SU777845A1 - Device for synchronising noise-like signals - Google Patents

Description

one

The invention relates to radio engineering and can be used in communication systems for various purposes to accelerate the synchronization of noise-like signals (PSS) under interference conditions.

A device for synchronizing noise-like signals is known, containing two channels, each of which consists of a series-connected multiplier, integrator and converter “analogue digit, the output of which is directly and through a register connected to the inputs of the first adder, while the outputs of the adders of each channel are connected to the inputs of the switch, the output of which is directly and via a delay unit connected to a block of adders with memory, and a convolution unit whose output is connected to the inputs of the first and second transducer teley "digital-analogue outputs which through co-responsible Quad 20 are connected to inputs of the second adder, the output of which is connected to a decision block 1.

However, the known device has a relatively low speed.

The aim of the invention is to increase speed.

For this, a noise-like signal synchronization device containing two channels, each of which consists of about 30

consequently, an analog-to-digital multiplier, integrator, and converter, the output of which is directly and through a register connected to the inputs of the first adder, while the outputs of the accumulators of each channel are connected to the inputs of the switch, the output of which directly and through the delay block is connected to the block of memory adders, and a convolution unit, the output of which is connected to the inputs of the first and second converters “digital-analogue, the outputs of which are connected through the corresponding quadrants to the inputs of the second adder, the output which is connected to the decision block, a switching matrix is inserted, connected to the decoder, while the outputs of the block of adders with memory are connected to the inputs of the convolution block through the switching matrix.

The drawing shows a structural electrical circuit of the proposed device.

The device for synchronizing noise-like signals contains multipliers 1, 2, integrators 3, 4, converters 5, 6 "analogue-digit, registers 7, 8, first adders 9, 10, delay unit 11, switch 12, block 13 adders with memory, block 14 convolutions, the first and second converters 15, 16 are digital-analogue, quadrators 17, 18, second adder 19, decider 20, decoder 21 and switching matrix 22. The reference voltage generator 23 is also shown.

The device works in the following way. An input and a signal and interference mixture is multiplied into the multiplier 1, 2 with sinusoidal and cosine voltages from generator 23. The output voltages of multipliers 1, 2 are integrated into discrete intervals by integrators 3, 4, respectively. The integration results are digitized by the converters 5, 6 and fed directly and through registers 7, 8 to the first adders 9, 10, respectively, in which the current values of the integrals are added and the time delayed in registers 7, 8 are subtracted by the duration of the elementary PSS symbol.

Thus, in the first adders 9, 10, the values of the integrals of the product of the input signal and the carrier voltage in the elementary symbol interval are recorded at each step. These values are alternately fed through switch 12 to block 11, as well as to the inputs of block 13, to another input of which these values arrive with a delay from block I. In block 13, the correlation functions of the segments are calculated, the values of which are received through the switching matrix 22 in block 14, in the order corresponding to the pseudo-random sequence structure defined by the decoder 21.

The values of the direct and quadrature components of the quadrature mutual correlation function of the input signal and the PSS copy obtained in block 14 are converted into analog voltage by the first and second

converters 15, 16, are squared by quadrs 17, 18, and are added to the second adder 19 to form a square cross-correlation function. 5 Decision block 20 detects the signal peaks of the correlation functions and generates sync pulses at the instants of their maximum values.

The proposed device is simple and provides a significant increase in the speed of entering synchronization when receiving PSS.

Claims (1)

1. USSR author's certificate in application number 2495112 / 18-09, cl. H 04L 7/06, 1977 (prototype). Elzt OO-CHZK-SH tl /