SU1202065A1 - Device for transmission of discrete information - Google Patents

Abstract

A DEVICE FOR DISCRETE INFORMATION TRANSMISSION, containing on the transmitting side a first adder h a carrier frequency generator, serially connected phase manipulator and multiplier, serially connected clock generator and pseudo sequence generator, one outputs of which are connected to the signal inputs of the first switch, control input and the output of which is connected respectively to the output of the first adder and the second input of the multiplier, the output of the carrier frequency generator is connected To the first input of the phase switch, the second input of which and the first input of the first adder are combined and are the input of the first information source, the second input of the first adder is the input of the second information source, and on the receiving side the first and V, multipliers and synchronization unit , the signal inputs of which are combined and are the input of the receiving side, while the outputs of the first and second multipliers cc summing and first readout blocks are connected to the signal inputs of the first and second channels information processing, the first output of the synchronization unit is connected to the synchronization inputs of the first and second information processing channels, and the second output - to the input of the first pseudo-random sequence generator, some outputs of which are connected to the reference inputs of the first and second multipliers, in order to increase the volume the transmitted information, on the transmitting side, the second switch and the second adder are entered, the output of which is connected to the control input of the second switch, signal inputs and outputs One of which is connected to the other outputs and the second input of the pseudo-random sequence generator, the first input of the second adder is connected to the second input of the phase manipulator, the second input of the second adder is an input of an additional source of information, and a second subtraction unit is entered on the receiving side and pseudorandom sequence generator, additional information processing channel, the third and fourth multipliers, the signal inputs of which are connected to the input of the receiving stop us, and the outputs are connected to additional inputs of the first adder and subtractor blocks and one input of the second subtracting unit, the other inputs of which are connected to outputs of the first and second multipliers, the output of the second subtracting unit is connected to the signal input of the additional signal processing channel, a clock input Ko

Description

the second is connected to the first output of the synchronization unit, the second output of which is connected to the input of the second pseudo-random sequence generator, one outputs of which are connected to the reference inputs of the third

and the fourth multiplier, while the other outputs of the first and second pseudo-random sequence generators are connected to the control inputs of the synchronization unit.

The invention relates to communications and can be applied in radio links for transmitting discrete information using noise-like signals. The aim of the invention is to increase the amount of information transmitted. The drawing shows a structural electrical circuit of the device. The device contains on the transmitting side a carrier frequency generator 1, a phase handler 2, a multiplier 3, the first switch 4, a pseudo-random generator 5, a sequence, a clock frequency generator 6, the first adder 7 whose inputs are the inputs of the first and second information sources, the second switch 8 and the second adder 9, the second input of which is the input of an additional source of information, and on the receiving side the synchronization unit 10, the first multiplier 11, the second multiplier 12, the third; the multiplier 13, a quarter The multiplier 14, the first generator 15 (pseudo-random sequence, the second generator 16 of the pseudo-random sequence, the summing unit 17, the first subtraction unit 18, the second subtraction unit 19, the first information processing channel 20, the second information processing channel 2.1 and the additional information processing channel 22 Each information processing channel contains a band-pass filter 23, a phase detector 24, an integrator 25 and a threshold unit 26. The device for transmitting discrete information works as follows. The inputs nejjBoro and the second sum of tori 7 and 9 receive information sequences from the first, second, and additional sources of information, and the durations of the information pulses are equal to the period of the pseudo-random sequence j generated by the generator 5 of the pseudo-random sequence under the action of clock pulses from the generator 6 clock frequency to the input of the pseudo-radiant sequence generator 5. The information sequence of the first source of information manipulates in phases e at 0.180 in the phase manipulator 2. the signal of the generator frequency carrier 1. The control input of the switch 4 is summed modulo two information sequences of the first and second information sources.With this signal, the switch 4 connects to the multiplier 3 the corresponding generator output 5 of pseudo-random sequence, i.e., modulates the pseudo-random sequence by delay. In multiplier 3, the phase-shifted carrier frequency signal is multiplied by the modulated th delay pseudorandom sequence. The control input of the second switch 8 is supplied from the output of the second adder 9, a signal equal to the sum modulo two information signals of the first and additional information sources. As a result, pseudo-random sequences of different structure are formed in the pseudo-random sequence generator 5. Thus, a wideband phase-manipulated signal with a phase manipulation of the carrier frequency by an information signal from the first information source, with modulation of a pseudo-random sequence of delaying the logical sum of information signals of the first and second sources of information and modulating a pseudo-random sequence according to the logical structure the sum of the information signals of the first and additional sources of information. On the receiving side, the input signal is fed to multipliers 11 and 12, the reference signals to which are taken from the corresponding outputs of the first pseudo-random field generator / :( (15) and to the multipliers 13 and 14, the reference signals to which are taken from the corresponding outputs of the second generator t6 of a pseudo-random sequence The structures of the pseudo-random sequences formed by the first and second generators 15 and 16 of the pseudo-random sequence correspond to the structure of the pseudo-random sequence it, generated by a pseudorandom sequence generator 5 as a result of switching the feedback under the action of information signals of the first and additional information sources. Pseudo-random sequences generated by the first and second generators 15 and 16 of the pseudo-random sequence, maintaining | 10, the signal of which is applied to the clock inputs of the first and second generators 15 and 16 of pseudo-random sequences. The signals from the outputs of the multipliers 11-14 are fed to the inputs of the summing block 17, from which the signal manipulated in phase of the information sequence of the first source is fed to the input of the first information processing channel 20 consisting of a series-connected band-pass filter 23, a phase detector 24 an integrator 25 and a threshold unit 26, from the output of which the information signal is fed to the first recipient of information. The signals from the outputs of multipliers 11-14 are fed to the corresponding inputs of the first and second subtractive blocks 18 and 19. As a result, the output of the first subtractive block 18 generates a signal that is phase-manipulated by the information sequence of the second information source. This signal is fed to the input of the second information processing channel 21, from the output of which the information signal is fed to the second recipient of information. At the output of the second subtractive unit 19, a signal is generated, phase-manipulated by the information sequence of the additional source of information. This signal is fed to the input of the additional information processing channel 22, from the output of which the information signal is fed to an additional information source. The supply of signals from the outputs of the multipliers 11-14 to the summing unit 17 ensures the elimination of the influence of the second and additional information channels on the first. Similarly, the independence of the second information channel from the first and additional, and the additional channel from the first and second, is ensured. As a reference signal for phase detectors 24, a carrier signal from the output of synchronization unit 10 is used.

