SU526081A1 - Device for compacting pseudo-noise signals - Google Patents

Description

rathora of orthogonal pseudo-random sequences and phase manipulators, as well as an adder, elements of coincidence and mismatch are introduced, key nodes and a counter, with the output of one of the phase ma. The nipulators are connected to the inputs of the adder via a mismatch element connected to the output of the second phase switch, the counter and the first key node, as well as through a coincidence element connected to the output of the second phase switch, and the second key node, to the second control input of which connected to the corresponding outputs of the counter, and the outputs of the multipliers are connected to the corresponding inputs of the key nodes. Reducing the peak factor of the signal contributes to the full use of power and, thereby, increases the noise immunity of information transmission. The drawing shows a structural electrical circuit of the device. A device for compacting pseudo-noise signals contains a carrier and clock oscillator (GNTP) 1, orthogonal pseudo-random-sequence generators (GOPSP) 2 and 3, phase manipulators (FM) 4 and 5, multipliers 6 and 7, adder 8, first and second key nodes 9 and 10, a matching element 11, a non-matching element 12 and a counter 13 on a (+ 1) pulse. The structure for compacting pseudo-noise signals works as follows. SSTC 1 generates two frequencies: the clock frequency for HOPS 2 and 3 and the carrier frequency of the signal. The clock frequency from the output of the SSTP 1 arrives simultaneously to the generators GOPSP 2 and 3, generating binary orthogonal pseudo-random sequences, which from the outputs GOPSP 2 and 3 arrive at phase manipulators 4 and o, respectively, the second inputs of which receive information binary sequences. In phase manipulators 4 and 5, the characters are manipulated by the sign of binary pseudorandom sequences in accordance with the signs of information binary symbols. Manipulated binary pseudo-random sequences from the outputs of phase manipulators 4 and 5 arrive at multipliers 6 and 7 and on elements of coincidence 11 and mismatch 12. At the second inputs of multipliers 6 and 7 receive sinusoidal carrier oscillations with GNTP 1. At the output of multipliers 6 and 7, signals that are oscillating

frequencies with a constant amplitude, manipulated in phase at 0 and 180 according to the laws of binary pseudo-random sequences.

Claims (2)

From the outputs of multipliers 6 and 7, signals arrive at key nodes 9 and 1O, respectively, whose outputs are connected to adder 8. The output signal from coincidence element 11 controls key j-evil 10 and opens it in case of coincidence of pulses at the input of coincidence element 11. Output the signal from the mismatch element 12 is fed to the counter 13, and the output signals from the counter 13 with P consecutive pulses at its input arrive at the second control input of the key node 10, and at 1H + d the pulse arrives at the control input of the key junction 9. Ta them, always open only one of the key units 9 and 10 and the adder 8 receives a signal from only one multiplier 7 or 6, respectively. According to (-1 this, at the output of the adder 8, the signal has a constant amplitude and a switched phase at 0 or 180, i.e. it has the smallest possible peak factor. The noise immunity of information transmission in this device for densifying noise signals increases due to the maximum use of the power of the radio transmitter and due to the absence of signal pauses during which harmful amplification of noise occurs, for example, in repeaters with severe signal limiting. Signals containing a oscillating oscillator and a clock, one of the outputs of which is connected to the first inputs of multipliers, to the other inputs of which is connected a second output of a generator of oscillations of the carrier and clock frequencies through sequentially connected generators of orthogonal pseudorandom sequences and phase manipulators, as well as an adder , characterized in that, in order to increase noise immunity, the device includes elements of coincidence and mismatch, key nodes and a counter, with the output of one of the ph The callback switches are connected to the inputs of the adder via a mismatch element connected to the output of the second phase shift key, the counters of the first key node, as well as a match element connected to the output of the second phase key switch, and the second key node to the second control 56 The corresponding input of which is connected is -1. Auth.St. THE USSR . 436449, current outputs of the counter, and outputs Cl. H 04 J 1/00, 1974. The multipliers are connected to the corresponding inputs of the key nodes. 2. Glen. Communication system with code sealers Information sources received at the attention of 5 channels. Foreign radioelectronic examination: ka, 1965 № 3, (prototype). 526081 Informal Blod 1 Informatsionny In