SU1256236A1 - Demodulator of digital signals - Google Patents

Abstract

The invention relates to telecommunications and can be used in data transmission systems and remote control. The aim of the invention is to improve the noise immunity in terms of the impulse noise / f / i conditions. The demodulator contains frequency channels -1.1-1.N, each of which consists of the first multiplier (P) 2, integrator 3, adder (C) 4 and second P 5, integrator 6, C 7, generator 8 signals of a given shape, decisive block 9, P 10 and 13, integrators 11 and 14, block 12 of the phase separation of the signal and block 15 of the extraction of the signal module. Each frequency channel also includes an amplifier 16, functional transducers 17 and 19, P 18 and 20. The additive impulse disturbance present in the input signal causes the appearance of sweeping voltages and and U-J at inputs C 4 and 7. In each frequency channel on the impulses P 18 and 20, signals equal and anti-phase are produced (P yi /. K

Description

U m uqH U:,. as a result, at outputs C 4 and 7, signals appear, in which the effect is compensated

The invention relates to power, and can be used in transmission systems, data and remote control.

The purpose of the invention is to improve noise immunity under the conditions of impulse noise.

The drawing shows a structural electrical demodulator circuit for digital signals.

The demodulator of digital signals contains frequency channels 1.1 1.N, each of which consists of the first multiplier 2, integrator 3 and adder 4 and second multiplier 5, integrator 6 and adder 7 of the generator 8 signals of a given shape and resolver unit 9, as well as contains the first multiplier 10, the first integrator 11, the block 12 for phase separation of the signal, the second multiplier 13, the second integrator 14 and the block 15 for extracting the signal module, and each frequency channel also includes the amplifier 16 the first functional converter 17 signals, third var ozhitel 18, the second function generator 19 signals and the fourth multiplier 20.

Digital signal demodulator: s works as follows.

Input multi-frequency signal. steps on the signal inputs of the first and second multipliers 2 and 5 of the frequency channels 1.1 - 1.N. The reference inputs of these multipliers receive in-phase and quadrature signals with frequencies corresponding to the operating frequencies of channels 1.1-1.N from the outputs of the generator 8 signals of a given shape. The signals c, the outputs of the first and second multipliers 2 and 5 of the frequency channels through the integrators 3 and 6 and the adders 4 and 7 arrive at the inputs of the decisive block 9, in which the discrete signals transmitted in each of the frequency channels 1.1 - I.N.

impulse noise, which leads to an increase in the noise immunity of the transmission of discrete information, 1 Il.

An additive pulse interference present in the input signal causes additional disturbing voltages at the inputs of the first and second adders 4 and 7: U, k-A sin GJ; c; U k-A-cos u; t 5

where A is the amplitude of the impulse noise j Q; is the frequency of the corresponding channel,

  the moment of occurrence of impulse noise relative to the beginning of a single signal element;

k is the coefficient of proportionality.

To eliminate disturbing voltages, the reference inputs of the first and second multipliers 10 and 13 from the additional outputs of the generator 8 of signals of a given shape are received respectively by the sinusoidal and cosine-shaped frequencies, which are absent in the input multi-frequency signal. The impulse noise, the passage through the first and second multipliers 10 and 13 and the integrators 11 and 14, causes the appearance of stresses, determined from the expressions and, |, | k-A sin (Uo); U (4 k A-cos (Wot), where WQ is the frequency that is absent from the entire input multi-frequency signal.

In block 12, the signal phase appears a signal proportional to u3 (ji, and in block 15, the signal modulus extraction module is a signal proportional to the amplitude of the pulse interference k A. The signal from the output of the signal phase extractor unit 12 is fed through the first additional inputs to the amplifier inputs 16 frequency channels, having a transmission coefficient ω; / ÖÖ, and then to the inputs of the first and second functional converters 17 and 19 of the signals j, on the outputs of which signals are formed, respectively

sin (U; D) and cos (u; t). These signals are sent to the first inputs of the third and fourth multipliers 18 and 20 frequency channels, to the second inputs of which, via the second additional inputs of the frequency channels, signals come from block 15 of the modulus of the signal module.

Thus, in each frequency channel, at the outputs of the third and fourth multipliers 18 and 20, signals are formed that are equal and antiphased to the interfering voltages U4 mentioned above, and as a result, the outputs that compensate for the effects of impulse noise , which leads to an increase in the noise immunity of the transmission of discrete information.

Claims (1)

Invention Formula A digital signal demodulator containing frequency channels, each of which consists of a series-connected first multiplier, integrator, and adder and a series-connected second multiplier, integrator, and adder, with the combined signal inputs of the first and second frequency channel multipliers, and the reference inputs of the first and second multipliers of the frequency channels are connected to the corresponding outputs of a signal generator of a given shape, with this output of the first and second frequency channel mummers are connected to Editor N. Dankulich Order 4838/59 Compiled by V. Zenkin Tehred M. Khodanich Proofreader T. Kolb Circulation 624 Subscription VNIIPY USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 1256236 the inputs of the decision block, the outputs of which are the outputs of the demodulator, characterized in that, in order to improve noise immunity, under the conditions of impulse noise, the first multiplier, the first integrator and the phase multiplier of the signal, which are connected in series to the second multiplier, are inserted into it, the second integrator and the module of the signal module, and in each frequency channel the first-functional converter of the signals and the third multiplier are introduced in series on the amplifier and consequently, the connected second functional signal converter and the fourth multiplier, the outputs of the third and fourth multipliers are connected to the second inputs of the first and second adders, respectively, the input of the second functional signal converter is connected to the amplifier output, while the reference inputs of the first and second multipliers are connected to the additional outputs A signal generator of a predetermined shape, the second inputs of the selection module of the signal module and the block of the signal phase separation are connected to the output The first and second integrators will be supplied with signals, the signal inputs of the first and second multipliers are combined with the input of the demodulator, and the input of the amplifier and the combined reference inputs of the third and fourth multipliers are connected respectively with the output of the signal phase separator and the output module of the signal module.