DE1093444B - Cables, especially antenna cables for frequencies above 30 MHz - Google Patents

Description

ANNOUNCEMENT OF THE APPLICATION AND ISSUE OF THE EXPLAINING PAPER: NOVEMBER 24, 1960

Applicant:

N. V. Philips' Gloeilampenfabrieken, Eindhoven (Netherlands)

Representative: Dipl.-Ing. H. Zoepke, patent attorney, Munich 5, Erhardtstr. 11

Claimed priority: The Netherlands, July 4, 1953

Leonardus Frans Helene Mans, Venlo (Netherlands), has been named as the inventor

The invention relates to a cable, in particular ... _,, ,, __, _. _T

one antenna cable for frequencies above ^for frequencies above 30 MHz

30 MHz made of an insulating material with low di-

electricity constant and low dielectric losses, with at least one parallel pair of conductors 5 is housed in the insulating material.

Suitable insulating materials for this purpose are particularly hydrocarbons, e.g. B. polyethylene and polyisobutylene or mixtures thereof. Cables constructed in this way are used, among other things, as antenna cables in io Television equipment used.

It is known for this purpose in particular to have ribbon-shaped cables and solid or hollow cables mostly round cross-section should be used in which the conductors are not stranded parallel to the longitudinal direction in the ISO 15 liermaterial are housed. Such cables can easily be molded around the wires made with thermoplastic insulating material. They are cheaper to manufacture and can be used because of Easier to adapt their symmetrical design than 20 coaxial cables, which can also be used for antenna systems come.

For practical purposes, the damping of the

generally thought cables were sufficiently low. η

As a result of the precipitation of impurities from 25

the atmosphere and moisture on the upper surface, flatten the field lines as completely as possible inside the cable However, the insulation material can let the damping run. This is an idealized solution because assume impermissibly high values; it cannot be taken into account, for example, that it nevertheless does not obey the deposition of salt on the coast or as a result of it succeeds in grasping all field lines, and that part of the Deposition of soot particles in the vicinity of factories 30 field lines still affect the cable surface and the cut through the damping by a factor of 10 or even a layer of dirt deposited on it gain more. will.

This in band-shaped and ■ - ■ albeit in- The invention is based on the knowledge that

to a lesser extent - with cables with a different cross-section, such a surface formation of the cable is achieved Occurring disadvantage is related to the fact that the 35 must be so that the outside of the Kabeldielek field Field lines, some of which run outside the isotric, are not in a gelation between the veins lies and that the deposit of conductive, closed, strongly damped layer is layered dielectrics can run on the surface of the insulation.

Irish changes. It is true that building on this knowledge can be with the new

of each type of the outside of the insulation 40 cables that have at least one parallel pair of conductors in the Contains part of the field between the conductors and thus also low-loss insulating material, according to the invention the increase in attenuation as a result of the aforementioned insulating surface on both sides with at least atmospheric influences by a greater strength one in the course of a substantial part of the of the cable can be reduced, but the improvement between the pair of conductors outside the insulation of the cable by this measure has the consequence that 45 extending electrical field lines protrude into the cable due to the larger amount of insulating material extending in the longitudinal direction of the cable, is stiffer and also more expensive. sharply protruding rib.

For the known task pursued here, an in-itself, solutions are known in which the

To create antenna cables, the attenuation behavior of which extends through the cable surface in the longitudinal direction atmospheric deposits on the cable 50's ribs, but is on this design surface is not influenced, the previously explained knowledge is not taken into account been made to overcome this disadvantage, which is why these ribs are known against. Due to the appropriate design of the cables, the cable versions were not the one to be presented here In the case of these known proposals, efforts are made to correspond because they are not in such places

009 649/313

where they represent an interruption of the dirt layer deposited on the cable surface for a substantial part of the field lines running outside the insulation. If the solution provided by the invention is followed, however, an increase in attenuation can be avoided despite the deposition of atmospheric substances on the cable surface. The term "sharply" protruding rib used in the invention should be understood to mean that the radius of curvature on the surface of the insulation is locally smaller than V ₄ mm. It should also be noted that, if possible, sharp cuts in the insulating material between the aforementioned sharply protruding ribs should be avoided in order to prevent local accumulation of impurities from the atmosphere, e.g. B. soot and salt to prevent.

Compared to the known types, where the insulation is thicker over the whole Surface of the cable the increase in attenuation due to the deposition of conductive layers can be reduced should, the consumption of insulating material in cables according to the invention is low. The material consumption can be reduced even further by the insulation of the cable according to a development of the invention has at least one cavity extending in the longitudinal direction. By this measure the flexibility of the cable is also improved.

The cable according to the invention can be produced in the usual way by insert molding.

The drawing shows a number of possible embodiments of cables according to the invention in section. In the figures, the conductors are denoted by 1, the insulation by 2, the sharp ribs by 3 and any cavities by 4.

Fig. 1 shows an embodiment as a tape-shaped, two-core cable with two opposing sharp ridges made of insulating material can be seen;

Fig. 2 shows a cable in which between the two * o Heads of a cable with a round cross-section on both sides a rib is provided, and

Figures 3 and 4 show tubular cables with a rib on either side between the two conductors;

Fig. 5 shows a further embodiment of a two-core cable, in which the insulating material two Has cavities;

6 shows a solid two-core cable with two sharp ribs on either side between the conductors; Figures 7-10 relate to four-core cables.

In the embodiment according to FIGS. 7 and 8, which represent a solid and a hollow cable, respectively, the cores must be connected crosswise so that a sharp rib is provided between the conductors is. This is not the case with the embodiment according to FIG. 9. Finally, FIG. 10 shows another embodiment a four-core cable with several sharp ribs made of insulating material between the conductors are provided.

Claims (2)

Patent claims: 1. Cable, especially antenna cable for frequencies above 30 MHz made of an insulating material with a low dielectric constant and low dielectric loss, at which at least a parallel pair of conductors is accommodated in the insulating material, characterized in that the Insulation surface on both sides with at least one in the course of a substantial part of the between the pair of conductors outside the insulation protruding electric field lines, provided in the longitudinal direction of the cable extending, sharply protruding rib is. 2. Cable according to claim 1, characterized in that the insulating material between the Ladders is at least one cavity extending in the longitudinal direction. Considered publications:
German Patent No. 87,634;
French Patent No. 1,022,285;
Funkschau, 1953, issue 17, p. 342. 1 sheet of drawings © 009 649/313 11.60