected to the output of the local oscillator frequency synthesizer 33, the first IF amplifier 35 and the second IF amplifier 36 are connected to the input of the frequency detector 37, the output of which is connected to the third input of the switching console 12.

The second output of the FMG 26 of the synthesizer 21 of the exciter frequency is connected to the input of the frequency multiplier 38 of the block of the PDDD waves 29, the output of which through the power amplifier 39 and the PD filter 40 is connected to the second input of the meter 30 of the passing power of the unit 29 PDDD.

The first, second, third and fourth inputs and outputs of the channel compaction unit 20 are connected respectively to the first, second, third and fourth station inputs and outputs of the line input unit 41, to the first, second and third linear inputs and outputs of which the inputs and outputs of the SL 42 are connected for issuing / receiving telephone channels, SL 43 for issuing / receiving telegraph channels and SL 44 for receiving / issuing channels from external data transmission equipment (ADF). The second output of the reception pilot subunit 16 of the monitoring and control unit 13 is connected to the input of the line input unit 41, the output of which is connected to the second input of the transmission pilot subunit 17 of the monitoring and control unit 13.

Block 20 channel compaction contains (Fig. 2) a device 45 for adding and separating (USR) receiving channels, a block 46 for telephone channels, consisting of a channel filter 47 for receiving a first channel, a first balancing transformer 48 of the first channel, an amplifier 49 for the first channel, and a second balancing transformer 50 of the first channel, block 51 of the differential system (DS), channel filter 52 for transmitting the first channel, channel filter 53 for receiving the second channel, demodulator 54 of the second channel, low-pass filter 55 of the second channel, amplifier 56 second about the channel, the balancing transformer 57 of the second channel, the modulator 58 of the second channel and the channel filter 59 of the second channel, the channel switching unit 60, the group transmission amplifier 61, the USR 62 transmission channels, the telegraph channel unit 63, consisting of the channel filter 64 for receiving the first telegraph channel, demodulator 65 of the first telegraph channel, electronic relay 66 of the first telegraph channel, low-pass filter 67 of the first telegraph channel, block 68 of the converting device for transmitting the first telegraph channel, telegraph modulator 69, can the filter ceiling elements 70 transmit the first telegraph channel, channel filter 71 receiving the second channel CW, CW demodulator 72 of the second channel, the second electronic switch 73 telegraph channel, the second LPF 74 telegraph channel block 75 of the second conversion devices telegraph channel and channel transmit filter 76.

The first output of the device for adding and separating the receiving channels of the channel sealing unit 20 is connected to the input of the channel filter 53 for receiving the second telephone channel and to the input of the channel filter 47 for receiving the first telephone channel of the telephone channel block 46, the output of which is through the first balancing transformer 48 of the first telephone channel, an amplifier 49 of the first telephone channel and the second balancing transformer 50 of the first telephone channel is connected to the first input of the channel switching unit 60, the first output of which is through the unit 51 of the differential system and channel transmission filter 52 of the first telephone channel is connected to the first input of the group transmission amplifier 61. The output of the channel filter 53 of the receiving unit 46 of the telephone channels through the demodulator 54 of the second telephone channel, the low-pass filter 55 of the second telephone channel, the amplifier 56 of the second telephone channel and the balancing transformer 57 of the second telephone channel are connected to the second input of the channel switching unit 60, the second output of which is through the modulator 58 of the second telephone channel and the channel filter 59 of the second telephone channel is connected to the output of the channel filter 52 of the transmission of the first telephone channel.

The second output of the device for adding and separating the receiving channels of the channel sealing unit 20 is connected to the inputs of the channel filter 71 for receiving the second telegraph channel and the channel filter 64 for receiving the first telegraph channel of the telegraph channel unit 63, the output of which is through the demodulator 65 of the first telegraph channel, the electronic relay 66 of the first telegraph channel and a low-pass filter 67 is connected to the third input of the channel switching unit 60, the third output of which is connected to the input of the block 68 of the transmitting converter of the first a telegraph channel, the output of which is through a telegraph modulator 69 and a channel transmission filter 70 of the first telegraph channel connected to the second input of the group transmission amplifier 61. The output of the channel filter 71 of the transmission of the second telegraph channel through the demodulator 72 of the second telegraph channel, the electronic relay 73 of the second telegraph channel and the low-pass filter 74 of the second telegraph channel is connected to the fourth input of the channel switching unit 60, the fourth output of which is connected to the input of the transmission unit 75 of the second telegraph channel the output of which through the telegraph modulator 69 and the channel filter 76 for transmitting the second telegraph channel is connected to the output of the channel filter 70 for transmitting the first telegraph channel . The input USR 45 channels of reception and the output SSR 62 transmission channels are respectively the second input and second output of block 20 channel multiplexing, and the first, second, third and fourth inputs and outputs of block 60 channel switching are respectively the first, second, third and fourth inputs - the outputs of the channel compaction unit 20, to which the first, second, third and fourth station inputs / outputs of the line input unit 41 are connected, respectively.

