SU886303A1 - Device for multichannel reception of discrete signals - Google Patents

Description

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The invention relates to a technique for data transmission over communication channels.

A device for multichannel reception of discrete signals is known, comprising an analog-to-digital converter and a series-connected recirculator and multiplier, for which the pW is connected to the output of the reference voltage generator, as well as the adder, the input and output of which are connected respectively to the output of the multiplier and the input of the signal converter 1.

However, the known device has insufficient noise immunity.

The purpose of the invention is to improve noise immunity.

This goal is achieved in that a device for multichannel reception of discrete signals containing an analog-to-digital converter is connected in series to a recirculator and a multiplier, to the second input of which the output of the reference voltage generator is connected, as well as an adder, the input and output of which are connected respectively to the output of the multiplier with the input of the signal converter, entered

additional adder, delay elements, additional multipliers and synchronized generators, the outputs of which are connected to the first inputs of additional multipliers, the second inputs of which are connected to the output of the analog-digital converter, and the output of the corresponding additional multiplier 10 is connected to the first input of the additional adder, the second and third the inputs of which are connected to the outputs of the delay elements, the outputs of the corresponding additional multipliers are connected to the inputs of the KOTOi ix, and The output of the additional adder is connected to the recirculation input.

The drawing is structural

20 is an electrical circuit of the proposed device.

 I

A device for multi-channel reception of discrete signals contains

25 analog-to-digital converter 1, additional multipliers 2-4, synchronized generators 5-7, delay elements 8 and 9, additional adder 10, recirculator 11g

30 multiplier 12, adder 13, reference voltage generator 14, and converter 15.

The device works in the following way.

The input group signal is multiplied by an additional reference signal. If the duration of the additional reference signal is greater than the duration of the T chip, then the input group signal must be separately multiplied by additional signals shifted by T. These signals are then separately demodulated, and the outputs of the respective integrators are combined. In fact, this will require a significant increase in the number of correlators. But taking into account the periodicity property of the harmonic reference signals, as well as the fact that after multiplying by an additional reference signal, and then the channel reference signal, the samples are still added up, you can apply a device like that to the receiver at the reception, which multiplies the input reference signal sigpal, and then appropriately minimizes it to the duration of TQ.

The group input signal from the output of the analog-digital converter 1 is multiplied in multiplier 2-4 by additional reference signals generated by generators 5-7 and then the signals from the outputs of multipliers 3 and 4 are summed in adder 10 with the signal from the output of multiplier 2. Unlike modulator additional reference generators are synchronized differently and the order of connecting the generators to the corresponding multipliers is inverse.

As a result, in the demodulator the reverse operation is performed, signals of duration ntff are received, multiplied by the corresponding additional reference signal of the same duration, and then the group

  until it turns back

signal

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Further filtering out of the group signal and the selection of information are kept the same as in the known device.

The use of the proposed device makes it possible to increase the reliability of receiving information over communication channels with large distortions of frequency response and phase response and spectrum-centered interference

Claims (1)

1. USSR author's certificate 430502, cl. H 03 K 9/06, 1972 (prototype). | . | /