RU195851U1 - PHASE STABLE COAXIAL CABLE ASSEMBLY - Google Patents

Abstract

The utility model relates to phase-stable radio frequency cable assemblies. The phase-stable coaxial cable assembly includes a coaxial cable comprising an inner conductor coated with insulation, an outer conductor over which a braid is applied, and a protective sheath of polymer. The insulation is made of polytetrafluoroethylene tape imposed on the inner conductor in a spiral with overlapping edges of at least 50%. Moreover, the outer conductor is made of copper foil, and the braid is made of copper wire. Coaxial connectors are connected to the ends of the cable, each of which includes a cable sleeve mounted inside a threaded sleeve connected to the connector body. The connector housing includes a central conductor, which is connected to the cable’s inner conductor on one side of the housing and made in the form of a plug or socket on the other. The central conductor is separated from the casing by an insulator, and the outer conductor of the cable and the metal braid overlaid on both ends are sealed inside the corresponding cable sleeve and fixed inside it by soldering through the through hole. Each connector with a cable passed inside it is crimped by a heat-shrinkable tube. It provides an expansion of the arsenal of technical equipment for a similar purpose, which allows the use of cable assemblies for stationary outdoor and indoor installation in structures, weapons and military equipment, when exposed to ambient temperatures from minus 60 ° C to 165 ° C, with the possibility of transmitting high-frequency signals at frequencies up to 40 GHz., 6 z.p. f-ly, 4 ill.

Description

The utility model relates to the cable industry, namely to phase-stable radio-frequency cable assemblies of increased heat resistance based on radio-frequency phase-stable cables and high-frequency coaxial connectors. The cable assembly is designed for stationary external and internal installation in structures and weapons and military equipment, when exposed to ambient temperatures from minus 60 ° C to 165 ° C and ensures the transmission of high-frequency signals at frequencies up to 40 GHz.

The prior art cable assembly containing conductive elements provided with connectors at the ends, each conductive element comprising a conductive cable or wire mounted in a tubular protective and shielding structure that contains an inner tubular textile braid and an intermediate metal braid of electromagnetic shielding, while the structure additionally contains an external corrugated polymer shell surrounding the shielding metal braid, the end of which The swarm is mounted on a tubular tip made of heat-shrinkable material, and the tubular tip is made with the possibility of fixing the outer shell on the connector and serves to crimp and fasten the end of the shielding metal braid by means of a ring or a metal clamp on the tubular metal part of the connector (RU 2406172, 12/10/2010). The known cable assembly cannot be used as a phase-stable coaxial cable assembly, providing the transmission of high-frequency signals at frequencies up to 40 GHz.

In the prior art, a coaxial cable assembly is known, including two coaxial connectors between which there are two series-connected pieces of coaxial cable, one of which is made in the form of a cable piece with losses, while the conductors of the cable piece with losses are made of nickel, and the conductors of another piece of coaxial cable made of copper, the length of the conductors of copper is greater than or equal to the length of the conductors of nickel and their ratio is equal to the ratio of the diameters of the same conductors of the segments coaxial cable (SU 1830562, 07/30/1993). The known cable assembly also has functional limitations and cannot be used as a phase-stable coaxial cable assembly that provides high-frequency signals at frequencies up to 40 GHz.

The claimed utility model is aimed at solving a technical problem consisting in expanding the arsenal of hardware related to coaxial cable assemblies.

The technical result of the claimed utility model is to create a phase-stable coaxial cable assembly designed for stationary external and internal installation and providing high-frequency signals at frequencies up to 40 GHz.

The technical result is ensured by a phase-stable coaxial cable assembly, characterized in that it includes a coaxial cable containing an inner conductor made of at least one copper wire and coated with insulation from polytetrafluoroethylene tape imposed on the inner conductor in a spiral with overlapping edges of at least 50%, an external conductor made of copper foil over which a braid of wire is applied, as well as a protective sheath of polymer, while at the ends of the cable coaxial connectors are connected, each of which includes a cable sleeve mounted inside a threaded sleeve connected to a connector housing including a central conductor which is connected to the cable inner conductor on one side of the cable and made on the other hand as a plug or socket, while the central conductor is separated from the case with an insulator, and the outer conductor of the cable and a metal braid overlaid on both ends are sealed inside the corresponding cable sleeve and fixed inside it by soldering through the through hole of the cable sleeve, with each connector with a cable passed inside it is crimped by a heat-shrinkable tube.

The claimed utility model is characterized in that the outer cable conductor is made of silver-plated copper foil.

The claimed utility model is characterized in that the inner conductor of the cable is made in the form of a single-wire copper or single-wire copper silver-plated conductive core.

The claimed utility model is characterized in that the inner conductor of the cable is made of twisted copper wires or twisted copper silver-plated wires.

The claimed utility model is characterized in that the braid is made of copper or silver-plated copper wire.

The claimed utility model is characterized by the fact that armor in the form of a braid made of galvanized steel wire is superimposed on the cable’s protective sheath.

The claimed utility model is characterized in that the insulator is made of fluoroplastic or polyetheretherketone.

The claimed utility model is illustrated by drawings.

The figure 1 presents a General view of a phase-stable coaxial cable assembly.

The figure 2 presents the coaxial cable used in the claimed cable assembly.

The figure 3 presents the high-frequency coaxial connector used in the claimed cable assembly, the Central conductor of which is made in the form of a plug.

The figure 4 presents the high-frequency coaxial connector used in the claimed cable assembly, the Central conductor of which is made in the form of a socket.

