RU2257029C1 - Radio station - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: device has the second transmitter, the third receiver, the second unit for forming guard frequencies, the second interface unit, three multiplexers, eight switchboards, the second frequency reorganization unit, the unit for selecting operation modes, the second reception analyzer, the second coder, the second synchronizer and the second terminal unit additionally introduced into radio station design.

EFFECT: enhanced effectiveness in organizing communication with two correspondents, concurrently expecting calls on guard frequencies.

1 dwg

Description

The invention relates to the field of radio communications and can be used in adaptive communication systems KB and VHF bands for organizing automatic exchange of information via duplex communication channels with varying parameters.

Known devices for the automatic exchange of information in adaptive communication systems. The closest technical solution (prototype) of the claimed device is a device containing a unit of uniform time, units for forming standby frequencies of reception and transmission, a first receiver, an analysis unit, a frequency memory unit, a multiplexer, a transmitter, a second receiver, an end unit, a switch, an encoder, a synchronizer and a call command decoder, the analysis block includes a frequency selection block and a level analyzer, the control block includes a time interval shaper, a mode block, a tuning block, a service formation block GOVERNMENTAL commands and receive analyzer.

The disadvantage of this device is its limited functionality. So, in the presence of two receivers, this device does not allow to establish communication with two correspondents, while waiting for a call at standby frequencies and analysis of interference at operating frequencies in two radio networks.

The purpose of the invention was to eliminate this drawback. This goal is achieved by the fact that a second transmitter, a third receiver, second blocks for the formation of standby transmit and receive frequencies and a second pairing unit, three multiplexers, eight switches, a second tuning block, a mode block, a reception analyzer, an encoder, a synchronizer, and a terminal block, the control input of the second transmitter being connected to the output of the third multiplexer, one information input of which is connected to the output of the second block of formation of the standby transmission frequencies, connected о, in turn, with the outputs of the units of uniform time and the formation of time intervals, the control input of this multiplexer is connected to the output of the second tuning unit, the second input of which is connected to the output of the second mode unit, the second output of which is connected to the service command generation unit, the output of which is connected to the input the second encoder connected to the second synchronizer, one input of this mode block is connected to the output of the second terminal block, the second output of which is connected to the inputs of the second synchronizer and second switch connected to the transmitter information input, and the input to the output of the third receiver, the second input of the mode block is connected to the output of the receive analyzer, the input of which is connected to the output of the second decoder, the second output of which is connected to the second input of the third multiplexer, the third output of the second mode block connected to the control input of the second switch, the output of the second unit for the formation of standby reception frequencies, through the second pairing unit, the second input of which is connected to the output of the second frequency memory unit, sub is accessible to the information inputs of the fourth and fifth multiplexers, the second input of the fifth multiplexer is connected to the second output of the mentioned frequency memory unit, also connected to the input of the second encoder, the information output of the first receiver is connected to the input of the third switch, the output of which is connected to the output of the encoder, and the measuring output of the receiver - to the input of the fourth switch, the second input of the third switch is connected to the output of the fifth switch, the input of which is connected to the information output of the second receiver, the input input of which is connected to the output of the fourth multiplexer, the second input of which is connected to the output of the first interface unit, the measuring output of the second receiver is connected to the input of the sixth switch, one output of which is connected to the second input of the fourth switch, and the second output to the input of the seventh switch, the second input which is connected to the measuring output of the third receiver, and the output is connected to the input of the second analysis unit, the output of the fourth switch is connected to the input of the first analysis unit, information output the third receiver is connected to the input of the eighth switch, the second input of which is connected to the second output of the fifth switch, and the output to the input of the second decoder, the information output of the second analysis unit is connected to the input of the frequency selection unit, the second input of which is connected to the fourth output of the second unit, modes, the control output of the analysis unit is connected to the output of the frequency memory unit, the second input of which is to the frequency selection unit, the second inputs of the first and second analysis units are connected to the corresponding outputs of the ninth switch, the input of which is connected to the output of the time interval forming unit, in addition, the control inputs of the second and fifth multiplexers, of the third, fourth, seventh and eighth switches are connected to the third, and the control inputs of the fourth multiplexer, fifth, sixth and ninth switches are connected to the fourth output of the forming unit service teams.

