DE4120439A1 - FLAT ANTENNA - Google Patents

Abstract

Pivoting and adjusting the radiation direction of a flat aerial having a radiator arrangement (11) and a supply arrangement (13) is made easy by arranging the radiator arrangement (11) and the supply arrangement (13) in such a way that their electric positions may be modified with respect to each other. In order to allow the electric positions to be modified, an asymmetrically arranged dielectric body (16) is arranged in the supply arrangement (13) or a rotative, spherical calotte provided with an input opening is used.

Description

The invention relates to a flat antenna, in particular for Satellite radio reception, with a radiator arrangement and a feeding device having a coupling device.

Flat antennas of this type are, for example, from a Pro Spect known from the company Matsushita or DE 40 26 432 A1. Such flat antennas have a radiator arrangement that both as a single radiator and from an arrangement of Can consist of radiator elements, for example dipoles, conduct small areas of various shapes, so-called patches de surfaces or dual emitter elements, e.g. B. slots, circles etc., can be.

Dining facilities exist with the conventional flat edges lead either from branched, to each radiator element the lines (coaxial, waveguide or stripline) in shape a tree structure or they can consist of at least one Coupling device having feed line in the form of Ko axial or waveguides and / or a waveguide radial lead tion be formed, such as in DE 40 26 432 A1 is described.

Basically there is for the conception of flat antennas Possibility to take precautions that the main jet direction of the antenna is not perpendicular to the antenna arrangement or the antenna aperture, but that the main beam direction to the normal of the antenna arrangement or antennas  aperture is pivoted at a certain angle. In the mentioned Prospectus of the company Matsushita is therefore also stated that the flat antenna not only with a beam angle of 0 °, so with one standing vertically on the antenna arrangement Beam, but also be with a beam squint angle steel angle of 12 ° can be supplied. This Beam angle is fixed and cannot ver be changed.

Another possibility, the beam angle compared to the Norma len to make the antenna aperture non-zero is in the DE 40 26 432 A1 described, in which an angle Φ to Aperture normals inclined beam through an asymmetrical, arrangements booking out in opposite directions the termination slots and / or the radiation slot pairs he is enough. The tendency to jet is determined by appropriate Measures in the choice of pathogen structures, the location of the Radiator elements and by appropriate choice of the length of the Feed lines, i.e. so-called design measures, whereby for the flat antenna a fixed beam inclination or pivoting is effected. However, this tendency to jet is for predefined each antenna type and after manufacturing the antenna not changeable.

From the essay "Experimental system of a receptionist ne with digitally generated group diagram "by U. Petri, A. Schlaud, D. Brogmann, printed in NTO Technical Reports 78, Pages 21-25, VTE Verlag 1982, is a flat antenna in shape a phased array antenna, a so-called Phased array, known in connection with radar systems, at the phase relationships in the food through phase shifters equipment or in the dining network changed and thereby A change in beam angle is achieved during antenna operation can be. Such circuit arrangements are in profes sionella, especially military area. Except  from the fact that the phase shifters are too big Loss of flat antennas for satellite broadcast reception would lead to such beam swing circuits for individual use and for the consumer area around size orders too expensive, so that they are for the described here Antennas in DTH (Direct to Home) - or in TVRO (TV Receive Only) use case cannot be used. In addition, such arrangements would be with phase shifters cannot be used for economic reasons, because with the flat antennas especially for satellite broadcasting radio reception only a one-time setting when installing the antenna and not a constant beam angle swing is required.

The invention is therefore based on the object, a Flachan tenne to create its beam angle in a very simple way when assembling the local conditions in a simple manner adapted and with a view to the most precise alignment possible of the antenna pattern on the radiation source, such as the Sa telliten, can be changed easily.

The object is achieved in that the radiator arrangement and the feed device relative to one another others are changeable in their positions.

The measures according to the invention, the radiator arrangement and the Positioning device of the flat antenna can be changed relative to one another to arrange, allow the Flachan in a simple way mark the alignment of the antenna pattern the beam source, for example on a specific satellite simple means to correct and thus an optimal To reach reception. By changing the Position of the jet arrangement and the feed device to one another given the antenna pattern an asymmetry that the beam pivoting causes. The antenna gain is reduced  through such asymmetries. Such antenna loss can in practice, however, are easily tolerated, if the corrections to the alignment in the area move less half-widths.