The work of a small-channel radio relay station is as follows.

At the reception, the RF signal received by the antenna is fed to the input of the meter transceiver of the meter band of block 2 or the transceiver of the decimeter wave band of block 29.

When the transceiver of the meter range of unit 2 is turned on, the signal through the measuring instrument 3 of the transmitted power, the filter 4 of the frequency isolation of the reception is fed to a high-frequency amplifier 5 (UHF), the other input of which receives a signal from the local oscillator of the frequency synthesizer 6. In the amplifier 5, the RF signal is amplified and converted in frequency to the first intermediate frequency, for example, f _1pc = 12 MHz. The high-frequency signal of the first intermediate frequency is amplified in the amplifier 7 UPCH1 and converted in the amplifier 8 UPCH2 to the second intermediate frequency, for example, f _2pc = 1.5 MHz. The high-frequency signal of the second intermediate frequency is amplified in the amplifier 8 and supplied to the frequency detector 9. In the frequency detector 9, the signal is limited in amplitude and a group signal with a spectrum of 0.3-12.8 kHz, which includes a spectrum of signals from two telephone and two, is extracted using a frequency discriminator telegraph channels.

On the transmission, the telephone and telegraph channel signals from the subscribers via the SL 42 and the SL 43 arrive through the line input unit 41 to the channel switching unit 60, where the signals are separated and transmitted to their conversion devices of the channel compression unit 20.

On transmission, the signals of telephone channels from subscribers via SL 42 through the line input unit 41 are fed to the channel switching unit 60 of the monitoring and control unit 20, in which the first and second telephone channels are divided into signals. The signal of the first telephone channel with a band of 0.3-3.4 kHz is supplied to the differential system (DS) unit 51, which transfers from a two-wire line to a four-wire one and vice versa. From the DS unit 51, the signal of the first telephone channel with a band of 0.3-3.4 kHz is transmitted without conversion to a channel transmission filter 52, which limits the spectrum of the transmission signal. The signal of the second telephone channel from the output of the channel switching unit 60 is supplied to the modulator 58 of the second telephone channel, in which the channel spectrum of the received signals of 0.3-3.4 kHz is converted into a linear spectrum with a band of 4.6-7.7 kHz. From the output of modulator 58, the signal enters the channel filter 59 of the second telephone channel. At the output of the filter 59, the linear spectrum of the second telephone channel is mixed with the linear spectrum of the first telephone channel coming from the output of the channel filter 52 for transmitting the first telephone channel. The general linear spectrum of two telephone channels with a band of 0.3-7.7 kHz is supplied to the first input of a group transmission amplifier 61 and then it is transmitted to a transmission channel addition and separation device 62. From the output of the USR 62 of the monitoring and control unit 20, a group transmission signal with a frequency band of 0.3-7.7 kHz enters the transmission pilot signal subunit 17 and from its output a signal through the extension unit 18, which sets the required signal level, and through a balancing transformer 19, the panel 12 of switching the group signal is input to a tunable 26 frequency-modulated generator (FMG) synthesizer 21 of the frequency of the pathogen. ChMG 26 has two outputs for connecting block 2 of the meter transceiver and block 29 of the transceiver decimeter wave range. When the MD transceiver unit 2 is turned on, the modulated RF signal from the output of the CMG 26 is fed to a power amplifier 10, from the output of which the RF signal through the PD filter 11 and the transmitted power meter 3 enters the antenna of the 1 meter band and is broadcasted by it. When the decimeter-range transceiver unit 29 is turned on, the modulated RF signal from the output of the FMG 26 through the transmission frequency multiplier 38, the power amplifier 39, the PD transmission filter 40, and the transmitted power meter 30 are transmitted to the decimeter-band antenna 28 and radiated by it.