The device diagram is shown in the drawing and contains serially connected unit 1 of uniform time, unit 2 of forming time intervals, unit 3 of forming service commands, transmitters 4 and 5, multiplexers 6, 7, 8, 9, 10, blocks of forming transmission frequencies 11 and 12, synchronizers 13 and 14, encoders 15 and 16, tuning blocks 17 and 18, blocks 19 and 20 modes, radios 21, 22 and 23, switches 24, 25, 26, 27, 28, 29, 30, 31 and 32, blocks 33 and 34 analysis, frequency selection blocks 35 and 36, frequency memory blocks 37 and 38, decoders 39 and 40, reception standby frequency generating units 41 to 42, blocks 43 and 44 opryazheniya, terminal units 45 and 46 and the analyzers 47 and 48 receive.

The described device operates as follows. Block 2 the formation of time intervals by signals from block 1 of a single time forms for all correspondents time intervals Tp of changing the frequencies of the reception. At the same time, each working interval Tr of changing the frequencies of the standby reception consists of the interval Tv of the standby reception of the call signal and the interval Ta of the analysis of the next working frequency Tr = Tv + Ta. The standby transmit and receive frequencies, changed at time intervals Tr, are generated in a single time by blocks 11 and 41, respectively, of the correspondents of the first radio network and blocks 12 and 42 of the correspondents of the second radio network, at the beginning of this time interval.

In the initial state, until a call signal is received from any correspondent, the service command generation unit 3 issues a command by which the multiplexer 8 allows the signals to pass from the output of the interface unit 43 to the control input of the receiver 21, the multiplexer 10 allows the passage of signals from the output of the interface unit 44 to the control input of the receiver 23, and the multiplexer 9 prohibits the passage of signals from the outputs of these interface units to the control input of the receiver 22, the switches 25, 28 disable the information and measurement outputs the receiver 22 from the inputs of the switches 26, 30 and 27, 29, respectively, the switches 26, 30 connect the information outputs of the receivers 21, 23 to the inputs of the decoders 39, 40, respectively, and the switches 27, 29 connect the measurement outputs of these receivers to the inputs of the analysis units 33 and 34 , respectively, and, finally, the switch 31 connects the output of the unit for the formation of time intervals 2 simultaneously to the control inputs of the analysis units 33, 34. Moreover, the receivers 21, 23 at the beginning of each time interval Tr, by means of the interface units 43 and 44 respectively adjust At the next frequencies of standby reception and during the time interval Tv they wait for the call team to arrive from the correspondents, and if such a command arrives, they receive it.

At the beginning of the analysis interval Ta, the analysis blocks 33, 34, according to the signals from the block 2 forming the time intervals coming through the switch 31, issue the next operating frequency number to the frequency memory unit 37 and 38, respectively, into which all actual values (nominal values) of the operating frequencies are recorded in advance allocated for communication. The number of the operating frequency coming from the analysis unit is the address of the corresponding memory cell in which the nominal value of this frequency is stored. At a given address, the blocks 37, 38 select the nominal frequencies and issue them in the blocks 43, 44 of the interface, which provide the tuning of the receivers 21, 23 to these frequencies. After the receivers are tuned, the analysis units 33, 34 measure the levels of interference, for example, the rms interference voltage at these frequencies. The measured values of the interference levels are sent to the optimal frequency selection blocks, where the interference level at the current frequency is compared with the interference level at previous frequencies and the optimal reception frequency is determined from the frequencies allocated for communication, for example, to minimize the interference level.

The standby frequencies of the transmitters 4, 5 are formed by blocks 11, 12 of the formation of the standby frequencies, respectively.

If it is necessary to establish communication, a block 19 or a block 20 of modes (depending on which correspondent needs to be connected) issues a control signal to a block 17 or to a tuning block 18 and a signal for generating a calling command to a block 3 for generating service commands. Block 17 (18) at the beginning of the TV time interval, according to the synchronization signal from block 2 for generating time intervals, includes a multiplexer 6 (7) for broadcasting the next value of the standby frequency from block 11 (12) to the control input of transmitter 4 (5), which is tuned to this frequency. Block 3 forms the service part of the command to the called correspondent, containing the sign of the calling command. Block 35 (36) gives the number of the optimal reception frequency to block 37 (38). This number is the address of the memory cell in which the nominal operating frequency is stored. Block 37 (38) reads the nominal optimal operating frequency from the memory cell and provides it to the input of the encoder 15 (16) and through the multiplexer 8 (10) to the control input of the receiver 21 (23), which is tuned to this frequency. The switch 24 (32) by the signal from the block 19 (20) of the modes switches to transmitting commands to the correspondent, while the output of the synchronizer 13 (14) is connected to the signal input of the transmitter 4 (5). After the transmitter 4 (5) has been tuned by block 2 from the block 2, block 3 issues the service part of the command to encoder 15 (16), which generates a control command and carries out its conversion based on noise-resistant coding. From the output of the encoder 15 (16), a control command containing the nominal optimal receive frequency is supplied through the synchronizer 13 (14) to the input of the switch 24 (32). From the output of the switch 24 (32), the calling command is fed to the input of the transmitter 4 (5) and transmitted to the correspondent.

