DE2402477A1 - High frequency transmission cable - has elastic polymer with metallised outer layer as dielectric - Google Patents

Abstract

Twisted coaxial cable for transmission of high and very high frequencies having as dielectric of the coaxial pairs an elastic material, which reforms any deformation of the outer conductor occuring during prodn. or laying of the cable. The elastic material has a conducting outer layer consisting of metal particles onto which the outer conductor is placed. The dielectric is pref. a solid or foamed polyethylene, foamed polystyrene or the like. Reflection peaks lying above the reflexion level are eliminated.

Description

Stranded Coaxial Cable The invention relates to a stranded coaxial cable Coaxial cable for the transmission of high and highest frequencies, its coaxial pairs are stranded with a constant pitch '.

It is known that in stranded coaxial cables at discrete frequencies Peak values of the return loss occur which are many times higher than the return loss level lie. A first reflection peak occurs at a frequency at half that The wavelength corresponds to the lay length of the stranding.

Further peaks of return flow or reflection peaks appear at a multiple of the frequency at which the first reflection peak occurred.

The causes that lead to the reflection peaks are periodic Occurring mechanical stresses on the individual stranded coaxial pairs. These Stresses can e.g.

when stranding and also when the stranded coaxial pairs are guided over rollers or slideways arise.

This can cause periodically recurring, permanent deforinations of the coaxial pairs are caused, which in turn the Reflection tips cause. Such constantly recurring peaks above the reflection level but must be avoided at all costs, as this includes the quality of the transmitted high and high frequencies suffers.

In order to eliminate these shortcomings, it is already known to use the lay length of the stranded coaxial pairs and the 15 reverse rotation of 0 coaxial pairs to be drawn down to the length of the lay (DÄS 1 943 229). This action requires however, a correspondingly built stranding machine, which is a relatively complicated one Control is required and is therefore technically complex. By changing the The mechanical deformations of the outer jacket of the coaxial pair are indeed the length of the lay not prevented; but the reflection peaks are greatly reduced because no repetitive joints where the reflections occur in certain measured intervals.

The invention is based on the consideration "that the aforementioned shortcomings the coaxial cables with the same lay length can then also be eliminated can, if according to the invention the dielectric of the coaxial pairs from an elastic, the deformations of the outer conductor that occur during the manufacture and laying of cables restoring material and this material consists of metal particles carries conductive outer layer on which the outer conductor rests. Such a dielectric Due to its elasticity, it ensures that pressure points in the outer conductor are practical disappear again so that there are no joints at which reflection peaks could occur, persist.

As.Diclektrikum in the coaxial cable according to the invention are suitable especially full-PE, cell-PE, cell-polystyrene or running-PE.

It may also be useful to use the dielectric of the aforementioned Materials a hose made of the same or related material to extrude a layer of metal particles. The layer of the metal particles can be applied to the dielectric by evaporation, electroplating, overmolding or others known procedures to be brought up. Coaxial pairs with so applied to the dielectric Layers are known per se (CDGEM 1 980 262).

An exemplary embodiment of the invention is shown schematically in the drawing shown. 1 shows a cross section through a stranded coaxial cable and FIG. 2 is a partial view of a single coaxial pair.

In a cable surrounded by an outer jacket 1 according to FIG four coaxial pairs 2 twisted underneath.

At the same time four normal pairs of wires 3 are arranged in the cable.

Each coaxial pair consists of FIG. 2 from the inner conductor 4-i dem Dielectric 5, which is covered with a layer 6 of metal particles, and the Outer conductor 7 made of a metal strip. A plastic jacket 8 is located above this. The elastic dielectric ensures that any periodic deformations of the Outer conductor 7 disappear again after the mechanical stresses have ceased.

Claims (4)

Patronage 1. Stranded coaxial cable for the transmission of high and high Frequencies whose coaxial pairs are stranded with a constant pitch length, characterized in that the dielectric (5) of the coaxial pairs (2) consists of one elastic deformations that occur when the cables are positioned and laid of the outer conductor (6) consists of restoring material and that this material is a Conductive outer layer (6) consisting of metal particles on which the outer conductor (7) rests. 2. Stranded coaxial cable according to claim 1, characterized in that that the dielectric (5) consists of full PE, cell PE, cell polystyrene or air PE. 3. Stranded coaxial cable according to claim 2, characterized in that that over the dielectric (5) an existing of the same or related material Tube is extruded with a layer of metal particles. 4. Stranded: Soaxial cable according to claim 1 or 3, characterized in that that the layer of metal particles by evaporation, electroplating, extrusion coating or other known methods is applied. L e r s e i t e