SU1078636A1 - Linear path of information transmission system - Google Patents

Abstract

LINEAR INFORMATION TRANSMISSION SYSTEM TRACT, containing, at each of the two stations, transmitting and receiving units connected to transmitting and receiving cables, characterized in that, in order to reduce the number of cables. The transmission cables and receiving cables are combined into one cable at a distance from each station, determined by the ratio AO - Ad e 4oi. where AO is the crosstalk attenuation of the two-cable path at the near end to the half-cycle frequency} A. the allowable crosstalk at the near end at the half-clock frequency; oi attenuation coefficient of the cable line at a half-frequency, S (L

Description

Dushka e / bna Single scmaSfta t / vac / nofc

Two / (acell / t Scfnerffra

The invention relates to telecommunications, mainly to cable, and can be used to improve the noise immunity of linear paths of cable communication circuits in the on-line operation of digital transmission systems. | i

The transmission systems of the information system are known, which are connected to each of the two stations by the transmitting and receiving units connected to the receiving and transmitting cables.

The disadvantage of the path is the need for a large number of cables to provide communication.

The purpose of the invention is to reduce the number of cables.

In order to achieve the goal, in the linear path of the information transmission system, containing on each of the two stations, the transmission and receiving units, connected to the receiving and transmitting cables, transmitting and receiving cables are combined into one cable at a distance from each station, determined by the ratio

one

R . -9 - -Ad 4 "

crosstalk attenuation of the two-channel A cable path at the near end at the half-clock frequency;

Hell is the allowable transient attenuation at the near end at the half-clock frequency; 06 - attenuation coefficient of the cable line at half-clock frequency.

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

The linear path of the information transmission system contains transmitters 1, receivers 2, transmitting and receiving cables 3, the combined cable 4.

The linear path of the information transmission system operates as follows.

The linear path provides for the transfer of information between stations. However, the number of cables in comparison with the known technical solution is reduced, since in the middle of the section between the two stations a combined cable 4 is used.

At the same time, at the stations, the transmission and reception paths are divided into non-transmitting and receiving cables 3, which allows reducing the influence of transmitter 1 on receiver 2 of each station. The distance from the station at which the reception and transmission paths to the receiving and transmitting cables 3 should be divided is determined from the ratio

Ar t-hell

1 4й6

where Hell is the crosstalk attenuation of the double-cable path at the near end at the half-clock frequency;

A is the allowable transient attenuation at the near end at a half-clock frequency; 6 is the attenuation coefficient of a cable line at a half-clock frequency.

The proposed linear system path, the transmission of information, allows, without degrading the signal transmission parameters, to significantly reduce cable consumption.

Claims (1)

LINEAR INFORMATION TRANSMISSION SYSTEM LINE, comprising. At each of two stations transmitting and receiving units connected to transmitting and receiving cables, characterized in that, in order to reduce the number of cables, the transmitting and receiving cables are combined into one cable at a distance from each station, defined by the relation o, A o - Ad e - 4T ~ 'where A _o is the transitional attenuation of a two-cable path at the near end at a half-cycle frequency; Hell - permissible transient attenuation at the near end at a half-cycle frequency; 'oi is the attenuation coefficient of the cable line at half-factor frequency "© ω