SU1564734A2 - 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 purpose of the invention is to reduce mutual interference and reduce the time to establish communication. To achieve this goal, trigger 7, element 21, memory block 29, comparison block 30 and reference level generator 31 are introduced. The block 29 receives signals, quantifying the level of the optimal operating frequency, and the clock signal. The fixed level arrives at block 30, where a comparison with the reference level takes place. If the level of the reference signal is greater than or equal to the fixed level, the radio station does not emit commands and does not interfere with the neighboring radio stations, respectively, a false operating frequency is not transmitted to the correspondent, which reduces the time to establish communication. 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 parameters, for example, decameter range, and is an improvement of the main invention according to ed. St. No. 122.0132. The purpose of the invention is to reduce mutual interference and reduce the time established communication.

The drawing shows a structural electrical diagram of the claimed radio station 15. The radio station contains a receiver 1, a decoder of 2 control commands, triggers 3 ~ 7, switches 8-10, a transmitter 11, a synthesizer 12 of the receiver frequencies, a block 13 for selecting the optimal 20 operating frequencies, a shaper of 14 control commands, a synthesizer 15 of the transmitter frequencies, block 16 memory hour, that of reception, block 17 of the memory of the frequencies of the transmission, block 18 of the tuning control> 25 frequencies of the receiver, the elements And 19 '21, the drivers 22, 23 of the pulse,; a synchronizer 24, a programmer 25, a first 26, a second 27 and a third 28 input signal buses, a memory unit 29, a comparator 30, a reference level driver 31 and a transmitter frequency tuning control unit 32.

The radio station operates as follows. 35

After switching on the operator station synchronizes program by transmitting the control action on the second bus 26 i and the impact on the third bus 27, sets eta pubic level ₄₀ (the expected level) interference, allowing to receive information from a correspondent. If necessary, the initial establishment! the communication operator provides a control action on the first bus 28 to the driver 23 of the pulse. The generated pulse transfers the second trigger 4 to state 1. The signal 1 from the output of the second trigger 4 is supplied to the inputs of the switches 9 and 10 and switches the control of the synthesizers 12 and 15 to blocks 18 and 32. At the same time, this signal goes to blocks 16 and 17 and allows switching • receiver 1 and transmitter 11 according to fixed frequency change programs configured by the ^first programmer 25 · Synchronism of program formation ,. switching_ is provided by the synchronizer 24 according to the signals coming from its outputs to blocks 18, 32 and the programmer

25. At the same time, blocks 18 and 32 provide tuning of the frequency synthesizers 12 and 15 in the passband of JF of receiver 1 and transmitter 11 relative to the nominal values of the fixed frequencies issued by blocks 16 and 17. Switching the transmission and reception frequencies is carried out at certain time intervals sufficient for tuning radio, selecting the optimal frequency and exchanging commands about the number of the optimal frequency. On the. each time interval specified by the synchronizer 24, after switching the receiving and transmitting frequencies and selecting the frequency according to the signal from the synchronizer 24, the driver 22 is launched, from the output of which the generated pulse arrives at the third and fourth triggers 5 and 6 and sets them to O. The signal About these triggers 5, 6 enters the first element And 19. At the same time, a pulse through the second element And 20, to the second input of which 1 comes from the second trigger 4, enters the third element And 21, the second input of which is logically s signal from the fifth latch 7.

To the memory block 29, from the block 13, signals are received that quantitatively evaluate the level of the optimum operating frequency selected in this frequency package and a synchronization signal that determines the moment and records the level in the memory block 29. The fixed level in the form of a code goes to the comparison unit 30, the second inputs of which receive the code of the reference level from the driver 31, the level entered by the operator using the third bus 27. In block 29, the comparison compares the levels (codes) and gives a signal at the first output in the case when the level of the reference signal is greater than or equal to the second - when the level of the reference signal is less. The fifth trigger 7, having received the control signal at the first input, and from the first output of the comparison unit 30 switches to state 1, which is fed to the second input of the third element And 21, and received the signal to the second input from the second output, switches to state O ¹¹ . , which goes to the second input of the third element And 21 and prevents the passage of the trigger signal.

Thus, the radio station does not emit commands and does not interfere with neighboring radio stations; accordingly, the false working frequency is not transmitted to the correspondent, which reduces the time of initial communication establishment.

When you select a working frequency with a lower noise level than the reference level, 1 enters the second input of the third element And 21 from the fifth trigger 7 and, accordingly, the triggering pulse from the shaper 22 goes to the shaper 14 and block 13 to request the optimal frequency and to the first trigger 3, which switches the switch 8 to the state of information transmission from the shaper 14 to the transmitter 11. At the edge of this pulse, the block 13 issues the operating frequency number to the switch 9 and the shaper 14, and upon the decline of this pulse encodes the working frequency number and gives a codogram to the input of the transmitter 11 through the switch 8. After transmitting the control command in the former 8, a signal is generated that goes to the first trigger 3 and sets it to its initial position, and the fourth trigger 6 to the state G ¹ .

Similar operations are performed with the second correspondent. When switching the radio equipment of correspondents to frequencies affected by interference, or in the absence of an operating frequency with a given level, control commands will not be received and the radio equipment will switch synchronously to the following fixed frequencies in the program. If the next pair of frequencies turns out to be suitable for communication and the choice of the operating frequency is made with the Preset level, then the decoders 2 correspondents will select control commands.

Adopted the operating frequency of the number with which you turn the decoder 2 is supplied to the switch 10, and the signal of the reception rooms of the working frequency of the decoder 2 is supplied to the third flip-flop 5 and translates it into a state of 1 ^st. When signals 1 coincide with the third and fourth triggers 5 and 6, the first element And 19 generates a signal that arrives at the second trigger 4 and puts it in state 0, from the output of the second three | - Gera 4 enters blocks 16 and 17 and fixes the receiver 1 and transmitter 11 at these program frequencies. At the same time, this signal enters the switches 9 and 10, which switch the control of the synthesizer 12 to block 13, and the synthesizer 15 ~ to the decoder 2, after which the radio means of the correspondents switch to the optimal frequencies and the exchange of information coming from external equipment to the switch 8 begins.

Claims (1)

The formula of the invention No. 1220132, characterized in that, in order to reduce mutual interference and reduce the time to establish communication, a series-connected memory unit, a comparison unit, a fifth trigger and a third And element, as well as a reference level driver, the output of which is connected to the second input of the comparison unit, are introduced moreover, the output of the second element And is connected to the second input of the driver of control commands through the third element And, and the additional outputs of the unit for selecting the optimal operating frequencies are connected to the inputs of the memory unit, and the input of the generator Alon level is the control input of the radio station.