SU1156263A1 - Reception device for multiplex communication channel system - Google Patents

Abstract

A RECEIVING DEVICE FOR THE SYSTEM OF SEALING COMMUNICATION CHANNELS, containing a generator of nominal signals, the outputs of which are connected to the inputs of n channels of signal processing, each of which consists of a series-connected multiplier, integrator, synchronous quantizer and low-pass filter, as well as an input amplifier whose output is connected to other multiplier inputs n signal processing channels, and to the input of the synchronization unit, the output of which is connected to the control input of the generator of polynomial signals and To the combined control inputs of the integrators and synchronous quantizers of the signal processing channels, an additional multiplier and a group decompressor, characterized in that, in order to improve noise immunity, a unit readout unit and a signal generator are inputted, and the output of the decompressor unit are connected to the inputs of the read unit and the output of the additional multiplier, and the output of the subtraction unit through the input amplifier is connected to one of the inputs of the additional multiplier, to another input the output of the signal generator is connected to the control input of which the output of the synchronization unit is connected. sl oh o) oe

Description

The invention relates to a communication technique and can be used in a field-type multichannel communication and in telemetry systems. The purpose of the invention is to increase noise immunity. The drawing shows a structural electrical circuit of a receiving device for a communication channel sealing system. The receiving device for a communication channel sealing system comprises a group decompressor unit 1, a subtraction unit 2, an additional multiplier 3, and a generator of 4 signals described by the Hermite zero function by the IF ratio . input amplifier 5, synchronization unit 6, generator 7 of polynomial signals and n channels of signal processing, each of which consists of consecutively connected alternators 8, integrator 9, synchronous quantizer 10 and low-frequency filter 11. Receiver for compression system of communication channels works in the following way. The signal on the communication line is fed to the input of the group 1 decompressing unit. At the clock points of time, the signal from the output of the unit 1 group multiplexing times, described by the function v (t), containing information, arrives at the inputs of the subtraction unit 2. The MN component of the form E (i) e of the cobani from the output of the additional multiplier 3, described by the function H-. Z (U (.l K ,, uU) e, -V (t) where Ku is the gain of the input amplifier 5. From the output of the subtraction unit 2, the oscillation described by the function „H: (JCt) e -VU), nqcTvnaeT input amplifier 5, from the input. which the signal is fed to the input of the synchronization unit 6, lane 3. The second main frequency and phase of the sync signal, the multipliers, and the second input of the additional multiplier 3, the first input of which oscillates from the generator 4, described by the zero Lunkts (21-f Hermite - e In the multipliers 8, -8 is multiplied the signal described by the function U (t), with the corresponding described Legeander polynomials Pp (t) - P (t), supplied from the generator outputs 7, then using integrators, these products are averaged. The integration time is equal to the signal duration T. At the end of each For the correlation voltage quantized interval T, and the integrators are disconnected to prepare for the next transmission interval. At the outputs of synchronous quantizers and channel signal processing, a sequence of quantum voltages is formed, which is the initial modulating information. The sequence of quantized voltages then enters filters whose output restores continuous information signals. A receiving device for a communication channel compression system allows to increase noise immunity while maintaining high efficiency of use of a given frequency range. The error rate when using orthogonal channel signals is determined by the ratio for the modulation coefficients +1 and -1 where И-Р (Н) IP rz; / where Э, у is the energy of the channel signal; N is the spectral power density of the noise. From this relationship, it follows that the probability of correct reception when exposed to white shuma is higher in the case of using signals with higher energy at the same interference power.

cSfTsu

Tjj

Claims (1)

A RECEIVER FOR A COMMUNICATION CHANNELS SEALING SYSTEM, comprising a nominal signal generator, the outputs of which are connected to the inputs η of the signal processing channels, each of which consists of a series-connected multiplier, an integrator, a synchronous quantizer and a low-pass filter, as well as an input amplifier, the output of which is connected to other inputs of the multipliers η channel of signal processing and to the input of the synchronization unit, the output of which is connected to the control input of the generator of polynomial signals and to nennyh control inputs of integrators and synchronous quantizers η signal processing channels, an additional multiplier and a group decompression unit, characterized in that, in order to increase noise immunity, a subtracting unit and a signal generator are introduced, while the outputs of the decompression unit and the output are connected to the inputs of the subtracting unit additional multiplier, and the output of the subtracting unit through the input amplifier is connected to one of the inputs of the additional multiplier, to the other input of which The output of the signal generator is connected to the control input of which the output of the synchronization block is connected.