The correspondent call command at the output of the receiver 21 (23) is allocated to the decoder 39 (40), performing the inverse code conversion. The overhead part of the command from the decoder output goes to the receive analyzer 47 (48), and the value of the optimal frequency of the calling correspondent is issued to the multiplexer 6 (7). The analyzer 47 (48) selects the sign of the calling command and gives a signal about the receipt of this command in the block 19 (20) modes. This unit, upon receipt of a call command, provides a transition to a communication establishment mode.

In this case, three options for the operation of the radio station are possible:

1) the calling command is received by the receiver 21 and not received by the receiver 23;

2) the calling command is received by the receiver 23 and not received by the receiver 21;

3) the calling command is accepted by both the receiver 21 and the receiver 23.

In the first case, the service command generation unit 3, having received from the mode unit 19 a signal about the presence of a call command from the receiver 21, issues a command by which the multiplexer 6 prohibits the passage of signals from the output of the interface unit 43 to the control input of the receiver 21, the multiplexer 9 allows the passage of signals with the output of the interface unit 43 and prohibits the passage of signals from the output of the interface unit 44 to the control input of the receiver 22, the multiplexer 10 allows the passage of signals from the output of the interface unit 44 to the control input of the receiver 23, mmutators 25, 28 connect the information and measuring outputs of receiver 22 to the inputs of switches 26, 27 and disconnects them from the inputs of switches 30, 29, respectively, switch 26 disconnects the information output of receiver 21 from the input of decoder 39 and connects the output of switch 25 to it, switch 27 disconnects the measuring output of the receiver 21 from the input of the analysis unit 33 and connects the output of the switch 28 to it, the switches 29, 30, 31 remain in the initial state. Thus, in this case, the receiver 21 is disconnected by control from the interface unit 43, by the measurement output from the analysis unit 33 and goes into communication mode, and the receiver 22 is connected by control to the unit 43, and by the measurement output to the analysis unit 33 and goes in the standby mode of receiving ringing signals at the frequencies generated by block 41, and measuring interference at the operating frequencies of block 37, the receiver 23 remains in the mode of receiving ringing signals at the standby frequencies generated by block 42, and analyzing interference at the operating frequencies of block 38.

In the second case, the service command generation unit 3, having received from the mode unit 20 a signal about the presence of a call command from the receiver 23, issues a command by which the multiplexer 8 remains in its initial state, the multiplexer 9 prohibits the passage of signals from the output of the interface unit 43 and allows the passage of signals with the output of the interface unit 44 to the control input of the receiver 22, the switches 25, 28 disconnect the information and measurement outputs of the receiver 22 from the inputs of the switches 26, 27 and connects them to the inputs of the switches 30, 29, respectively, tori 26, 27, 31 remain in the initial state, the switch 29 disconnects the measuring output of the receiver 23 from the input of the analysis unit 34 and connects the output of the switch 28 to this input, and the switch 30 disconnects the information output of the receiver 23 from the input of the decoder 40 and connects the output to this input switch 25. Thus, in this case, the receiver 23 is disconnected by control from the interface unit 44, by the measurement output from the analysis unit 34 and goes into communication mode, and the receiver 22 is connected by control to the block 44, by the measurement output block 34 and proceeds to the reception standby mode ringing signals generated at frequencies unit 42 and analyzing the interference at the working frequencies block 38, the receiver 21 remains in the receive mode ringing signals on duty frequencies generated by block 41, and interference analysis in block 37 operating frequencies.

