RU2761986C2 - Heat-resistant two-pair symmetrical cable - Google Patents

Abstract

FIELD: cable technology.

SUBSTANCE: invention relates to cable technology, in particular to twisted pair cables for high-speed data transmission designed for long-term operation at elevated operating temperature. A heat-resistant two-pair symmetrical cable contains two shielded pairs of insulated conductive cores twisted around the common central longitudinal axis of the cable and forming a double spiral structure, shields made in the form of winding with a tape with polymer and metal layers covering each pair of insulated conductive cores, and an outer shell, and it is made with additional shields of pairs in the form of braids with round wires superimposed on top of shields made in the form of windings with tapes, while tapes are made with a metal layer facing braids.

EFFECT: improvement in electrical parameters of the cable and increase in protection from the electromagnetic influence of one shielded pair from another.

9 cl, 1 dwg

Description

The invention relates to cable technology, in particular to twisted pair cables for high-speed data transmission, intended for long-term operation at elevated operating temperatures.

High speed data cables are capable of transmitting high fidelity digital signals with minimal signal attenuation and are used in high speed computing and telecommunications equipment.

Known two-pair symmetric cable [1], containing two shielded pairs of twisted insulated conductive cores located along the cable axis, a screen in the form of a braid of flat wires, covering each pair of insulated conductors, a common screen in the form of a braid of round wires and a sheath.

In the known cable, silver-plated wire made of copper or copper alloy is used as the material of the conductive cores, the insulation is made of foamed fluoroplastic (PTFE), the vapor shield and the common shield are made of tinned copper wire, the sheath is applied by extrusion from fluoroplastic (FEP). The known cable is efficient at ambient temperatures up to 150 ° C.

The disadvantage of the known cable is its large dimensions and weight associated with the longitudinal arrangement along the cable axis of the screened insulated conductive conductors twisted into pairs.

The closest in terms of the achieved result to the claimed technical solution is a two-pair symmetrical cable [2], selected as a prototype, containing two shielded pairs of insulated conductive cores twisted around a common central longitudinal axis of the cable and forming a double helical structure, screens made in the form of tape winding with a polymer and metal layer, covering each pair of insulated conductors, a common braided screen and an outer sheath.

In the manufacture of the known cable, first, two parallel insulated conductive conductors are wound with a tape containing a polymer and a metal layer, and then two shielded pairs are twisted into a core to form a double helical structure.

The disadvantages of the known cable [2] include low electrical parameters of the cable due to deformation of the screen and insulation when twisting two shielded pairs, and insufficiently high noise immunity of one pair of insulated conductive conductors from another due to the shield being made in the form of one winding with a tape containing a polymer and a metal layer.

The technical problem to be solved by the claimed technical solution is the creation of a heat-resistant two-pair symmetric cable with increased immunity from electromagnetic influence of one shielded pair from another, as well as with improved electrical parameters.

This technical problem is solved due to the fact that a heat-resistant two-pair symmetric cable contains two shielded pairs of insulated conductive cores twisted around a common central longitudinal axis of the cable and forming a double helical structure, screens made in the form of a tape winding with a polymer and a metal layer, covering each pair insulated conductive cores, and the outer sheath is made with additional screens of pairs in the form of braids with round wires superimposed over the screens made in the form of windings with tapes, while the tapes are made with a metal layer turned to the braids.

In the first particular case of the implementation of a heat-resistant two-pair symmetric cable, the conductive cores are made of silver-plated copper wires.

In the second special case of the implementation of a heat-resistant two-pair symmetric cable, the conductive cores are made of silver-plated copper wires, twisted with a seal.

In the third particular case of the implementation of a heat-resistant two-pair symmetric cable, the insulation of current-carrying conductors is made of two-layer - the inner layer adjacent to the current-conducting core is made in the form of a winding with a film of porous fluoroplastic-4D, and the outer layer is made in the form of a coating of fluoroplastic 4MB.

In the fourth particular case of the implementation of a heat-resistant two-pair symmetric cable, the insulation of the current-carrying conductors is made of three-layer - the inner layer adjacent to the conductive core is made in the form of a winding with a PTFE-4 film, the middle layer is made in the form of a winding with a film of porous PTFE-4D, and the outer layer is made in the form of a coating made of fluoroplastic 4MB.

In the fifth particular case of the implementation of a heat-resistant two-pair symmetric cable, additional screens are made in the form of a braid of silver-plated copper wires.

In the sixth particular case of the implementation of a heat-resistant two-pair symmetric cable, additional screens are made in the form of a tape winding containing an aluminum layer and a polyethylene terephthalate layer.

In the seventh particular case of the implementation of a heat-resistant two-pair symmetric cable, it is made with belt insulation in the form of a winding with a PTFE-4 film, covering shielded pairs of insulated conductive cores.

In the eighth particular case of the implementation of a heat-resistant two-pair symmetric cable, the sheath is made of fluoroplastic-4MB.

The technical result achieved by using the claimed invention is to improve the electrical parameters of the cable and increase the immunity from the electromagnetic influence of one shielded pair from another.