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Claims (1)

A DISCRETE INFORMATION TRANSMISSION DEVICE comprising, on a transmitting side, a first carrier frequency adder, a phase manipulator and a multiplier connected in series, a clock frequency generator and a pseudo-random sequence generator connected in series, one output of which is connected to the signal inputs of the first switch, the control input and output of which are connected respectively, with the output of the first adder and the second input of the multiplier, the output of the carrier frequency generator is connected to the first the input of the phase manipulator, the second input of which and the first input of the first adder are combined and are the input of the first information source, the second input of the first adder is the input of the second information source, and on the receiving side, the first and. the second multipliers and the synchronization unit, the signal inputs of which are combined and are the input of the receiving side, while the outputs of the first and second multipliers are connected to the signal inputs of the first and second channels of information processing through the summing and first subtracting blocks, the first output of the synchronization unit is connected to the synchronizing inputs of the first and the second channels of information processing, and the second output is to the input of the first pseudo-random sequence generator, one of which outputs are connected to the reference inputs of the of the second and second multipliers, characterized in that, in order to increase the amount of information transmitted, a second switch and a second adder are introduced on the transmitting side, the output of which is connected to the control input of the second switch, the signal inputs and output of which are connected respectively to other outputs and the second input of the generator pseudo-random sequence, with the first input of the second adder connected to the second input of the phase manipulator, the second input of the second adder is the input of an additional I of the information source, and on the receiving side, a second subtracting block and a pseudo-random sequence generator, an additional information processing channel, a third and fourth multiplier are introduced, the signal inputs of which are connected to the input of the receiving side, and the outputs are connected to additional inputs of the summing and first subtracting blocks and one input the second subtracting unit, the other inputs of which are connected to the outputs of the first and second multipliers, the output of the second subtracting unit is connected to the signal input signal processing channel synchronizing the input of the SU „„ 12020651202065 and the fourth multipliers, while other outputs of the first and second pseudo-random sequence generators are connected to the control inputs of the synchronization unit. which is connected to the first output of the synchronization unit, the second output of which is connected to the input of the second pseudo-random sequence generator, one of which outputs are connected to the reference inputs of the third