SU1757112A1 - Radio station - Google Patents

Abstract

The invention relates to radio and can be used in adaptive radio systems for organizing automatic exchange of information over duplex communication channels with varying parameters. The aim of the invention is to reduce the loss of information. To achieve this goal, the third, fourth, fifth and sixth elements are introduced OR 43, 46, 44, 39, reception quality analyzer 41, third pulse generator 42, time interval generator 45, fourth element 37, sixth trigger 32, counter 35, the terminal unit 33, the storage device 36, the signal processing unit 38, the fourth switch 34. The proposed radio link allows the radio link to be automatically restored if it is damaged for the sake of the channel without loss of information. 1 il.

Description

The invention relates to radio communications and can be used in adaptive radio communication systems for organizing automatic exchange of information over duplex communication channels with varying 5 parameters, for example, a decameter range.

Adaptive radio stations are known.

A common drawback of these devices is the loss of information in case of communication failure 10 and its recovery both in one and in both directions, since the information transmission channel is switched to transmit control commands, and the broken channel does not work. fifteen

The purpose of the invention is to reduce the loss of information in radio links.

To achieve this goal, a third OR element was introduced into the radio station, the first input of which is connected to the output 20 of the second element I. And the output is connected to the combined ones. a single installation input of the fourth trigger, to the control input Readout of the BVORCH and to the input Start of the PCF, 25 third pulse shaper, time interval shaper and fourth OR element, as well as information quality analyzer, fifth OR element, the first and second inputs of which 30 are connected in series connected to the outputs of the first AND element and the fifth trigger, respectively, and the output is connected to the zero installation input of the third trigger, the sixth OR element, the fourth AND element, the sixth trigger, 35 counter, block signal processing, terminal block, fourth switch, information storage device, while the output of the third trigger is connected to the second input of the fourth OR element and to the first input of the neck- 40 of the OR element, the second input of which is combined with the control input of the second switch and connected to the output of the fourth trigger , the third inputs of the fourth sixth OR element are combined and connected to the output of the fifth trigger, the output of the fourth OR element is connected to the unitary enterprise. the input to the input. The information quality analyzer is disabled, the signal input of which is connected to the output of the signal about the cash signal error block of the signal processing unit, and the output is connected to the input of the third pulse shaper, the output of which is connected to the second input of the third OR element, the low-frequency output of the receiver is connected 55 to the input of the signal processing unit; the output of the regenerated signal of which is connected to the information input of the terminal block, the first and second inputs of the fourth AND element are connected, respectively, with the output of the second OR element and with the output of the signal about the receipt of the control command, the unit and zero installation inputs of the sixth trigger are connected respectively with the output of the fourth element -fa And with the counter output, the output of the sixth trigger is connected to the combined reset input of the counter, the control input of the fourth switch and the control input Repeat transfer end block, the output signal of the clock frequency of the terminal block is connected to the clock input of the information storage device and to the counter input of the counter, the information output of the terminal block is connected to the signal input of the information storage device and to the first signal input of the fourth switch, the second signal input of which is connected to the output of the information storage device, and the output is connected to the second signal input of the second switch, the output of the sixth OR element is connected to the control input. Transmission blocking of the terminal block.

The drawing shows a structural electrical diagram of the proposed radio station.

The radio station contains a receiver 1, a decoder 2 of the control commands, triggers 3, 16, 18, 19, 28 and 32, switches 4, 11, 12, 34, a transmitter 5, a PRM frequency synthesizer 6, an optimal operating frequency selection block 7, an 8 command shaper control, synthesizer 9 frequencies Rx, blocks 10 and 13 of the memory frequency Rx and Rx, respectively, blocks 14 and 15 control the tuning of frequencies Rx and Rx, respectively, elements And 17, 20, 30 and 37. pulse shapers 21, 22 and 42 (FI) , synchronizer 23, programmer 24. buses 25-27 input signals, OR elements 29, 31, 39, 43. 44 and 46, terminal block (OB) 33, counter 35, accumulate body 36. signal processing unit 38, information quality analyzer 41, time interval shaper 45 (FWI). .

