DE3931741A1 - HF coaxial cable suitable for cable TV - has screening in form of metallic plastics material foils with overlapping seams - 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 a high-frequency coaxial cable according to the preamble of the claim.

The field of the invention is cable manufacturing technology. The solution is through a redesign High frequency coaxial cables are used in cable television cables are used. The solution enables one Improve the transmission properties of such Coaxial cable, especially in the direction of effectiveness their shielding. This is an application extension This cable is suitable for the transmission of signals up to 1750 MHz enables, i.e. especially regarding her Suitability as connection cable in television cable transmission cables with existing environmental influences are increased Radio frequency interference.  

To the most common technical solutions of the External conductors in high-frequency cables include solutions that on the application of metallized plastic films as Construction elements of the outer conductors are based. The after Types of radio frequency manufactured according to this principle coaxial cables have good mechanical and under certain Conditions also electrical properties, provided they no impact from the ever increasing levels of high are exposed to frequency interference, the source of which, for. B. Microwave ovens and other new electronic equipment are. Not completely closing the Transmission part of the coaxial cable enables one Interference penetration through the overlap of the metalli based plastic films, which affects the connection of the television receiver with the subscriber plug. This is particularly the case with color television reception Antenna effect as very negative on the reception quality. The previous types of coaxial cables enable infol ge inhomogeneity of the outer conductor and inadequate Shielding effect no production of participant cords for TV cable lines longer than 8 m, although it is in practice is often necessary to set up a television receiver a longer distance from the socket of the TV cable line to turn on whatever is in the Quality of the television signal when switching on the Recipient shows. Because the metallized plastic films are not adequately sealed and the wires arranged parallel to the axis If there is no conductive overlap, there will be one parasitic inductance of the wires in the size of the Kopp The impedance of the coaxial cable is important. It is not  possible better values of coupling impedance and Shielding attenuation for these types of coaxial cables, not even by using better conductive me tallen to achieve because in the frequency range of nowadays spreading sources of radio frequency disrupt the penetration depth of the electromagnetic Radio frequency field is smaller than the thickness of the metal layers of the screen foils.

The above defects of the existing condition are coaxial according to the invention by a radio frequency cable with increased shielding, designed with an outer conductor made of two concentric tubular arranged layers of metallized plastic on one side foils, the space between them with even circumference arranged conductor wires is provided, the is characterized in that such as conductor wires with a sinusoidal wave deformation of ± (60 to 90 °) are arranged to the axis, and that the length of the Overlap of plastic films metallized on one side is at least 10% of the film width, the outer one-sided metallized plastic film a lower part the overlap at twice the length of the overlap has a bend of 180 °.

The solution advantages according to the invention are evident all in the resistance of the coaxial cable new sources of radio frequency interference, such as the growing performance and growing number of long distance visual and relay transfer transmitters, modern electronic Investments in households and residential buildings, but also ver  different electronic regulations that are only through Have the increase in the shielding effect eliminated. The Shielding attenuation, the majority of foreign Generate as the parameter of the shielding effect of Cable for TV signal line has one Value of 90 to 110 dB in the frequency range of 10 and 100 MHz, which is 10 to 15 dB more than in the bis comparable coaxial cables available today.

By using the solution according to the invention, even at immeasurable value, the local impedance inhomo significantly reduced that previously at Kabelbie the partial opening of the lap of the outer metallized plastic film has arisen since the sinusoidal corrugated wires and the combined folding the outer film closing the transmission part of the coaxial cable. As a result of this fact it became possible to also get the guaranteed minimum bend radius of the coaxial cable with the diameter above ISO lation from 3.7 mm to 25 mm, which made it possible light, the subscriber cord of the television cable line better and cheaper to lay in the user apartment. Due to the homogenization of the outer conductor, a greater homogeneity of the cable impedance and thus also a Improvement of reflection loss along the coaxial line bels by 3 to 5 dB in the frequency range of the television signal transmission reached. The improved impedance homogeneity of the cable enables the transmission of a color television signals with minimal reflections, resulting in a reduction image distortion is achieved.

The invention is in one embodiment example and explained in more detail with reference to the drawing. In the Drawing shows

Fig. 1 is a coaxial cable in cross section, and

Fig. 2 is a side view of the coaxial cable of FIG. 1 in the dismantling section.

In Fig. 1 is a cross section of the coaxial cable with combined outer conductor 3 is formed on the insulation 2 of the inner conductive core 1 is shown. The combined outer conductor 3 consists of two plastic foils 31 , 32 metallized on one side with an overlap 311 , 321 , between which conductive wires 33 are arranged. The jacket 4 is located above the combined outer conductor.

In Fig. 2 is a side view of the coaxial cable with cut-away section is shown, where on the inner conductive core 1 with the insulation 2 of the combined outer conductor 3 is formed, which consists of two single-sided metallized plastic films 31 , 32 and the conductive wires 33 , and the View of the applied coat 4 .

The solution according to the invention is further in one concrete embodiment shown:

On the inner conductive core 1 of the coaxial cable, which is made of copper wire with a diameter of 0.59 mm, there is an insulation layer made of polyethylene KB 2-31 with a diameter of 3 mm. The combined outer conductor 3 of the coaxial cable consists of an inner polyester film 31 with an aluminum layer 0.03 mm thick with the metal side direction to the outside, 18 tinned wires 33 with a diameter of 0.15 mm, arranged to the cable axis by ± 90 °, and from the outer polyester film 32 with an aluminum layer with a thickness of 0.01 mm with the metal side direction inwards. Both polyester films 31 , 32 are arranged oblong with positive overlap 311 , 321 of 12% of the film width, the lower edge of the overlap of the outer polyester film 32 being twice the length of the overlap 321 at a bend of 180 °, so that it becomes electrical conductive contact of the aluminum layer comes along the cable. About the thus formed combined outer conductor 3 , the jacket 4 is made of plasticized PVC brown color with an outer diameter of 0.6 mm.

Claims (1)

High-frequency coaxial cable with increased shielding, formed with an outer conductor made of two conical tubular layers of plastic films metallized on one side, the spacing between which is provided with circumferentially evenly arranged conductor wires, characterized in that the conductor wires ( 33 ) are those with a sinusoidal wave deformation of ± (60 up to 90 °) to the axis, and that the length of the overlap ( 311 , 321 ) of the one-sided metallized plastic films ( 31 , 32 ) is at least 10% of the film width, the outer one-sided metallized plastic film ( 32 ) being a lower part of the Has overlap ( 321 ) of twice the length of the overlap ( 321 ) at a bend of 180 °.