The work of the ChMG 26 is as follows. The FMG 26 of the exciter frequency synthesizer 21 is tuned depending on the position of the decade switches 22. Through the conversion device 23 and the control device 24, information on the position of the decade switches of the block 22 is supplied to the phase detector 25, the other input of which receives a signal from the crystal oscillator 27 of the reference frequency. The phase detector 25 compares the signals in phase and generates voltages on the FMG 26 proportional to the phase difference and changing the frequency of the FMG 26 oscillator. The group signal supplied to the FMG 26 through the switching console 12 modulates the carrier frequency of the tunable generator.

At the reception, the signal of the second telephone channel with a band of 4.6-7.7 kHz is fed to the input of the demodulator 54 of the block 46 of telephone channels and converted into a signal with a band of 0.3-3.4 kHz. At the output of the demodulator 54 of block 46, a low-pass filter 55 of the second telephone channel is included, suppressing the upper side band and the carrier. From the output of the low-pass filter 55, the signal is fed to the input of an amplifier 56 of the second telephone channel, where it is amplified through a balancing transformer 57, a channel switching unit 60, and a line input unit 41 through SL 42 to the terminal equipment of the subscriber.

When you turn on the transceiver unit 29 of the decimeter range, the RF signal received by the antenna 28 through the passing power meter 30, the receive frequency isolation filter 31 is fed to a high-frequency amplifier (UHF) 32. The signal from the local oscillator of the frequency synthesizer 33 is fed to another input of the UHF 32 multiplied by four multiplier 34 frequencies. In UHF 32, the signal is amplified and converted by amplifier 35 UPCH1 into a signal of the first intermediate frequency, for example, f _1pc = 48 MHz. In the amplifier 36 UPCH2, the signal is converted to a second intermediate frequency, for example, f _2pc = 3 MHz, then it is amplified by the amplifier 36 and fed to the frequency detector 37, in which a group signal is extracted using the frequency discriminator, which is transmitted via the switching panel 12 and the block matching unit 14 13 monitoring and control is fed to the input of a group reception amplifier 15, amplified by a group amplifier 15, and through a reception unit 16 of the reception pilot signal, is fed to a device 45 for addition and separation (USR) of the reception channels of the channel sealing unit 20, g de group signal is divided into signals of telephone and telegraph channels.

The signal of the telegraph channels from the output of the device for adding and separating the receiving channels of the block 20 is supplied to the first 64 and second 71 channel filters of the telegraph channels of the block 63 of the telegraph channels, where it is divided into the signal of the first and second telegraph channels. Filtered signals are fed to demodulators 65 and 72, where they are converted into single-pole DC packages. From the outputs of the demodulators 65 and 72 of the telegraph channel block 63, the electronic relays 66 and 73 of the converting device are converted, converting the single-pole packages to two-pole ones, which are transmitted from the output of the low-pass filters 67 and 74 through the channel switching unit 60 and the line input unit 41 via SL 43 to telegraph devices (telegraph devices) of the subscriber.

At the same time, for each telephone channel, two-wire and four-wire terminal and four-wire transit modes of operation are provided with the possibility of making a call with alternating and tone signals, and conducting telephone communication between subscribers.

By telegraphic channels, information is transmitted by unipolar and bipolar transmissions with speeds from 50 to 1200 Baud.

Antenna 1 is designed for directional radiation and directional reception of radio signals in the meter range. It is a log-periodic antenna with a different number of vibrators. Antenna 1 can be installed on a mast up to 12 meters high, consisting of several elbows made of duralumin pipes.

As antenna 1, an antenna can also be used for omnidirectional radiation and omnidirectional reception of radio signals in the meter wavelength range, which is a coaxial antenna with a compensator. The radiating part of such an antenna is a symmetrical vibrator formed by the upper and lower shoulders.

Remote control 12 switches the circuit for connecting one of the two blocks of transceivers meter 2 and decimeter 29 wave ranges. Switching circuits of the alarm, control, control and group spectrum is carried out using switches. On the front panel of the remote control 12 there are controls, a table for recording various information.

Block 20 channel sealing (BUK) is designed to organize simultaneous operation on two telephone and two telegraph channels. The signal transmission circuits from subscribers over telephone and telegraph channels are given below.

Antenna 28 is designed for directional radiation and directional reception of radio signals in the decimeter range. Antenna 28 is an in-phase array consisting of two Z-emitters, a flat reflector and a power divider.