The radio station operates as follows. ,

After turning on the radio station, the operator, by acting on the input signal bus 26, switches on the “Standby Reception” mode, the trigger 28 is set to the state G, and the trigger 16 is set to the initial state through the OR element 46. .

Logic signal 1 from the output of trigger 28 goes to the transmitter 5, turns off the high voltage and prohibits radiation, and through the OR 39 element goes to OB 33. It prohibits the transfer of information, and through the OR 29 element it goes to the input of the switch 11 and switches the synthesis control6

With /'.#?/ a torus of 6 frequencies PFP 1 to the control unit 14 for tuning the frequencies of PFP 1. At the same time, this signal is fed to the input of element And 37 and prevents the signal from passing from the output of DCU 2 to the input of trigger 32, and also to block 5 of memory 10 of PRM 1 frequencies and allows the switching of receiver 1 according to the fixed frequency change program generated by the programmer 24. In this case, block 14 provides tuning of the frequencies of synthesizer 10 in the passband ± Δ F of receiver 1 with respect to the fixed value: frequency output by block 10.

To ensure the temporary combination of programs, the operator synchronizes 15 programs By applying a control action to the bus 27.

From this moment, the standby reception mode is carried out, and the radio station is prepared for transition to the initial communication establishment mode.

Frequency switching of PfP 1 in standby mode is performed at certain time intervals equal to the time intervals of switching radio facilities at the initial communication establishment. ''

If it is necessary to establish communication, the operator of one of the correspondents submits a control action through the element 30 OR 31 via bus 25 to the pulse shaper 21. The generated pulse puts the trigger 16 in the state of logical 1, and the trigger 28 - in the state of logical 0, the Logical 1 signal from the output of the trigger 16 35 is fed to the input of the switch 12 and through the element OR 39 to the input OB 33, prohibiting the transmission of information through the element OR 29 to the input of the second switch 11 and switches the control of the synthesizers b and 9 of the 40 frequencies of the PFP G and the PFD 5 to the frequency control units 14 and 15 of the PFM 1 and the PFD 5 respectively. At the same time, this signal is fed to blocks 10 and 13 of the memory of frequencies PFP 1 and PFD 5 and allows the switching of receiver 45 and transmitter 5 according to the programs for changing fixed frequencies PFM 1 and PFD 5 generated by programmer 24 and to element I 37, prohibiting passage the signal from DCU 2. The synchronization of the formation of the 50 switching programs of the receivers 1 and 5 transmitters of correspondents is provided by the synchronizer 23 by the signals coming from its outputs to blocks 14.15 and the programmer 24. At the same time, 55 blocks 14 and 15 provide frequency adjustment of the Synthesizers 6 and 9 to the floor the transmission axis ± ΔΡ of the receiver 1 and the transmitter 5 relative to the nominal frequencies of the PRM 1 and the PRD 5, issued by blocks 10 and 13.

Frequency switching PFR 1 and PFD 5 is made at certain intervals of time sufficient for tuning the radio, selecting the optimal frequency and exchanging commands about the number of the optimal frequency according to the algorithm of operation of block 14 and block 15.

At each time interval specified by the synchronizer 23. after switching the frequencies of the PFP 1 and the PFD 5 and selecting the optimal operating frequencies, the pulse shaper 22 is launched from the synchronizer 23, from the output of which it is generated. the pulse arrives at the triggers 18 and 19. and sets them to a logical 0 ”state. The logical signal “0 from these triggers is fed to the element And 17.

At the same time, a pulse through the And 20 element, to the second input of which logic 1 comes from trigger 16, and the OR element 43 is fed to the FCU 8. BVORCH 7 to request the optimal frequency and to trigger 3, which switches the switch 4 to the state of information transfer from FCU 8 to transmitter 5.

On the front of this impulse, BVORCH 7 issues a frequency number to the switch 1'1 and Ф КУ 8, and upon the decline of this impulse Ф КУ 8 encodes the frequency number and issues a codogram to the input of the transmitter 5 through switch 4. After the control command is issued according to the operation algorithm of block 15 BUCH PRD in PKU 8, a signal is generated that arrives at trigger 3 and sets it to its initial state, and trigger 10 - to logical 1. state.