Phase-stable coaxial cable assembly includes a coaxial cable 1 containing an inner conductor 2 made of copper or several copper twisted wires. The inner conductor 2 may also be made of one or more twisted silver-plated copper wires. The inner conductor 2 is coated with insulation 3 made of low density polytetrafluoroethylene tape (0.7-0.9 g / cm ³ ), laid over the conductor 2 in the form of a winding with overlapping edges of at least 50%. Over the insulation 3, an external conductor 4 is laid, made in the form of a winding of copper or copper silver plated foil, on which a braid 5 of copper or copper silver plated wire is applied. On top of the braid 5, a polymer sheath 6 is applied, which can be made of F-4MB fluoroplastic or Elastollan A10-FRHF thermoplastic polyurethane. According to one embodiment of the claimed utility model, an armor 7 made in the form of a braid of galvanized steel wire can be applied over the protective sheath 6. Coaxial connectors 8 are connected to the ends of cable 1 (see Fig. 1). Each connector 8 (see Fig. 3, 4) includes a metal cable sleeve 9, which is installed inside the threaded sleeve 10. In this case, the threaded sleeve 10 together with the cable sleeve 9 is screwed into the cavity 11 made in the housing 12 of the connector until the cable sleeve 9 rests in the step 13 of the cavity 11. Inside the connector housing 12 there is a central conductor 14, docked, on one side of the housing 12, with the inner conductor 2 of the cable 1 by soldering or crimping, and on the other is made in the form of a plug 15 or socket 16. In this case, the central conductor 14 is separated about t of the housing 12 with an insulator 17 made of a polymeric material, for example fluoroplastic or polyetheretherketone. Depending on the implementation of the utility model, the housing 12 may be made integral or detachable. If the housing 12 is detachable, it consists of two parts interconnected by means of a thread. In the case of one of the sides of the housing 12 being in the form of a socket, it is equipped with a docking nut 18 fixed on the housing 12 with a locking ring 19. The outer conductor 3 of the cable, together with the braid 5 placed on it, is sealed at both ends inside the corresponding cable sleeve 9 and fixed inside it by soldering through the through hole 20 of the cable sleeve. Each connector 8 with a cable 1 sealed inside it is crimped by a heat-shrinkable tube 21 (see Fig. 1).

For the manufacture of a coaxial cable assembly, a phase-stable coaxial cable 1 is used. The prepared cable length is drawn from both ends through the openings of the heat-shrinkable tubes 21. The ends of the cable 1 cleaned from the outer sheath 6 are inserted inside having the external thread of the cable bushings 9, with the inner conductor 2 of cable 1 being brought out. The outer conductor 4 of the cable together with the braid 5 laid over it is fixed through the holes 20 made in each cable sleeve 9 by soldering. The cable bushings 9 thus fixed at the ends of the cable 1 are connected by means of a thread to the threaded bushings 10 having an internal as well as an external thread. The threaded bushes 10 are installed at both ends inside the cavities 11 of the connectors 8 corresponding to the housings 12. The threaded bushes 10 are installed on the internal thread of the cavities 11 until the cable bushings 9 stop in the step 13, while connecting the inner conductor 2 of the cable with the corresponding central conductor 14 connector by soldering or crimping. After connecting the structural elements of the cable assembly with each other, at both ends of the cable assembly, heat shrink the polyolefin tubes 21, each of which includes an inner layer of hot-melt adhesive. Using thermal equipment (such as a hairdryer), the product is heated in the temperature range 115-140 ° C, which provides a softening of the hot-melt adhesive layer, with simultaneous shrinkage of the tubes 21 and their tight compression of part of the connectors 8 and cable 1.

Coaxial cable assemblies made in this way expand the arsenal of technical equipment of a similar purpose and provide the following values of electrical and mechanical parameters, confirmed by preliminary tests.

Claims (7)

1. Phase-stable coaxial cable assembly, characterized in that it includes a coaxial cable containing an inner conductor made of at least one copper wire and coated with insulation from polytetrafluoroethylene tape imposed on the inner conductor in a spiral with overlapping edges of at least 50% , an external conductor made of copper foil, over which a braid of wire is applied, as well as a protective sheath of polymer, with coaxial connectors connected to the ends of the cable, each of which includes a cable sleeve mounted inside a threaded sleeve connected to the connector housing, including a central conductor, which is connected to the cable’s inner conductor on one side of the cable, and made in the form of a plug or socket, the central conductor is separated from the case by an insulator, and the outer cable conductor and the metal braid overlaid on both ends are sealed inside the corresponding cable sleeve and fixed inside it by soldering through the through hole to cabling sleeve, each connector skip crimped cable inside it heat-shrinkable tube. 2. Phase-stable coaxial cable assembly according to claim 1, characterized in that the outer cable conductor is made of silver-plated copper foil. 3. Phase-stable coaxial cable assembly according to claim 1, characterized in that the inner conductor of the cable is made in the form of a single-wire copper or single-wire copper silver-plated conductive core. 4. Phase-stable coaxial cable assembly according to claim 1, characterized in that the inner conductor of the cable is made of twisted copper wires or twisted copper silver-plated wires. 5. Phase-stable coaxial cable assembly according to claim 1, characterized in that the braid is made of copper or silver-plated copper wire. 6. Phase-stable coaxial cable assembly according to claim 1, characterized in that armor in the form of a braid of galvanized steel wire is applied over the cable sheath. 7. Phase-stable coaxial cable assembly according to claim 1, characterized in that the insulator is made of fluoroplastic or polyetheretherketone.

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