RU2504034C2 - Symmetric four-pair cable of category 6a with five special optical modules - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: symmetrical four-pair cable of category 6A with five special optical modules comprises strands in polymer insulation, twisted into pairs, with an external polymer shell, a breaking insulating cord, and each symmetrical pair is separated from the adjacent symmetrical pair by a special module with optic fibres, as a result of which a lay is created from four special modules with optical fibres and four symmetrical pairs separated from each other by special modules with optical fibres and twisted around the special module with optical fibres. Each special optical module comprises two fibres placed into a cavity of the polymer element of round shape in the form of an eight, in each largest part of the eight there are dielectric power elements.

EFFECT: reduced mutual effect between pairs with preservation of its flexibility.

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Description

The invention relates to the field of electrical engineering and can be used in the construction of symmetric and optical communication cables on public networks and structured cable systems.

A known design of a four-pair symmetrical cable containing copper conductors in dielectric insulation twisted into a common core, and each pair is twisted with a step different from the twisting steps of other pairs in a common polymer sheath (UTP) (in the book of A. B. Semenov, C .K. Strizhakov, IR Sunchely Structured cable systems. DMK Publishing House, M., 2002, 4th edition, p. 109 Fig. 3.4 and 3.5). The disadvantage of this design is a significant limitation on transient attenuation in the range above 250 MHz at a length of 100 meters.

A known construction of a modular type optical cable: six modules with optical fibers around a central power element with an external polymer protective sheath (in the book by EL Portnov “Principles of Primary Network Construction and Optical Cable Communication Lines”, Hotline-Telecom, M., 2009 city, p. 236 fig. 6.8.). The disadvantage of this design is the presence of a central power element, limiting the possibility of using an optical cable at different temperatures and mechanical stresses.

The well-known design of a symmetrical four-pair Category 6 cable for the range up to 250 MHz (Teldor 2006 prospectus p. 23). The cable consists of 4 pairs twisted with different steps around a cross-shaped profile. The increase in the distance between the pairs and, consequently, the increase in the values of the transitional attenuation between the pairs, is achieved by introducing a cross-shaped polymer profile into the structure.

Design disadvantage: the cross-shaped dielectric profile and its dimensions provide improved transmission characteristics, in particular, the mutual influence between the pairs to a certain limit, and a further change in the cross-shaped profile does not improve the transmission and influence characteristics.

The closest in technical essence is the design of a symmetrical four-pair cable, described in the prospectus of Teldor, Wires and Cables, Russia Ltd. 2002, 223 pages, p. 23) Category 6 cable (250 MHz), unshielded (UTP).

The cable contains conductors with a diameter of 0.575 mm with polyolefin insulation with an outer core diameter of 1.0 mm. Four pairs are twisted around a central cruciform profile, the outer diameter of the cable is 6.7 mm, the thickness of the outer sheath is 0.7 mm, the wall thickness between the pairs is 0.7 mm, the diameter of the cable core is 5.3 mm, there is a cording that breaks the outer sheath.

The disadvantage of this design is the need to increase the distance between the pairs by increasing the thickness and size of the cross-shaped profile to reduce the mutual influence between the pairs and improve the transfer characteristics, as well as the mechanical characteristics of the cable. However, the possibilities of applying such a solution are extremely limited, due to the feasibility and the real solution for the thickness of the elements of the cross.

The task to which this technical solution is directed is to create such a design of a symmetrical four-pair cable that can reduce the mutual influence between the pairs due to their mutual arrangement and mechanical characteristics of the cable while maintaining its flexibility by introducing special modules with optical fibers between each pair and the central optical module.

To solve this problem, in a symmetrical four-pair cable containing polymeric insulated conductors twisted in pairs with an external polymer sheath, each symmetric pair is separated from the neighboring symmetrical pair by a special module with optical fibers, as a result of which a twist is created from four special modules with optical fibers and four symmetric pairs, separated from each other by special modules with optical fibers and twisted around a special module with optical fibers, while each The special optical module contains two fibers placed in the cavity of a circular polymer element in the form of a figure eight, and dielectric power elements are located in each largest part of the figure eight.

Figure 1 shows the design of a symmetrical four-pair cable. It contains cores 1 in polymer insulation - 2, twisted in pairs - 3, optical fiber - 4, special optical fiber module - 5, dielectric power element - 6, tearing the outer sheath of the cordule - 7, the outer polymer sheath of the cable - 8, a protrusion on the outer surface of the outer shell, indicating the place of the tearing cordel inside the cable - 9

In this design, due to the mutual arrangement of pairs of a four-pair symmetrical cable, the introduction of optical fibers in special optical modules with dielectric power elements in each module between each symmetric pair and the central special optical module, the mutual influence between symmetric pairs is significantly reduced by increasing the distance between them and In addition, optical fibers are introduced into this increased distance in special modules, which, in addition to their main functions s operate auxiliary functions to separate symmetric pairs from each other and uniform distribution of mechanical stress across the section of the cable due to the presence of the dielectric strength elements in each special optical module. Despite the fact that the material consumption of the cable increases by about 25%, the mutual influence between the pairs is also reduced by 25% in the frequency range up to 300 MHz.

Claims (1)

A symmetric four-pair cable of category 6A with five special optical modules, containing conductors in polymer insulation, twisted in pairs, with an external polymer sheath, tearing the cord, characterized in that each symmetrical pair is separated from the neighboring symmetrical pair by a special module with optical fibers, as a result of which a layer is created from four special modules with optical fibers and four symmetric pairs, separated from each other by special modules with optical fibers and twisted around g of a special module with optical fibers, with each special optical module containing two fibers placed in the cavity of a round-shaped polymer element, in the form of a figure eight, in each largest part of the figure eight are dielectric power elements.