In the third case, the service command generation unit 3, having received signals about the presence of calling commands from both the receiver 21 and the receiver 23 from the mode blocks 19, 20, issues a command by which the multiplexers 8 and 10 prohibit the passage of signals from the outputs of the interface blocks 43 and 44 to the control the inputs of the receivers 21 and 23, respectively, the multiplexer 9 alternately with the period Tp allows the passage of signals to the control input of the receiver 22 from the output of the interface unit 43, then from the output of the interface unit 44, switches 25, 28 alternately with the period T The output and information outputs of the receiver 22 are then to the inputs of the switches 26, 27, then to the inputs of the switches 30, 29, respectively, the switches 26, 30 disconnect the inputs of the decoders 39, 40 from the information outputs of the receivers 21, 23 and connect them to the corresponding outputs of the switch 25, the switches 27, 29 disconnect the inputs of the analysis units 33, 34 from the measuring outputs of the receivers 21, 23 and connect them to the corresponding outputs of the switch 28, and the switch 31 alternately with the period Tp connects the output of the unit 2 for the formation of time intervals to the control input ka 33 analysis, then to the control input of block 34 analysis. Thus, in this case, the receivers 21, 23 are disconnected by control from the interface units 43, 44, respectively, by the measuring and information outputs from the analysis units 33, 34 and decoders 39, 40, respectively, and go into communication mode, and the receiver 22 is alternately with a period Tr is connected by control to the interface unit 43, then to the interface unit 44, and for information and measuring outputs, then to the analysis unit 33 and decoder 39, then to the analysis unit 34 and decoder 40, and switches to the alternate reception of ringing signals: on frequent the frequencies generated by block 41, and analyzing the operating frequencies of block 37, then at the frequencies generated by block 42, and analyzing the operating frequencies stored in memory block 38. When a call command is received in this case, the station operating mode does not change, and the call is registered in the corresponding block 19 (20) modes for informing the operator.

In the communication establishment mode, according to the signal from block 19 (20), block 17 (18) includes a multiplexer 6 (7) for broadcasting the received optimal reception frequency of the first correspondent from the output of decoder 39 (40) to the control input of transmitter 4 (5). Upon completion of the transmitter adjustment, block 19 (20) provides a signal to frequency selection block 35 (36), switches the switch 24 (32) to transmit control commands and gives a signal to form a response command to block 3 of generating service commands. Block 35 (36) gives the number of the optimal reception frequency to block 37 (38), which reads the frequency value from the corresponding memory cell number and outputs it to the input of encoder 15 (16) and to the control input of receiver 21 (23), which is set to this frequency. According to the clock signal from block 2 forming the time intervals, the block 3 forming service commands gives the service part of the control command containing the sign of the response command to the input of the encoder 15 (16). From the output of the encoder, the generated control command containing its optimal reception frequency is fed through a synchronizer 13 (14) and a switch 24 (32) to the signal input of the transmitter 4 (5) and transmitted to the correspondent at its optimal frequency.

At the calling correspondent, the response command is received by the receiver 21 (23) and allocated by the decoder 39 (40). In this case, the service part of the command from the output of the decoder 39 (40) is supplied to the receive analyzer 47 (48), and the nominal value of the optimal frequency of reception of the second correspondent is sent to the multiplexer 6 (7). When highlighting the sign of the response command, the analyzer 39 (40) provides the corresponding signal to the mode block 19 (20), which, through the block 17 (18), enables the multiplexer 6 (7) to transmit the received optimal frequency of the second correspondent to the control input of the transmitter 4 (5) . After that, the block 19 (20) modes gives in block 3 a signal for the formation of the service command "receipt", which confirms the establishment of communication. According to the clock signal from block 2, block 3 issues a generated “receipt” command to the input of encoder 15 (16), from the output of which through the synchronizer 13 (14) and switch 24 (32) it enters the input of transmitter 4 (5) and is transmitted to the correspondent. By transmitting the receipt command at the optimal frequency of the second correspondent, the fact of establishing a connection is confirmed. After the transfer is completed, block 19 (20) switches the switch 24 (32) to transmit the information message, while the output of the terminal block 45 (46) is connected to the input of the transmitter 4 (5). At the second correspondent, the “receipt” command is allocated by the decoder 39 (40) and enters the receive analyzer 47 (48), which gives to the block 19 (20) a confirmation signal for establishing communication between the correspondents. Block 19 (20) switches the switch 24 (32) to transmit an informational message, and the radio goes into communication mode.

Thus, the proposed device, in comparison with the prototype, allows the following additional functions:

1) in standby mode, receive ringing signals from the correspondents of two radio networks operating on different frequency packets, and select the optimal operating frequencies for these correspondents;

2) while in communication mode with the correspondent of one radio network, to receive ringing signals and select the optimal operating frequencies in this and the second radio network;

3) communicate simultaneously with two correspondents in different radio networks and at the same time carry out alternate reception of ringing signals and select the optimal communication frequencies in two radio networks.