For non-directional radiation and non-directional reception of radio signals in the decimeter range, an antenna can be used, which is a coaxial antenna consisting of upper and lower arms, a short circuit, insulators, a tube inside which a coaxial cable passes, and a support rod. The radiating part of such an antenna is a half-wave symmetric vibrator consisting of upper and lower arms.

Each PPC telephone channel can be sealed with telegraph channels using secondary compression equipment or similar, and can also be used to transmit binary information.

Information transfer by telegraphic channels is carried out as follows.

When transmitting bipolar DC packages from telegraphy devices of subscribers via SL 43 through the line input unit 41 and the channel switching unit 60 of the channel compaction unit 20, they are transmitted to the inputs of the converter units 68 and 75 of the first and second telegraph channels transmitting unit of the telegraph channel unit 63, which convert bipolar sending direct current to single-pole, carry out galvanic isolation of the circuits of the channel sealing unit 20 with linear telegraph circuits and provide the organization of telegra operating modes GOVERNMENTAL channels.

Single-pole packages from the output of the blocks of the converting devices 68 and 75 of the transmission are fed to the input of the telegraph modulator 69, which converts the direct current packages from the telegraph line to its input into frequency-modulated (FM) signals. In the case of a negative transmission or absence of current in the telegraph line, a signal with a lower characteristic frequency is generated at the output of the telegraph modulator 69, including: 8.5 kHz for the first telegraph channel and 12.2 kHz for the second telegraph channel. A positive sending in a telegraph line corresponds to the upper characteristic frequency, including: 9.1 kHz for the first telegraph channel and 12.8 kHz for the second telegraph channel.

From the output of the telegraph modulator 69, the frequency-modulated signals are fed to the channel channel filters 70 and 76 of the transmission of telegraph channels, limiting the spectra of the FM signals. From the output of these filters, the total linear spectrum of two telegraph channels with a band of 8.5-12.8 kHz goes to a group amplifier 61 and then to an addition and separation device (SSR) 62. From the output of the SSR 62, the group signal of block 20 with a band of 0.3 -12.8 kHz enters the transmission sub-block 17 of the pilot signal (SPS), in which there are electronic keys that disable the channel compaction unit 20 during the “control” mode. Then, through the extension unit 18 and the balancing transformer 19, which establish the required signal level, the group signal is fed to the switching panel 12, from the output of which the group signal is fed to the tunable frequency-modulated generator (FMG) 26 of the synthesizer 21 of the exciter frequency. ChMG 26 has two outputs for connecting block 2 of the meter transceiver and block 29 of the transceiver decimeter wave range. When the MD transceiver unit 2 is turned on, the modulated RF signal from the output of the CMG 26 is fed to a power amplifier 10, from the output of which the RF signal through the PD filter 11 and the transmitted power meter 3 enters the antenna of the 1 meter band and is broadcasted by it. When the decimeter-range transceiver unit 29 is turned on, the modulated RF signal from the output of the FMG 26 through the transmission frequency multiplier 38, the power amplifier 39, the PD transmission filter 40, and the transmitted power meter 30 are transmitted to the decimeter-band antenna 28 and radiated by it.

At the reception, when the transceiver of the decimeter band unit 29 is turned on, the signal received by the antenna 28 through the passing power meter 30, the reception frequency filter 31 is fed to a high-frequency amplifier (UHF) 32. The signal from the local oscillator of the frequency synthesizer 33 is fed to another input of the UHF 32 multiplied by four there are 34 frequencies in the multiplier. In UHF 32, the signal is amplified and converted by amplifier 35 UPCH1 into a signal of the first intermediate frequency, for example, f _1pc = 48 MHz. In the amplifier 36 UPCH2, the signal is converted to a second intermediate frequency, for example, f _2pc = 3 MHz, then it is amplified by the amplifier 36 and fed to the frequency detector 37, in which a group signal is extracted using the frequency discriminator, which is transmitted via the switching panel 12 and the block matching unit 14 13 monitoring and control is fed to the input of a group receiving amplifier 15, is amplified by a group amplifier 15, and through a sub-block 16 of the receiving pilot signal is fed to a channel addition and separation device (SSD) 45 of the channel compaction unit 20, where The new signal is divided into telephone and telegraph channels.

When the equipment for transmitting data (ADF) through the channels of a low-channel radio relay station, the transmission path includes the following.

