CS272608B1 - Coaxial cable with increased shielding activity - Google Patents

Abstract

The coaxial cable has a combiend outer conductor (3) formed on the insulation (2) of an inner conducting core (1). The combined outer conductor consists of two single metallised plastics material foils (31, 32) that overlap along a seam. Between the two foils are conducting wires (33) that have a sinusoidal pattern in an axial direction. The inner core (1) is of copper wire that has a 0.59 mm dia. and the insulation is of polyethylene. The combined conductor has an outer foil of polyester (31) with an aluminium layer. A similar construction is used for the inner foil. The overlap regions are a minimum of 10% of the foil width. ADVANTAGE - Foil layers with overlapping provides improved screening. (4pp Dwg.No.1/2) (Printed in week 9016)

Description

The invention relates to the construction of high-frequency coaxial cables intended for television cable distribution systems. The aim of the solution is to improve the transmission properties of coaxial cables, in particular to increase the shielding efficiency, which allows to extend the usability of these cables for transmission of signals up to 1,750 MHz, namely to cable cords in increased high frequency interference.

Hitherto, the most productive external technical solutions of the outer cores of high-frequency coaxial cables are solutions based on the use of metallized plastic foils as the basic structural elements of the outer cores. The types of high-frequency coaxial cables produced on this principle have good mechanical and under certain conditions also electrical properties, unless they are exposed to continuously increasing levels of high-frequency disturbance, the sources of which in households are e.g. microwave ovens and other new electronic devices. The inadequate closure of the transmission part of the coaxial cable permits interference penetration through the overlap of metallised plastic film, which affects the connection of the television to the subscriber plug, and in particular in color television reception, such an antenna effect has a very negative reception quality. Existing types of coaxial cables do not allow, because of the inhomogeneity of the outer core and the lack of shielding efficiency, to produce longer cable lines than 8 m, although in practice it is often necessary to connect the television even at a greater distance from the home socket of the TV cable. the quality of the television signal at the input of the receiver. If the metallized plastic foils are not sufficiently electrically conductive sealed and parallel to the axis of the tines are not conductively bridging the foil overlap, the parasitic inductance of the tines is applied in the size of the coupling impedance of the coaxial cables. Better values of coupling impedance and shielding attenuation cannot be achieved with these types of coaxial cables, even with the use of more conductive metals, since in the frequency range of the currently extending sources of high-frequency disturbance, the penetration depth of the high-frequency electromagnetic pole is smaller.

The above-mentioned drawbacks of the present state of the art are overcome by a high-frequency coaxial cable having a composite outer core formed of two longitudinally plated metallized plastic films between which they are uniformly circumferentially circumferential and parallel to the cable axis. metallized plastic foils overlap at least 10% of the width of the foil and, moreover, the outer one-sided metallized plastic foil has a bottom portion of the overlap rotated at twice the overlap length of 180 °. The conductive tines are positioned between the two films with a sinusoidal ripple and an amplitude of + 60 to 90 ° relative to the ripple axis.

The advantages of the solution according to the invention are manifested in particular in the resistance of coaxial cables to new sources of high-frequency interference disturbances, such as increasing power and numbers of TV transmitters and beaters, modems of electronic devices in households and living buildings, but also various electronic regulations shielding efficiency. The shielding attenuation, which most foreign manufacturers cite as a cable shielding efficiency parameter for the TV signal distribution, is 90 to 110 dB in the frequency range of tens and hundreds of MHz, which is 10 to 15 dB more than the existing comparable coaxial cables.

By applying the solution according to the invention, the local impedance inhomogeneity, which had occurred up to the cable bends when the folding of the outer metallized plastic foil was opened, was significantly reduced, to a non-measurable level, since the sinusoidal corrugated wires and

As a result, it was also possible to reduce the guaranteed minimum bending radius of the coaxial cable t

with an insulation diameter of 3.7 nm up to 25 mm, which allows the cable of the TV cable distribution better and more convenient to store in the user's home. Homogenization of the outer core results in a greater uniformity of the cable impedance and thus an improvement in the reflection attenuation along the coaxial cable by 3 to 5 dB in the frequency domain of the TV signal transmission.