Claims (1)

A radio station containing a serially connected unit of uniform time, a unit for generating time intervals and a unit for generating service commands, serially connected to a first frequency tuner, a first multiplexer and a first transmitter, serially connected to a first encoder, synchronizer and switch, the output of which is connected to the input of the first transmitter, unit the formation of standby transmission frequencies, the inputs of which are connected to the outputs of the unit of uniform time and the unit of formation of time intervals, and the output under is connected to the input of the first multiplexer, the unit for setting operating modes, the outputs of which are connected to the inputs of the service command generation unit, the first frequency tuning unit and the first switch, the first receiver, the control input of which is connected to the output of the second multiplexer, and the information output of the first receiver is connected to the terminal input unit, one output of which is connected to the input of the unit for setting operating modes, and the other to the second input of the synchronizer and the second input of the switch, the second receiver is connected in series second analysis unit, frequency selection unit and frequency memory unit, the second input of which is connected to the second output of the analysis unit, one output of which is connected to the second input of the first encoder and the second input of the second multiplexer, and the other output to the input of the interface unit, the second input of which is connected to the output of the unit for forming the standby reception frequencies, the inputs of which are connected to the outputs of the unit for single time and the unit for forming time intervals and a decoder, one output of which is connected to the second input of the first multiplexer, and the second is connected is connected to the input of the receive analyzer, the output of which is connected to the second input of the first multiplexer, and the second to the input of the receive analyzer, the output of which is connected to the fourth input of the operating mode setting unit, characterized in that, in order to provide simultaneous communication with several correspondence, the second transmitter, third receiver, second standby frequency forming unit, second pairing unit, second, third and fourth multiplexers, eight switches, second frequency tuning unit, second mode setting unit there is a second reception analyzer, a second encoder, a second synchronizer and a second terminal block, the control input of the second transmitter being connected to the output of the third multiplexer, one information input of which is connected to the output of the second block of formation of standby transmission frequencies, the output of which is connected to the output of the unit of uniform time and block for the formation of time intervals, the control input of the third multiplexer is connected to the output of the second tuning block, the second input of which is connected to the output of the second block of the job mode work, the second input of which is connected to the output of the service command generation unit, the output of which is connected to the output of the second synchronizer, one output of the second operation mode setting unit is connected to the output of the second terminal unit, the second output of which is connected to the inputs of the second synchronizer and second switch, the output of which connected to the input of the first transmitter, and the input to the output of the third receiver, the second input of the first unit for setting operating modes is connected to the output of the first reception analyzer, the input of which is connected to the output of the second decoder, the second output of which is connected to the second input of the third multiplexer, the third output of the second operation mode setting unit is connected to the control input of the second switch, the output of the second reception standby frequency generating unit through the second interface unit is connected to the information input of the fourth and fifth multiplexers, the second input the interface unit is connected to the output of the second frequency memory unit, the second input of the fifth multiplexer is connected to the second output of the frequency memory unit, the output of which is connected with the input of the second encoder, the information output of the first receiver is connected to the input of the encoder, and the measuring output of the first receiver is connected to the input of the fourth switch, the second input of the third switch is connected to the output of the fifth switch, the input of which is connected to the information output of the second receiver, the control input of which is connected to the output the fourth multiplexer, the second input of which is connected to the output of the first interface unit, the measuring output of the second receiver is connected to the output of the sixth switch, one output One of which is connected to the second input of the fourth switch, and the second output is to the input of the seventh switch, the second input of which is connected to the measuring output of the third receiver, and the output is connected to the input of the second analysis unit, the output of the fourth switch is connected to the input of the first analysis unit, information output of the third the receiver is connected to the input of the eighth switch, the second input of which is connected to the second output of the fifth switch, and the output of the eighth switch to the input of the second decoder, the information output of the second block a Naliza is connected to the input of the frequency selection unit, the second input of which is connected to the fourth output of the second operation mode setting unit, the control output of the analysis unit is connected to the output of the frequency memory unit, the second input of which is connected to the input of the frequency selection unit, the second inputs of the first and second analysis units are connected to the corresponding outputs of the ninth switch, the input of which is connected to the output of the unit for the formation of time intervals, the control inputs of the second and fifth multiplexers of the third, fourth, seventh and eighth the switches are connected to the third output of the service command generation unit, and the control inputs of the fourth multiplexer, fifth, sixth and ninth switches are connected to the fourth output of the service command generation unit.