The group transmission signal from the ADF of the subscriber via SL 44 through the line input unit 41 is supplied to the sub-block 17 of the transmission pilot signal of the monitoring and control unit 13. After passing block 18 extenders and a symmetrical transformer 19, the group signal through the remote control 12 switches to the tunable FMG 26 of the synthesizer 21 frequency of the pathogen. From the first output of the FMG 26, the group signal is fed to the input of the power amplifier 10 of the meter 2 transceiver unit 2, the output of which the high-frequency signal through the PD filter 11, the transmitted power meter 3 is supplied to the antenna of the 1 meter band and radiated by it. From the second output of the FMG 26, the group signal is fed to the input of the transmission frequency multiplier 38, from the output of which the high-frequency signal is transmitted through the power amplifier 39, the PD filter 40 and through the passing power meter 30 of the decimeter range unit 29, from the output of which the high-frequency signal is fed to the decimeter antenna 28 range and emitted by it on the air.

At the reception, the high-frequency signal received by antenna 1 (or 28) passes through block 2 of the meter transceiver or block 29 decimeter range to the remote control 12 switching. From the remote control 12, the group signal is received through the matching unit 14 and the group receiving amplifier 15 of the monitoring and control unit 13, where the levels are matched, the signal is amplified and from the output of the amplifier 15, the signal is transmitted to the receiving subunit 16 and then through the line input unit 41 via SL 44 arrives at the data transmission equipment located at the subscriber.

To improve the quality of communication in a radio relay station, operation is monitored without interruption of communication with the help of the indicators “FIXED”, “COMMUNICATION NO” and built-in indicator pointer devices on the monitoring and control unit 13 (BKU), as well as on the channel sealing unit 20 (BUK).

When the station equipment is in good condition and there is a sufficient high-frequency signal of the correspondent transmitter at the input of the receiving path of unit 2 of the meter-range transceiver or unit 29 of the decimeter-range transceiver in the operating mode, the “CORRECT” indicator lights up on the control panel. When the power of the transmitting device is below the permissible level, the “COMMUNICATION NO. When the level of the high-frequency signal at the input of the receiving path decreases below the permissible value, the “COMMUNICATION NO Prm” indicator lights up.

The condition of the antenna-feeder path is controlled using a dial indicator on the block 13 control and management (BKU).

The technical result of the present invention consists in expanding the range of operation of a small-channel radio relay station while reducing its overall dimensions, allowing station equipment to be mounted on a vehicle with a limited volume and low load capacity, as well as to ensure station operation in two wavelengths: meter (60- 120 MHz) and decimeter (390-430 MHz) bands. In this case, the following operating modes are provided in each range:

1) the mode of simultaneous operation on two telephone and two telegraph channels with the ability to conduct on telephone and telegraph communication channels;

2) data transfer mode when using external data transmission equipment (ADF) with the ability to transmit medium-speed and high-speed information via channels;

3) the remote control mode of medium-power radio stations when using telegraph or telephone channels for this purpose.

The proposed small-channel radio relay station also provides for the possibility of increasing the number (up to six) of telephone channels when using instead of their own channel sealing unit of external channelization equipment and transmitting group path signals with an increased information transfer rate through it.

A small-channel radio relay station is widely used as a part of mobile objects mounted in a body on a car chassis, and in stationary communication facilities.

Claims (2)

