SU555556A1 - Device for receiving phase-shifted pseudo-random signals - Google Patents

Claims (2)

(54) DEVICE FOR RECEIVING SIGNALS FAZOMANIPULIROVAKNYH pseudorandom delay tracking, channel separation 1 and gaformatsii blo.k.-Board, to the second input of which is connected to the output pulse shaper, a delay element whose output is connected to the input of the second multiplier, the second input of which is connected to the input of the delay element, and successively connected phase detector, low pass filter and clock generator, the output of which is connected to the first input of the phase detector, while the input of the first multiplier is connected The second input of the synchronous detector, the output of which is connected to the second input of the information extraction channel, and the output of the control unit connected to the second input of the tracking device, is connected connected to the differential unit and the comparator, the output of which is connected to the input of the pulse former, and the input the element of the holder is connected to the input of the first multiplier, to the second input of which the output of the delay tracking unit is connected, and the output of the low-pass filter is connected to the input of the differentiating unit, In this case, the output of the second multiplier is connected to the second input of the phase detector. The drawing shows a structural electrical circuit of the proposed device. The device comprises a series-connected first transmitter 1, a phase locked loop 2, a synchronous detector 3, a delay tracking unit 4, an information extraction channel 3, and a pack. 6, as well as successively connected delay element 7, second multiplier 8, phase detector 9, low-pass filter 1O (LPF J, differentiating unit 11, Koivntaparop 1.2 ii pulse generator 13. At the same time, output H1CH 10 is connected to clock 14 the first input of the phase detector 9, the output of the pulse generator 13 is connected to the second input of the control unit 6, the input of the delay element 7 is connected to the second input of the second multiplier 8, to the input of the first multiplier 1 and the second input of the synchronous detector 3. The output of the tracking unitdelay 4 is connected to the second input of the first multiplier 1, and the output of synchronous detector 3 is connected to the second input of the information extraction channel 5. You run the control unit 6 connected to the second input of the delay tracking unit 4, the device works as follows the signal according to the law of a binary pseudo-random sequence enters the input of the device and in multiplier 1 is converted into a harmonic signal and is multiplied with the reference binary signal coming from the output delay tracking circuit 4, and filtered by phase locked loop 2. This same input signal in synchronous detector 3 is converted into a binary sequence, since its second input receives a harmonic signal from the output of the phase locked loop 2. The selected binary signal enters the delay tracking unit 4 and into the extraction channel 5. The delay tracking unit monitors the temporal position of the demodulated signal by correlating the temporal position of the reference pseudo-random signal. The channel 5 for extracting information, by comparing the reference sequence with the received one, carries out the selection of information pulses that arrive at its first input, and signals the presence of synchronization on delay. The signal about the presence or absence of synchronization from the output of the information extraction channel 5 goes to the control unit 6. In the absence of synchronization, the control unit 6 connects the output of the synchronization channel 15 to the setup input of the delay tracking unit 4. In this case, the pulses of the synchronization channel 15, which carry information about the temporary position of the received signal, return the receiving device to the synchronism position. The operation of the synchronization channel 15 is as follows. The signal from the receiver input is fed to a clock selection circuit formed by an element of the tailgate 7 and multiplier 8. In the spectrum, the product of the phase-shift pseudo-random signal of the same signal, mixed in time by half the clock frequency, contains a clock component pseudo-random signal. The signal from the output of the clock selection circuit goes to the phase-locked loop, which is formed by sequentially turning on the phase detector 9, the filter of the 10 main frequencies, the clock generator 14 covered by feedback, and filtered by it. Due to the fact that manipulating the pseudo-random signal by delay leads to manipulating the clock frequency phase by 180, the phase of the selected clock frequency variation changes in accordance with the binary information1 (and the messages that are linked in the temporal position to the beginning of the pseudo-random sequence signal. At the same time, the phases of phase shift keying oscillations of the clock frequency cause a characteristic transient process in the phase self-tuning loop. 1 SA and temporary position of the beginning of the pseudo-random signal. For this purpose, are used in series differentiation unit 11, comparator 12, pulse generator 13. Determining the temporal beginning of the pseudo-random signal allows the receiver to be entered into the synchronization mode.Application of the proposed device increases the probability of an error-free reception and information isolation, and also increases the reliability of the transmission and reception system as a whole. Therefore, there is no need for additional redundancy or the creation of multichannel communication systems, which have a significant effect on the reduction of network constancy. Apparatus for receiving phase-shifting pseudo-random signals comprising a first multiplier connected in series, a phase locked loop unit, a synchronous detector, a delay tracking unit, an information extraction and control channel, to the second input of which the pulse shaper output is connected. The output element of which is connected to the input the second multiplier, the second input of which is connected to the input of the element of the support, and the phase detector connected in series, the lower filter An atot and a clock generator, the output of which is connected to the first input of the phase detector, the input of the first multiplier is connected to the second input of the synchronous detector, the output of which is connected to the second input of the information extraction channel, and the output of the control unit is connected to the second input of the delay tracking unit, different By the fact that, in order to improve the noise immunity, a series-connected differentiating unit and a comparator were introduced, the output of which is under the kit to the pho. the pulse former, the input of the delay element is connected to the input of the first multiplier, to the second input of which the output of the delay tracking unit is connected, and the output of the low-pass filter is connected to the input of the differentiating unit, and the output of the second multiplier is connected to the second input of the phase detector. Sources of information taken into account in the examination: 1. USSR Copyright Certificate №422354, M. C H 03 G, 5/16, 1971 (prototype. Bbifod