The second correspondent has a standby reception mode, and receiver 1 switches over the program frequencies. If the next frequency is suitable for communication, then the decoder 2 will highlight the control command transmitted by the first correspondent. It will go to the input of the And 30 element, to the second input of which the logical Г comes from the trigger 28. If these commands coincide with the And 30 element, the signal through the OR 31 element is sent to the pulse shaper 21. The generated pulse arrives at the triggers 16 and 28, translates the first into a logical 1 ”state. and the second - in a state of logical “0. Thus, the second correspondent was automatically called.

Logic signal 1 from the output of trigger 16 is fed to the inputs of switches 11 and 12 and switches the control of synthesizers 6 and 9 to blocks 14 and 15. and the same signal received at blocks 10 and 13 allows switching receiver 1 and transmitter 5 according to shift programs fixed frequencies of the receiver 1 and transmitter 5, formed by the programmer 24. At the same time, this signal enters through the element OR 39 to the input of OB 33 and prohibits the transmission of information and the passage of the signal from DCU 2 through the element And 37 to the input of the trigger 32, from which the signal goes to OB 33 and switch 34 to repeat information from the drive. Synchronization of the formation of switching programs is provided by the synchronizer 23 according to the signals coming from its outputs to blocks 14 and 15 and the programmer 24. Moreover, blocks 14 and 15 provide frequency tuning of the synthesizers 6 and 9 in the passband of the receiver 1 and transmitter 5 relative to the nominal frequencies.

The frequencies of the receiver 1 and transmitter 5 are switched at certain intervals of time sufficient for tuning the radio, selecting the frequency with the lowest level of interference and exchanging commands about the sub-frequency number according to the algorithm of blocks 14 and 15. At each time interval specified using synchronizer 23, after switching the frequencies of the receiver 1 and transmitter 5 and selecting the sub-frequency according to the signal of the synchronizer 23 starts the driver 22, from the output of which the generated pulse goes to the triggers 18 and 19 and sets them in the state of logical 0. which from the outputs of the triggers 18 and 19 is supplied to the element And 17. Simultaneously, the pulse through the element And 20, the second input of which receives a logical 1 from the output of the trigger 16, is transmitted through the element OR 43 to the shaper 8, block 7 for request sub-frequencies and ya trigger 3, which switches the switch 4 to the state of information transfer from the driver 8 to the transmitter 5, the signal from the output of the trigger 3 through the element OR 39 prohibits the transmission of information from OB 33. At the edge of this pulse, block 7 issues the number of the sub-frequency to switch 11 and f The driver 8, which encodes the sub-frequency upon the decrease in the pulse rate and provides a codogram to the input of the transmitter 5 through the switch 4. After transmitting the control command according to the operation algorithm of block 15, a signal is generated in the driver 8, which is fed to trigger 3 and sets it to the initial state, and trigger-19 - in the state of logical “G *.

Similar operations are performed with the second correspondent. __

When the radio means of the correspondents are switched to frequencies affected by interference, control commands are not received and the radio equipment switches synchronously to the next fixed frequencies in the program. If the next pair of frequencies is suitable for communication, then the decoders of the 2 correspondents allocate control commands. The received sub-frequency number from the output of the decoder 2 goes to the switch 12, and the signal indicating the number of the received working sub-frequency from the decoder 2 goes to the trigger 18 and puts it in the logical state 1. If the logical 1 signals from the triggers 18 and 19, the And 17 element generates a signal that enters through the OR element 46 to the trigger 16 and puts it in a logical state "0. The logical O ”signal from the output of the trigger 16 enters the blocks 10 and 13 and fixes the receiver 1 and transmitter 5 at these program frequencies. At the same time, this signal is fed to switches 11 and 12, which switch the control of the synthesizer 6 of the sub-frequencies, the receiver to block 7, and the synthesizer 9 to decryptor 2.