1. A small-channel radio relay station, consisting of a meter of the wave band meter, a block of the meter band transceiver (PMT), which includes a series-connected meter of transmitted power, the input-output of which is connected to the input-output of the meter band antenna, a frequency decoupling filter (PD) , high frequency amplifier (UHF), first intermediate frequency amplifier (UPCH1), second intermediate frequency amplifier (UPCH2) and frequency detector, local oscillator frequency synthesizer (UHF), the output of which is connected to with a UHF input, a power amplifier and a PD transmission filter connected in series, the output of which is connected to the second input of a passing power meter, a control panel, a control and control unit (BCU), which includes a matching unit, a group reception amplifier, and a pilot subunit receiving, sequentially connected a sub-block of the transmission pilot signal, an extension unit and a balancing transformer, the output of which is connected to the first input of the switching console, the first output of which is connected nen with the input of the matching unit, the output of the frequency detector is connected to the second input of the switching panel, the channel compaction unit, the input of which is connected to the first output of the pilot sub-block of the control and control unit, the first input of the transmission pilot sub-block is connected to the output of the channel compaction , a frequency synthesizer of the pathogen, which includes a decade-long switch connected in series, a conversion device, a control device, a phase detector, and a tunable frequency module A fixed generator (FMG), as well as a reference frequency generator, the output of which is connected to the second input of the phase detector, the second input of the tunable FMG is connected to the second output of the switching console, and the first output of the tunable FMG is connected to the input of the power amplifier of the meter transceiver unit of the meter wave band, decimeter antenna range, transceiver unit of the decimeter wave range, which includes a series-connected meter of transmitted power, the input-output of which is connected to the input-output m decimeter-band antennas, PD reception filters, high-frequency amplifiers, first intermediate-frequency amplifiers, second-intermediate-frequency amplifiers and a frequency detector, the output of which is connected to the third input of the switching console, as well as a series synthesizer of the local oscillator frequency and the receiving frequency multiplier, the output of which is connected with a second input of the UHF, a series-connected multiplier of the transmission frequency, the input of which is connected to the second output of the tunable FMG synthesizer of the frequency of the pathogen, a power amplifier and a PD transmission filter, the output of which is connected to the second input of the passing power meter, line input unit, to the first, second and third linear inputs and outputs of which the inputs and outputs of the connecting lines (SL) are connected for issuing / receiving telephone channels, SL for issuing / receiving telegraph channels and trunk lines for receiving / issuing channels of data transmission equipment (ADF), while the first, second, third and fourth inputs and outputs of said channel compaction unit are connected respectively to the first, second , the third and fourth station inputs / outputs of the line input unit, the input of which is connected to the second output of the pilot sub-block of the control and control unit (BCU), and the output of the line input unit is connected to the second input of the transmission pilot sub-block of the control and control unit. 2. A small-channel radio relay station according to claim 1, characterized in that the channel compaction unit comprises a device for adding and separating (USR) receiving channels, a telephone channel unit consisting of a channel receiving filter of a first telephone channel, a first balancing transformer of a first telephone channel, the amplifier of the first telephone channel and the second balancing transformer of the first telephone channel, connected in series to the differential system unit (DS) and the channel filter transmitting the first telephone channel, the channel filter for receiving the second telephone channel, the demodulator of the second telephone channel, the low-pass filter (LPF) of the second telephone channel, the amplifier of the second telephone channel and the balancing transformer of the second telephone channel, the series-connected modulator of the second telephone channel and the channel filter of the second telephone channel, channel switching unit, series-connected group transmission amplifier and USR transmission channels , a block of telegraph channels, consisting of a channel filter for receiving the first telegraph channel, a demodulator of the first telegraph channel, an electronic relay of the first telegraph channel and a low-pass filter of the first telegraph channel, a series-connected block of converting devices (BPU) for transmitting the first telegraph channel, a telegraph modulator and a channel filter transmitting the first telegraph channel, series-connected channel receiving filter of the second telegraph channel, the second t demodulator a telegraph channel, an electronic relay of the second telegraph channel and a low-pass filter of the second telegraph channel, a transmission unit of the second telegraph channel and a channel transmission filter of the second telegraph channel, the input of which is connected to the second output of the telegraph modulator, the second input of which is connected to the output of the transmission unit of the second telegraph channel, moreover, the first output of the USR reception channels is connected to the inputs of the channel receive filter of the first telephone channel and the channel receive filter of the second telephone channel, and the outputs of the channel transmission filter of the first telephone channel and the channel transmission filter of the second telephone channel are connected to the first input of the group transmission amplifier, the second input of which is connected to the outputs of the channel transmission filter of the first telegraph channel and the channel transmission filter of the second telegraph channel, the first and second inputs of the channel switching unit are connected to the outputs, respectively, of the second balancing transformer of the first telephone channel and the balancing transformer of the second telephone channel, and the first and second outputs of the channel switching unit are connected to the inputs of the differential system unit and the balancing transformer of the second telephone channel of the telephone channel unit, respectively, the third and fourth inputs of the channel switching unit are connected to the outputs of the low-pass filter of the first telegraph channel and the low-frequency filter of the second telegraph channel, and the third and fourth outputs of the channel switching unit are connected to the inputs of the transmission control unit of the first telegraph channel and the transmission unit of the WTO of the telegraph channel of the telegraph channel block, wherein the input of the SSR reception channels and the output of the SSR transmission channels are the second input and second output of the channel compression unit, and the first, second, third and fourth inputs and outputs of the channel switching unit are first, second, third and the fourth inputs and outputs of the channel compaction unit, to which the first, second, third and fourth station inputs and outputs of the line input unit are connected, respectively.

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