SU634472A2 - Noise-like signal synchronizing arrangement - Google Patents

Description

The invention relates to radio engineering and can be used in communication systems with noise-like signal systems, requiring accelerated synchronization in conditions of large interference.

According to the main author. St. No. 576669, a device for synchronizing noise-like signals, containing two multipliers combined by one of the inputs, to the second inputs of which are connected the corresponding 1 outputs of the carrier frequency generator, and the outputs of the alternators are connected to the inputs of the integrators, respectively, through the first adder connected to the input of one of the quadrants, and the outputs of other integrators through the second adder connected to another quad, in addition, the outputs of the quadrants through the third sum. The core generator, the threshold unit and the control unit are connected to the control inputs of the threshold unit module of the mountain.

However, such a device has a low noise immunity.

In the first instance of the invention is one of the following;

For this purpose, in the synchronization device of noise-like signals, containing two transducers united by one of the inputs, to the second inputs of which the corresponding outputs of the oscillator and the carrying frequency are connected, and the outputs and multipliers are connected via M () to the secondary signals and connected. Relevant to the inputs of the integrators, the outputs of some i;:; 1chOthers through the first adder are connected to one of the quadrants, and the outputs of other integrators via the second adder are connected to the other quadrant, in addition, the outputs of the quadrants through the third adder, converter, threshold unit i control unit, are tied to the control inputs of the threshold block and. signal modulator modulator, an additional multiplier, an additional adder, two colsers and a phase-shifting unit are introduced, with the additional multiplier multiplexer being switched on by the information input of the variable k1 T (and the first hole of the module 1О) 3 CHMia.iois, the outputs of the first and third integrators are connected respectively

to the inputs of an additional summator, the output of which through the first comparator is connected to one of the inputs of the phase-shifting unit, and the output of the second integrator, via the second comparator, is connected to the additional input of the control unit, the additional output of which is connected to the control input of the carrier frequency generator, the additional output which is connected to the reference input of an additional multiplier.

The drawing shows a structural electrical circuit of the device.

It contains the multipliers 1, 2, united by one of the inputs, to the second inputs of which the corresponding outputs of the carrier frequency generator 3 are connected, and the outputs of the multipliers 1, 2 are connected via the modulator of signals 4 to the inputs of integrators 5 and 6, adders 7 and 8, quadrants 9 and 10, the outputs of the quadrants through the adder 11 and the converter 12, the threshold unit 13 and the control unit 14 are connected to the control inputs of the signal modulator 4, the adder 15, the output of which is connected to the input of the generator 3 n via the comparator 16 sheer frequency comparator 18 and a multiplier 19.

The device works in the following way.

The signal and interference mixture input to the device is multiplied in multipliers 1 and 2 with a sinusoidal voltage of the carrier frequency and voltage shifted in phase by 1/2 from the generator 3. The signals from the multipliers 1, 2 are manipulated by the signal modulator 4 according to the pseudo-random sequence (PSP) with delays on the length of the PSP element, and the resulting signal convolution is integrated by integrators 5 and 6. The integration results are combined into one channel by adders 7 and 5, forming a sequence of values of forward oh and quadrature component of the correlation function. The values obtained are successively squared by quadrants 9 and 10, summed in pairs by adder 11, the square root is extracted by converter 12 and compared with the adjustable threshold of threshold unit 13. When the threshold is exceeded, the second synchronization stage begins, proceeding as described above, but with a modified signal the control unit 14 by the threshold and the SRP offset by the period of the carrier oscillation. At the time of the second threshold exceeding, the third synchronization stage begins.

To calculate the three values of the correlation function needed to detect the phase error, the mixture of signal and noise at the input of the device is multiplied by multipliers 2 and 19, respectively, with three carrier voltage voltages that are 31/2 offset from the previous phase. Generator 3. The results of the multiplication are manipulated in the modulator of signals by 4 three identical pseudo-random sequences, shifted in phase by from / 2 and integrated by the first three integrators 5, 6, 5, respectively. The results thus obtained correspond, in the absence of interference, to the values of the autocorrelation function.

At the beginning of the third stage, the error does not exceed / 2. At the same time, the value of the correlation function is always positive. This is controlled by the control unit 14 by means of a comparator 18 defining a sign. The measurement results of the first and second integrator 5 are added (the results of the second with the "-" sign) in the adder 15 and arrive at the comparator 16 to determine the sign of the difference, depending on which phase of the output voltages of the generator 3 is shifted by means of the block 17 in the direction of the coordinated position.

The proposed device synchronizes the noise-like signal with an accuracy up to the phase of the carrier wave, allowing coherent reception, which increases the noise immunity of the communication system.

Claims (1)

Invention Formula Synchronization device noise-like signals auth. St. N ° 576669, characterized in that, in order to increase noise immunity, an additional multiplier, an additional adder, two comparators and a phase shifting unit are introduced, the additional multiplier is connected between the information input, the multipliers and the additional input of the signal modulator, the outputs of the first and third integrators are connected respectively to the inputs of the additional adder, the output of which through the first comparator is connected to one of the inputs of the phase-shifting unit, and the output of the second integrator via volts swarm comparator is connected to an additional input of the control unit, via an additional output of which phase-shifting unit is connected to the control input of the carrier generator, an additional output is connected to the reference input of an additional multiplier.