The same signal is sent to OR 39, where, if there are no prohibition signals on other inputs, a signal is formed that allows information to be transmitted, and fed to OB 33, and through OR 29, it is sent to AND 37 and allows the signal to pass from DCU 2 to switch the trigger 32 and start retrying the transfer of information from the drive 36 when conducting communication at the time of its restoration.

Thus, the radio means of the correspondents are switched to sub-frequencies with a minimum level of interference, and information coming from the OB 33 is exchanged in the radio line.

Information from OB 33 through the switches 34 and 4 is fed to the input of the PRD 5 for transmission to the correspondent.

The received information from PfP 1 is sent to BOS 38, where the quality of information is assessed (by prevalence, fragmentation, level of each element of the codogram). Identified failures in the form of signals. Error is sent to the analyzer 41 information quality.

In the analyzer 41 of information quality, according to a specific statistical algorithm, the quality of the received information is evaluated and a decision is made on the quality of the communication channel.

If the reliability of the received information decreases below a predetermined level, the analyzer 41 generates the No command. '1757112

PfP. This command is supplied to the pulse shaper 42, the second input of which can receive a similar signal via bus 40 when the operator rejects the channel.

Formed impulse with shaped-! Pulse generator 42 through an OR 43 element is supplied to BWORCH 7 to request a new sub-frequency, which arrives at switch 11, and PFP 1 switches to a new sub-frequency, to PKU 8 for encryption and 1 transmission of a command to a correspondent, to trigger 3 to control the switching of switch 4 to the state of information transfer from PKU 8. From trigger 3, the signal through the OR 39 element is sent to OB 33 1 to prohibit the transmission of information and to PKU 8 to start reading the command codegram.

The codogram through the switch 4 is transmitted to the transmitter 5 and transmitted to the correspondent 2 pondent. After the command is transmitted to the correspondent (the end of the program reading), the signal from the output of the PKU 8 triggers 3 to its initial state, the switch 4 switches to the 2 state of information transfer from OB 33, and OB 33 allows the transfer of information. At the same time, the pulse from the output of the pulse shaper 42 is fed to the input of the FVI 45, from the output of which the signal through the element 3 OR 44 prohibits the operation of the analyzer 41. The duration of the signal of the FVI 45 is determined by the time of the request for the sub-frequency with the minimum interference level of the codogram transmission by decoding the command from 3 second correspondent, switching 5 of the second correspondent to the new sub-frequency and pulse duration from FI 2. The codogram adopted by the second correspondent is sent from the PFP 1 output to DCU 2, where the command that is received is decrypted e output DCU 2 to the switch 12, and the PRD 5 switches to a new sub-frequency, and from the second output DCU 2 the signal indicates the receipt of a command through AND 37, since the second input And 37 the enable signal goes to the input of trigger 32 and starts the repetition of information from the drive 36. transmitted during the change of sub-frequency, Thus, there was an automatic change of sub-frequency in one direction. On the. The new sub-frequency repeats the transmission of information. which was transmitted on the defective sub-frequency during its shift, and the reception and transmission of information continues until the next violation of the radio channel.

The proposed radio line allows you to automatically restore radio communication in case of violation of the radio channel without loss of information.

Claims (1)