The essence of the invention is illustrated by a drawing, which shows a cross-section of the claimed heat-resistant two-pair symmetric cable, where: 1 - conductive core; 2 - insulation; 3 - screen in the form of a winding; 4 - braided screen; 5 - belt isolation; 6 - shell.

In the manufacture of a heat-resistant two-pair symmetric cable, the insulated conductors (1) are first twisted into pairs. Then, on the insulated conductive conductors twisted into pairs (1, 2), a screen is applied in the form of a winding with a tape (3) containing a polymer and a metal layer, while the tape (3) is placed with a metal layer outward.

Over the winding with tape (3), an additional screen in the form of a braid of round wires (4) is superimposed on each pair.

Shielded pairs of insulated conductive conductors are pressed against each other with the larger side and are twisted in the direction coinciding with the direction of twisting of insulated conductive conductors with a pitch that ensures the formation of a double helical structure.

The process of sealing a multi-wire conductive core (1) is carried out by passing the conductive core in the process of twisting through a caliber with an inner diameter smaller than the diameter of the circumscribed circle of the outer layer of wires before compaction.

The proposed technical solution is implemented in a heat-resistant two-pair symmetric cable containing conductive conductors of 19 silver-plated copper wires with a diameter of 0.12 mm, twisted with a seal to a diameter of 0.59 mm.

The inner layer of insulation (2) of current-carrying conductors (1) is made in the form of a winding made of fluoroplastic film of the EO or KO brand.

The middle layer of insulation (2) is made in the form of a winding of two fluoroplastic films of the F-4D-PK brand.

The outer layer of insulation (2) is made in the form of a coating of colored fluoroplastic F-4MB with a diameter of 1.6 mm.

Insulated conductors (1) are twisted in pairs.

On the insulated conductive conductors twisted into a pair, screens are applied in the form of a winding with a tape (3) containing an aluminum and polyethylene terephthalate layer (for example, Alumoflex tape), and in the form of a braid of silver-plated copper wires (4).

Two shielded pairs of insulated conductive cores are twisted together in the form of a double helical structure and fastened with belt insulation (5) in the form of a winding with a fluoroplastic film F-4EO.

The outer shell (6) is made of fluoroplastic 4MB.

The proposed cable withstands a test voltage of 1000 V DC, has a characteristic impedance of 100 Ohm, electrical insulation resistance of at least 5⋅10 ⁴ MΩ, electrical capacitance of not more than 48.7 pF / m, attenuation coefficient, recalculated for a length of 100 m, at a frequency of 10 MHz not more than 6.93 dB and at a frequency of 100 MHz not more than 23.43 dB, the crosstalk at the near end, recalculated to a length of 30 m at a frequency of 10 MHz, not less than 53.0 and at a frequency of 100 MHz, not less than 38.0 dB ...

The outer diameter of the cable is no more than 5.8 mm. Cable weight - no more than 47.0 kg / km. In terms of electrical parameters, this cable is not inferior to the NF22P100 cable from Tensolite (USA) with a characteristic impedance of 100 Ohm, but it has a smaller size and weight.

Sources of information:

1. Catalog of Tensolite (USA) NF22P100

2. US Patent 6,010,788 Jan. 4, 2000

Claims (9)

1. A two-pair symmetrical cable containing two shielded pairs of insulated conductive conductors, twisted in the form of a double helical structure, screens made in the form of windings of a tape with metal and polymer layers covering each pair of insulated conductive conductors, and an outer sheath, characterized in that the cable is made with additional screens in the form of braids made of wires superimposed on each pair of insulated conductive cores over the tapes windings, while the tapes are made with a metal layer turned to the braids. 2. A cable according to claim 1, characterized in that the conductive cores are made of silver-plated copper wires. 3. Cable according to claim 1, characterized in that the conductive cores are made of silver-plated copper wires, twisted with a seal. 4. The cable according to claim 1, characterized in that the insulation of the conductive conductors is made of two layers - the inner layer adjacent to the conductive conductor is made in the form of a winding with a film of porous fluoroplastic-4D, and the outer layer is made in the form of a coating of fluoroplastic 4MB. 5. The cable according to claim 1, characterized in that the insulation of the conductive cores is three-layer - the inner layer adjacent to the conductive core is made in the form of a winding with a PTFE-4 film, the middle layer is made in the form of a winding with a porous PTFE-4D film, and the outer layer is made in the form of a 4MB fluoroplastic coating. 6. The cable according to claim 1, characterized in that the additional screens are made in the form of a braid of silver-plated copper wires. 7. The cable according to claim 1, characterized in that the additional screens are made in the form of wrapping with a tape containing a layer of aluminum and a layer of polyethylene terephthalate. 8. The cable according to claim 1, characterized in that it is made with belt insulation in the form of a winding with a PTFE-4 film, covering shielded pairs of insulated conductive conductors. 9. Cable according to claim 1, characterized in that the sheath is made of fluoroplastic-4MB.

Images