An advantageous embodiment of the invention consists in that the location of the radiator arrangement and the feed arrangement in mutually parallel planes, i.e. perpendicular to the normal of the Surface antenna, is adjustable. By moving it sideways the feed device, for example a feed network in the case of a strip line junction, or a radial cable in the case of a round antenna, there is a con continuous phase offset over the antenna surface, where due to the beam direction of the antenna this phase offset tends to be the antenna pattern pulled in the direction of the lagging current.

According to a further preferred embodiment of the invention is the location of the radiator arrangement and the feed device adjustable to each other in the horizontal direction. Instead of or in addition to a horizontal change of position, however, it is also possible a vertical change in position between the Provide radiator arrangement and the feed device. These Embodiments relate in particular to flat antennas which are arranged vertically on house walls, so that by a horizontal change of position an azimuth beam swing and / or due to a vertical change of position an Elerations-Ray pivoting can be made.

However, there is an alternative or additional possibility also in that the position setting of the radiator arrangement and the feed device to one another in an antenna order inclined plane.

A particularly advantageous embodiment of the invention be  is that the position of the coupling device is vertical is adjustable to the level of the radiator arrangement. The Einkop Accordingly, the coupling device, ie the coupling point mechanically shifted, so that this in turn causes an asymmetry of the antenna pattern and thus a beam swing is achieved. The shift can be linear, in the case of a so-called "Radial Line Slot Antenna" (RLSA) in radial Direction are shifted so that the pivoting of the antenna optimized for alignment with the radiation source becomes.

According to a particularly advantageous embodiment, the Coupling device on an adjustable spherical cap. A such spherical cap simplifies the setting of the coupling device or the coupling point. The embodiment with a spherical cap also has the advantage that in view good electrical contact on good shielding is enough and a weather and environmentally protected closure reali can be settled.

The task is in connection with a Flachan tenne, in which a dielectric body is provided, be particularly advantageously solved according to the invention in that the position of the dielectric body can be changed. By the change in position of the dielectric body, which is called dielek tric delay element acts, in turn becomes an asymmetry trie in the excitation structure of the flat antenna and thus one Beam swing of the antenna pattern reached.

According to a further advantageous embodiment of the inventions The inventive flat antenna with a dielectric body is this eccentrically mounted and rotatable. Especially related with the mentioned RLSA antenna is only by twisting of the eccentrically mounted dielectric body arbitrary pivoting of the antenna beam in the desired  Way possible.

Especially also with flat antennas that are fixed at the factory set beam angles for a single special emp are initially provided, the use of the fiction, Moderate measures very advantageous, as this makes it simple a readjustment for optimal alignment of the antenna is possible, which was previously only possible by mechanical pivoting the entire antenna was possible. With the invention Features, it is possible to use flat antennas that are factory made Have basic setting of the radiation direction, at arbitrary locations, for example on a house wall ren, where in this position the fine position according to local conditions, such as geo graphical position of different elevations and azimuths can be carried out.

It should be noted that the term "Flachan tenne "not only a completely flat antenna, but also an antenna with an antenna aperture is to be understood that can have a more or less curved outer surface.

The invention is described below with reference to exemplary embodiments explained in more detail with reference to the drawings. Show it:

Fig. 1 is a planar antenna with a Streifenleitungsverzweigun gen-containing feed network as feeder in a schematic representation;

Fig. 2 is a schematic representation of an axially symmetrical flat antenna of the so-called RLSA type with a dielectric body and

Fig. 3 shows another schematically illustrated embodiment of the flat antenna according to the invention with a Kugelka soldered as an adjusting device.

The schmatisch shown in FIG. 1 rectangular or corner-shaped flat antenna consisting of a radiator arrangement 1 with slots as antenna elements 2, a feeder 3 in the form of a feed network branching with Stripes fenleitungen 4 and a feed point. 5

In a conventional flat antenna of this type, all radiator elements 2 are in a predetermined position corresponding end of a suitable phase position, so that the radiator elements 2 corresponding to this phase position, which is required to generate a predetermined beam direction of the antenna, excited who. In order to be able to adjust the antenna during installation precisely to a radiation source, for example a satellite, in order to generate a beam swing in the desired manner, the feed device 3 is moved relative to the beam arrangement 1 in this embodiment of the invention since Lich that there is a changed phase position and thereby the beam direction of the antenna pivots in accordance with this changed phase position or this phase offset. The pivoting is done so that the antenna slide is drawn in the direction of the lagging current.

In the flat antenna shown in Fig. 1 with a feed device 3 in line technology is therefore preferably provided to see the structure of the coupled to the feed network of the Speiseein device 3 radiator elements 2 in the transverse direction, in this way a beam swing by an asymmetrical To effect coupling.

