FI92891C - Device for transmitting high frequency signals - Google Patents

Abstract

In an arrangement for the transmission of radio frequency signals between a radio frequency line emitting waves and a mobile antenna, the radio frequency line having an inner conductor (1), a coaxial outer conductor (2) and a dielectric (3), and openings being provided in the outer conductor of the radio frequency line for the emission or reception of waves, it is provided that different types of groups of openings (4, 5) are located in the longitudinal direction of the radio frequency line, on different sleeve lines, and that the individual opening in the longitudinal direction of the radio frequency line in the case of one group of openings is at least twice as long as in the case of another group. <IMAGE>

Description

92891

Device for transmitting high frequency signals

The invention relates to a device according to the preamble of appended claim 1 for transmitting high frequency signals.

Radiating cables are used to transmit high frequency signals in areas with unfavorable propagation conditions. These cables emit waves, for example by providing the coaxial cable with openings. Such a radiating coaxial high-frequency cable is known from DE patent application No. 28 12 523. In order to cause the radiation intensity to move evenly in the axial direction, numerous holes are made in the outer conductor. These holes form a pattern that is repeated in Jak-15 wars (leakage cable).

A corresponding cable is disclosed in U.S. Patent No. 3,795,915. When a plurality of openings are made in a cable having a different length and inclination with respect to the axis of the cable and the location order of which is repeated periodically, such a cable can be used in a larger frequency range.

In hitherto known leakage cables, leakage waves are radiated through the openings mainly above the structurally typical cut-off frequency. Below the cable limit value, due to the relatively small openings, only a weak surface wave is generated.

In addition, high-frequency cables (aperture cable) comprising a through longitudinal opening are known.

Surface waves are formed through a longitudinal opening. There is no cut-off frequency typical of the structure, but due to the strong increase in cable attenuation 30, as the frequencies increase, the range of use of these aperture cables is limited to a frequency range of less than 200-300 MHz. This is further compounded by the fact that the cable attenuation and the radiation properties of the aperture cables suffer from environmental effects, 35 for example, deposits in the cable sheath.

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It is an object of the invention to provide a device with improved radiation characteristics for a high frequency line. The high-frequency line must be as independent of environmental effects as possible in terms of its radiation characteristics and it must radiate a wide frequency band. This object is achieved by a device according to the invention, which is characterized by what is set forth in the characterizing part of the appended claim 1. Preferred embodiments of the device are set out in claims 2-7.

The invention relates to a combination of the structural features of both principles, so that the good properties of the aperture cable can be influenced in the lower frequency range and in the upper frequency range again the advantages inherent in a leakage cable. Due to the combination of both principles, the longitudinal gap 15 is made narrower compared to the opening cable alone (30o opening angle compared to 80o angle).

A preferred embodiment of the invention will be described with reference to the drawing, in which the figure shows a high-frequency cable comprising a high-frequency cable 6 and a sheath 20 7. The high-frequency cable consists of an inner conductor 1, an outer conductor 2 and an insulator 3. The float conductor has openings. They have, on the one hand, periodic hole patterns 4 with a diameter smaller than the diameter of the high-frequency line and, on the other hand, openings 5 with a length greater than the diameter of the high-frequency line 6. The width of the longitudinal openings corresponds, for example, to an opening angle of 30 ° with respect to the axis in a vertical section. The holes and openings are arranged, for example, in a spiral with a large thread around the shaft, so that there are both holes a few meters long. 30 that openings on the side of the high-frequency line on the roadway side.

A protective sheath 7 is extruded around the high-frequency cable, which is a material with the lowest possible insulation loss. Such a material is, for example, polyethylene.

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According to another preferred embodiment of the invention, the openings are very long with respect to the diameter of the high-frequency line and, for example, short, electrically conductive projections are made for large distances between the openings. In the case of boundary-5, where the protrusions are very narrow and the openings are very long, only one opening is used. This may be due to manufacturing reasons. According to another embodiment, the longitudinal opening is likewise spiral, so that the float conductor is better around the insulation. In addition, thanks to the helical structure 10, the opening can radiate both on the side far from the road and on the side of the road.

The reflective cable according to the invention is able to provide the best possible and even reflection in a wide frequency range, for example in the bands used a lot (4 m, 2 m, 0.7 m band) with the lowest possible environmental sensitivity. The invention is mainly used for data transmission in tunnels and also for the transmission of signals in traffic control on railways, in the future also on streets-20 la and motorways.

Such a cable is also used for the exchange of the receiving antenna-Nina. As is known in the art of antenna technology, it is advantageous to place the high-frequency line at a certain distance from the conductive surfaces. The conductive surfaces can be considered to be rails, guardrails and similar structures which act as a reflector or conductor relative to the receiving or transmitting antenna.

The radiating cable exemplified in the above description may, of course, also have more than two groups of longitudinal openings. For example, in three groups, the angular distance between the two groups is then 120 °.

Claims (7)

Apparatus for transmitting high frequency signals between a high-frequency transmission waveguide and a mobile antenna, wherein the high frequency conduit has an inner conductor (1), a coaxial outer conductor (2) and an insulation (3), and openings are provided in the high voltage external conductor. for emitting or receiving beams, characterized in that in the longitudinal direction of the high voltage line 10, there are at least two different types of openings of different shapes, with the first casing having openings (4) of a first type, while the second casing has openings (5) of a second type, that the openings of the first type are longer than the openings of the second type with at least factor 2 and that the openings of the first type are intended to radiate within a lower frequency range than the openings of the second type. 2. Device according to claim 1, characterized in that the openings of the second type are 20 (4) and that the openings of the first type are slots (5) which extend substantially in length relative to the high voltage line (6). Device according to claim 2, characterized in that the slots (5) are longer than the diameter of the high voltage line (6) and that the radial opening angle of the slots is 10 ° - 40 °. Device according to any of claims 1-3, characterized in that the openings of the second type, which are shorter in the longitudinal direction, consist of round heels (4) arranged substantially parallel to the axis of the high voltage line (6). Device according to any of claims 1 to 4, characterized in that each type of openings forms a repeating pattern. Device according to any of claims 1-4, characterized in that the openings of the first type are replaced by longitudinal slots. Device according to any one of claims 1 to 6, characterized in that each opening type (4, 5) is arranged alternately on one side of the high voltage line (6) and in a adjacent part of the high voltage line (6) on the opposite side thereof. »