RU2113762C1 - Wide-band signal communication system - Google Patents

Abstract

FIELD: radio engineering. SUBSTANCE: transmitting part of device has carrier and clock oscillator 1, synchronization sequence generator 2, information sequence generator 3, phasing unit 4, multipliers 5, 6, 8, delay gate 7, majority compression unit 9. Receiving part of device has multipliers 10, 11, reference random sequence conditioner 12, reference random sequence generator 13, phasing unit 14, synchronization unit 15, filters 16, 17, phase detector 18, multiplier 19, filter 20, phase detector 21, delay gate 22. EFFECT: increased stability to noise, increased functional capabilities. 1 dwg

Description

 The invention relates to the field of radio engineering and may find application in communication systems with broadband signals.

 A known communication system with broadband signals, comprising a reference signal generator, a PSP generator, multipliers, a reference signal generator, a PSP generator, a multiplier, a phase detector, and a correlator [1] on reception.

 A disadvantage of the known device is its low immunity to intentional interference.

Closest to the proposed device is a device containing a carrier and clock frequency generator, the first output of which is connected to the first inputs of the reference sequence generator and information sequence generator, the second inputs of which are connected to the phasing unit outputs, and the outputs of the reference and information sequence generators are connected to the first the inputs of the first and second multipliers, respectively, to the second inputs of which, respectively, through a 90 ^o phase shifter and phase manipulation the torus is connected to the second output of the carrier and clock frequencies, and the outputs of the first and second multipliers are connected to the inputs of the adder, at the reception there is a synchronizer, the input of which is connected to the first inputs of the first and second multipliers, and the output of the synchronizer is connected to the first inputs of the reference driver shaper and the reference driver generator , to the second inputs of which the outputs of the dosing unit are connected, and the outputs of the driver of the reference SRP and the generator of the SRP are connected to the second inputs of the first and second multipliers, the outputs of which s, respectively, through the first and second filters are connected to inputs of the phase detector [2].

 A disadvantage of the known device is its low immunity to intentional interference and low functionality.

 The technical result is an increase in noise immunity and expansion of functionality.

 The drawing shows a structural block diagram of a communication system with broadband signals.

 The communication system with broadband signals comprises a carrier and clock frequency generator 1, a synchronization sequence generator 2, an information sequence generator 3, a phasing unit 4, multipliers 5, 6, 8, a delay element 7, a majority seal block 9, and multipliers 10, 11 for receiving , driver 12 reference SRP, generator 13 reference SRP, block 14 phasing, block 15 synchronization, filters 16, 17, phase detector 18, multiplier 19, filter 20, phase detector 21, delay element 22.

 A communication system with broadband signals operates as follows.

 In the generator 2 of the sync sequence and the generator 3 of the information sequence using the clock frequency from the output of the generator 1, the sync sequence and information sequence are formed. Two structures of the information sequence, differing in the amount of delay set in the delay element 7, are manipulated by information symbols in the multipliers 6 and 8. These two structures of the information sequence and synchronization sequence and SP enter block 9, where they are majority-compressed. Block 9 of the majority seal 4 can be performed on the chip 564LP13 (three-input majority key). The compressed video signal manipulates the phase in the multiplier 5 carrier, coming into the multiplier 5 from the generator 1.

 In the receiving part of the system, the synchronization unit 15 synchronizes the reference SRPs generated in the driver 12 and the generator 13 with the received signal. In multipliers 11 and 19, the information sequence is removed from the input signal due to multiplication with the corresponding reference signals from the outputs of blocks 13 and 22. The extracted signals are filtered by filters 17 and 20 and fed to phase detectors 18 and 21, where using the reference signal ( formed in the multiplier 10 and the filter 16 due to the removal of the sync sequence and its filtering) they are demodulated.

Claims (1)

 A communication system with broadband signals, comprising a carrier and clock generator on the transmitting side, the first output of which is connected to the first inputs of the clock generator and information sequence generator, the first inputs of which are connected to the first and second outputs of the phasing unit, as well as the first and second multipliers, respectively the output of the information sequence generator is connected to the input of the second multiplier, and on the receiving side, the synchronization block, the output of which It is connected to the first inputs of the generator of the reference pseudo-random sequence (PSP) and the driver of the reference PSP, the second inputs of which are connected respectively to the first and second outputs of the phasing unit, and the input of the synchronization unit is the input of the receiving part and connected to the first inputs of the first and second multipliers, to the second inputs which the outputs of the reference driver of the reference SRP and the generator of the reference SRP are connected to, while the outputs of the first and second multipliers respectively through the first and second filters are connected They are connected to the first and second inputs of the first phase detector, characterized in that a majority seal block and a series-connected delay element and a third multiplier are inserted on the transmitting side, the output of which is connected to the third input of the majority seal block, the outputs of the generator respectively are connected to the first and second inputs of it the synchronization sequence and the second multiplier, and the output of the majority seal block and the second output of the carrier and clock frequencies are connected respectively to the first and second inputs of the first multiplier, and on the receiving side there are connected in series a delay element, a third multiplier and a second phase detector, to the second input of which the output of the first filter is connected, while the output of the reference reference generator is connected to the input of the delay element, and the second input of the third multiplier connected to the input of the synchronization unit.