The circular flat antenna shown in Fig. 2, a so-called "Radial Line Slot Antenna" (RLSA) has a circular radiator arrangement 11 with radiator elements 12 in the form of slots and a feed device 13 in the form of a waveguide and a feed point 14 with an excitation a coaxial cable 15 . In the feed device 13 there is a dielectric body 16 which is mounted eccentrically and can be rotated. Since the dielectric body 16 acts as a delay element and is asymmetrical with respect to the feed point 14 , there is a delay of the exciting wave in primarily one direction and thus the desired beam swiveling of the antenna pattern. The use of the dielectric body 16 , which changes the excitation structure of the RLSA in an asymmetrical manner, in turn results in a simple adjustment of the flat antenna to a radiation source by swiveling the antenna beam. By designing the dielectric body 16 as an electrically mounted part, twisting it makes it possible to carry out the adjustment and fine adjustment in a simple manner.

In this context, only the completeness half mentioned that a swing of the antenna beam too in a simple manner by moving the feed point of the RLSA can be effected in the radial direction.

Fig. 3 shows a further embodiment of the flat antenna according to the invention with a slot 22 having a radiator arrangement 21 , a feed device 23 in the form of a hollow conductor and a feed opening 24 which is provided in a Kugelka solder 25 . An adjustment of the feed opening 24 and thus the fine adjustment of the beam direction of the antenna can be carried out in the simplest way by rotating the Kugelka lotte 25 with the feed device 23 . The adjustment of the spherical cap 25 is easily possible from the outside. In addition, the spherical cap 25 is well and reliably electrically contacted with the feed device 23 , which is important for the shielding. An environmentally and weatherproof closure can also be achieved in a simple manner by using a spherical cap.

The invention was based on preferred embodiments wrote. Deviations and configurations are known to the person skilled in the art of the invention possible without thereby the inventive concept is left. How the respective technical design for the various use cases is also carried out Radiator elements become one in their electrical position position and adjustment of the antenna beam direction the dining facility, which is usually a dining network is changed in each case. The electrical path lengths between the coupling point and part of the radiator elements compared to the opposite part of the radiator elements on the radiator arrangement or the radiator element surface set differently, so that thereby a Change the phase position that is used to generate a beam direction of the antenna is required, is changed.

Claims (10)

1. Flat antenna, in particular for satellite broadcast reception, with a radiator arrangement and a feed device having an ankop pelvorrichtung, characterized in that the radiator arrangement ( 1 , 11 , 21 ) and the feed device ( 3 , 13 , 23 ) relative to each other in their positions are changeable. 2. Flat antenna according to one of the preceding claims, characterized in that the position of the radiator arrangement ( 1 , 11 , 21 ) and the feed device ( 3 , 13 , 23 ) is adjustable in mutually parallel planes. 3. Flat antenna according to claim 1 or 2, characterized in that the position of the radiator arrangement ( 1 , 11 , 21 ) and the feed device ( 3 , 13 , 23 ) to each other is adjustable in the horizontal direction. 4. Flat antenna according to one of the preceding claims, characterized in that the position of the radiator arrangement ( 1 , 11 , 21 ) and the feed device ( 3 , 13 , 23 ) to each other is adjustable in the vertical direction. 5. Flat antenna according to one of claims 1, 3 or 4, characterized in that the position of the radiator arrangement ( 1 , 11 , 21 ) and the feed device ( 3 , 13 , 23 ) to one another in an antenna arrangement ( 1 , 11 , 21 ) inclined plane is adjustable. 6. Flat antenna according to one of the preceding claims, in which the feed device has a feed line and a hollow conductor radial line, characterized in that the position of the coupling device is arranged perpendicular to the plane of the radiator arrangement ( 1 , 11 , 21 ). 7. Flat antenna according to one of the preceding claims, characterized in that the coupling device to the surface normal of the antenna arrangement ( 1 , 11 , 21 ) is adjustable inclined. 8. Flat antenna according to one of the preceding claims, characterized in that the coupling device has an adjustable spherical cap ( 25 ). 9. Flat antenna, in particular for satellite radio reception with a radiator arrangement and a device having a coupling device and a dielectric body, the feed device, characterized in that the position of the dielectric body ( 16 ) can be changed. 10. Flat antenna according to claim 9, characterized in that the dielectric body ( 16 ) is eccentrically mounted and rotatable.