Claim A radio station containing two pulse shapers, five triggers, two OR elements, three AND elements, a control command decoder (DCU), three switches, a transmitter, a receiver synthesizer, an optimal operating frequency selection unit (BWCH), a control command shaper (PKU), a receiver (PFP), a transmitter frequency synthesizer, a receiver frequency memory unit, a transmission frequency memory unit, a receiver frequency tuning control unit (BCCH), a PRM, a transmitter frequency tuning control block (BCCH), a synchronization clock transmission receiver ^; a torus, a programmer, while the synchronizer input is the synchronizing input of the device, the first output is connected to the input of the first pulse shaper, the second output is connected to the synchronizing input of the programmer, the third output is connected to the combined inputs of the control units for tuning the frequency of the receiver and transmitter, the output of the first trigger is connected to the first the input of the first element And, the zero installation input is combined with the zero installation input of the second trigger and the first input of the second element And is connected to the output of the first form For pulses, the first input of the first OR element is the Start device, the second input is connected to the output of the third AND element, and the output is connected to the input of the second pulse shaper, the output of which is connected to the unit installation input of the third trigger, the zero installation input of the fourth trigger is combined with the unit installation · The input of the first trigger and is connected to the output of the FCU, the information input of which is combined with the first signal input of the first switch and connected to the output of BVORCH, and the output is connected to signal input of the second switch, the control input of the third switch is combined with the control input Read the memory unit of the transmission frequencies with the second input of the second element 14, the first input of the second OR element and connected to the output of the third trigger, the single installation input of the fifth trigger is the installation output Standby device, the zero installation input is connected to the output of the second pulse shaper, and the output is connected to the combined second input of the second OR element. the first input of the third AND element, to the control input of the transmitter lock, the information input of which is connected to the output of the second switch, the first and second outputs of the programmer are connected to the clock inputs of the transmit frequency memory block and the receive frequency memory block, the output of the second OR element is connected to the control input of the first switch and control input Read the memory block of the receiving frequency, the output of which is connected to the first control input Tuning the frequency of the receiver, the second control input P whose frequency tuning is connected to the output of the receiver frequency synthesizer, and the intermediate frequency signal output is connected to the BVORCH signal input, and the low-frequency output is connected to the DCU input, the output of the signal for receiving the DCU control command is connected to the second input of the third AND element and to the unit installation input of the second trigger whose output is connected to the second input of the first element I. the output of the receiver frequency control control unit is connected to the second signal input of the first switch, the output of which is connected receiving input to the frequency synthesizer, the output frequency tuning of the transmitter control unit is connected to the first signal input of the third switch, the second signal input of which is connected to the output DKU optimal frequency, and an output connected to the input transmission frequency synthesizer. the outputs of the transmit frequency synthesizer and the transmit frequency memory block are connected respectively to the first and second control outputs. Transmitter frequency tuning, characterized in that, in order to reduce information loss, a third OR element is introduced, the first input of which is connected to the output of the second AND element, and the output is connected x combined unit installation input of the fourth trigger, to the control input Read BVORCH and input Start PKU, connected in series the third pulse shaper, the shaper temporarily about the interval and the fourth OR element, the information quality analyzer, the fifth OR element, the first and second inputs of which are connected to the outputs of the first AND element and the fifth trigger, respectively, and the output is connected to the zero installation input of the third trigger, the sixth OR element, the fourth AND element, sixth trigger, counter, signal processing unit, terminal block, fourth switch, information storage device, while the output of the third trigger is connected to the second input of the fourth OR element and the first input of the sixth OR element, The second input of which is combined with the control input of the second switch and connected to the output of the fourth trigger, the third inputs of the fourth and sixth elements OR are combined AND connected to the output of the fifth trigger, the output of the fourth element OR is connected to the control input. Prohibition of the information quality analyzer, the signal input of which is connected to the output signal about the presence of an error in the signal processing unit, and the output is connected to the input of the third pulse shaper, the output of which is connected to the second input of the third OR element, low frequency the output of the receiver is connected to the input of the signal processing unit, the output of the regenerated signal of which is connected to the information input of the terminal block, the first and second inputs of the fourth element And are connected respectively to the output of the second element OR with the output of the signal about the receipt of the control command, the unit and zero installation inputs of the sixth trigger connected respectively with the output of the fourth element AND with the output of the counter, the output of the sixth trigger is connected to the combined input Reset counter, the control input of the fourth switch and control input Repeat transmission ”of the Terminal block, the output signal of the clock frequency of the terminal block is connected to the clock input of the information storage device and the counting input of the counter, the information output of the terminal block is connected to the signal input of the information storage device and the first signal input of the fourth switch, the second signal input of which is connected to the output of the information storage device, and the output is connected to the second signal input of the second switch, the output of the sixth element OR is connected to the control input Prohibition of transmission ”of the terminal block.