RU169974U1 - COMMUNICATION CABLE SYMMETRIC FOR DIGITAL TRANSMISSION SYSTEMS - Google Patents

Abstract

The claimed technical solution relates to the cable industry, and in particular to zone communication cables, namely to the construction of high-frequency communication cables intended for digital transport networks, trunk lines sealed with transmission systems with frequency division of channels in the frequency range up to 250 kHz and digital transmission systems with speeds up to 2 Mbit / s. High-frequency single-channel cable for digital zone communication networks consists of twisted copper conductors, insulated with polyethylene in the form of a 3 concentric layers, while the outer and inner layers are made of continuous polyethylene, the middle layer is made of porous polyethylene, with a belt insulation in the form of a winding of polyethylene terephthalate film, filled from polyethylene, aluminum shell, a layer of viscous adhesive on top of the screen, in a polyethylene shell. the technical solution, through the use of film-porous-film insulation, provides high mechanical strength of insulated cores, compactness and high electrical characteristics of the cable.

Description

The inventive utility model relates to the cable industry, namely, zone communication cables, and can be used in the construction of zone communication cables, namely, in the design of high-frequency communication cables intended for digital transport networks, trunk lines, sealed transmission systems with frequency division of channels in frequency range up to 250 kHz and digital transmission systems at speeds up to 2 Mbps.

Closest to the claimed utility model are electric high-frequency zone communication cables of the ZKASHpm brand with polyethylene insulation, in an aluminum sheath, in a sheath of polyethylene (“High-frequency single-cable communication cables with polyethylene insulation” TU 16.-505.233-96).

The disadvantage of this cable is that it has rather large dimensions along the outer sheath of the cable and does not meet the transition attenuation requirements between the circuits at the near end for digital transmission systems.

The objective of the proposed technical solution is the creation of cables for transport networks, which correspond in electrical parameters to the requirements for cables used for digital transmission systems, have more compact overall dimensions.

The problem is solved as follows:

A high-frequency single-channel cable for digital zone communication networks consists of twisted copper conductive cores insulated with polyethylene in the form of 3 concentric layers, while the outer and inner layers are made of solid polyethylene, the middle layer is made of porous polyethylene, with a belt insulation in the form of a winding of polyethylene terephthalate film, filling from polyethylene, aluminum shell, a layer of viscous adhesive composition, polyethylene shell.

The inventive utility model is illustrated in the drawing, FIG. one.

In FIG. 1 is a sectional view of a cable containing copper conductive conductors 1, each of which is coated with a film-porous-film insulation 2. The insulated conductors are twisted around a four in four. A belt insulation was applied over a twisted four in the form of a winding from a polyethylene terephthalate film 4 and a filling of polyethylene 5. An aluminum sheath was applied over the belt insulation 6. A layer of a viscous adhesive 7 and a sheath of polyethylene 8 were applied.

Film-porous-film insulation has a higher dielectric uniformity and stability of geometric dimensions due to the automated control of the diameter of the insulated core, linear capacity and eccentricity in the process of its manufacture. This type of isolation allows you to increase the value of the transient attenuation at the far end at frequencies of 160, 512 and 1024 kHz, which allows the use of a cable for digital transmission systems.

Twisting insulated cores with a constant worked-out step allows obtaining stable electrical characteristics of the cable, including protection at the far end, transient attenuation at the near end, and working capacity.

Claims (1)

High-frequency single-channel cable for digital zone communication networks, containing conductive cores insulated with polyethylene in the form of 3 concentric layers: continuous, foamed, continuous, waist insulation in the form of a winding from polyethylene terephthalate tape, polyethylene filling, aluminum sheath, polyethylene sheath.

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