CS 272 608 Bl

Improved impedance homogeneity of the cable allows the transmission of a color TV signal with minimal reflection, reducing image blur.

In the attached drawing, FIG. 1 is a cross-sectional view of a coaxial cable with a composite outer core 3 formed to insulate 2 the inner conductive core 2 · The composite outer core 3 consists of two single-side metallized plastic foils 32 »32 with overlap 311, 321 between which conductive wires 33 the outer core is the sheath 4. In FIG. 2 is a side view of a coaxial cable with a progressive cut, wherein a composite outer core 3 is formed on the inner conductive core 2 with insulation 2, consisting of two single-sided metallized plastic sheets 32, 32 and conductive wires 33 and applied over sheath 4.

The solution is further illustrated by three examples of specific embodiments of the invention. Example 1

On the inner conductive core 2 of the coaxial cable, which is made of copper wire with a diameter of 0.59 mm, is insulated from polyethylene KB 2r31 with a diameter of 3.7 mm. The outer composite core 3 of the coaxial cable is formed of an inner polyester film 32 with an aluminum layer of 0.03 mm depth of metal facing outwards, 18 tinned copper wires 33 with a diameter of 0.15 mm, swept with the cable axis of 2 90 °, and of polyester film 32 with an aluminum layer of 0.01 mm depth inward metal. The two polyester films 32, 32 are disposed longitudinally with a positive overlap 322, 322 of 12% of the width of the film, the outer polyester film 32 having a bottom edge of the overlap 322 at twice the overlap 322 rotated 180 ° to electrically conductive contact with the aluminum layer. cable. Above the composite outer core 3 thus formed is a mock-up PVC sheath 4 of brown color and a diameter of 6.0 mm.

Example 2

Coaxial cable with inner core 1 of seven stranded copper wires 0.21 mm in diameter, insulated 2 from polyethylene KB 2-31 with a diameter of 3.7 mm and an outer composite core 3 consisting of an inner polyethylene terephthalate foil 32 »with an aluminum layer of depth 0 , 03 mm metal outwards, longitudinally laid with cable axis and overlap 322 12% of foil width, of 26 tinned copper wire 33 with a diameter of 0.15 mm swept to the cable axis of 2 60 ° and ² outer polyethylene terephthalate foil 32 s an aluminum layer of 0.01 mm metal inwards, with an overlap 322 of 12% of the width of the foil having a bottom edge turned 180 ° at twice the overlap of 312. Coaxial cable sheaths 4 are of mock-up white PVC, with a diameter of 6.05 mm Example 3

The inner conductive core 2 of the coaxial cable is of silver-plated copper wire with a diameter of 0.9 mm, the full insulation 2 is of polyethylene KB 2-31 with a diameter of 2.95 mm. The outer composite core 3 consists of an inner polypropylene film 32 with an aluminum layer of 0.03 mm depth, metal outwardly disposed longitudinally with an overlap of 322 edges of 15% of the width of the film, further 18 plated copper wires 33 swept by 2 90 ° to the cable axis and from the outer polyethylene terephthalate foil 32 with an aluminum depth of 0.01 mm metal inwardly embossed with an overlap 321 of 15% of the width of the foil. The lower edge of the overlap 322 is rotated 180 ° at twice the length of the overlap 321, thereby forming an electrically conductive connection of the edges of the foils along the coaxial cable. Above the outer composite core 3 is a khaki mocked PVC sheath 4 with a diameter of 5.3 mm.

Coaxial cables with increased shielding efficiency will find application in TV signal cable distribution, especially in environments with increased RF interference.

Claims (1)

OBJECT OF THE INVENTION Coaxial cable with increased shielding efficiency, with a composite outer core of two longitudinally placed one-sided metallized plastic foils between them. distributed uniformly around the circumference of the conductive tinkers, characterized in that the conductive tinkers (33) are mounted with a sinusoidal ripple with an amplitude of + 60 to 90 ° relative to the ripple axis and overlap (311, 32T) of each of the one-side metallized plastic films (31, 32) is at least 10% of the width of the foil, the outer one-sided metallized plastic foil (32) having a lower overlap portion (321) at a length of twice the overlap (321) rotated 180 °.