DE19758217A1 - Dual hybrid antenna for mobile radio, esp. mobile navigation. Applications using GPS signals - Google Patents

Abstract

The dual band hybrid radiator has two conductive parallel plates or foils (1,2) with circular edges at a defined distance apart joined at the center by a conductive cylinder (4). The smaller plate (2) has four equally spaced radial slots (5.1-5.4). The inner conductor (6) of a coaxial wave-guide is connected to the smaller plate (2), the outer conductor (7) to the larger plate (1) and extending into the space between the plates. The coupling point of the inner conductor with the conductive plate or the center point of an aperture (8) in the plate is arranged on the center point of a radial line from one or other plate which encloses an angle of 45 degrees with the axes of two mutually perpendicular radial slots.

Description

Aim of the invention

The aim of the invention is to configure an extremely miniaturi based and in the first place extensive antenna component with the Property of the generation of a linearly vertically polarized omnidirectional radiation in the azimuthal plane, preferably within the GSM or DCS spectral range between 890 MHz and 960 MHz and between 1710 MHz and 1880 MHz and the property of the producibility of a right-handed circularly polarized and on the coordinate side, broad sector radiation with the main radiation direction parallel to the surface normal of the arrangement.

The aim of the invention is, in particular, the two radiation functions assign a hybrid or combination arrangement as well as the signal coupling or decoupling exclusively by means of a signal path or Generate signal coupling element.

Field of application of the invention

The field of application of the invention relates primarily to the mobile radio area and the area of mobile navigation by means of reception or the evaluation of the GPS signals. The planar antenna forms an antenna component for external installation or for outboard applications both for landmobile and aircraft as well as for maritime movement and traffic medium.

In addition, the radiator component according to the invention forms Basic module for short and medium-range transmission systems within commu nication, sensor or security applications.

Characteristic of the known prior art

Known antenna solutions for the field of mobile communication are based on linear antenna designs in the form of monopole arrangements in a shortened form or unabridged version. These linear antennas are both external  mountable on-board antennas as well as directly coupled to the terminal Components known and with different directives and effects degrees afflicted. Flat versions with the property of vertical polarization of the electrical field vector and the omnidirectional characteristic in the azmuth plane are based on the ring-slot concept.

Known antenna solutions for receiving the GPS signals are based on Helical antenna designs and resonator antenna designs in micro strip technology, both low-dielectric structure supports in the form of Polytetrafluoroethylene compositions as well as high dielectric structure supports in Form of electrically high-quality ceramics are used as structural supports.

Presentation of the nature of the invention

The object of the invention is to configure an extreme miniaturized and flat spotlight component with the property of Generability of a vertically polarized omnidirectional radiation in the azimuthal plane of the surface mountable on a dielectric or conductive base plane Radiator and one spectrally compared to the frequency range of the omnidirectional radiation offset circularly polarized sector radiation with the radiation maximum in Direction of the surface normal of the emitter or the emitter axis.

The object is achieved in that two conductive plates or foils ( 1 ), ( 2 ) are arranged at a defined distance parallel to one another and the plate or foil ( 1 ) is formed with a circular border and the conductive plate or foil ( 2 ) are also formed with a circular border, the plates or foils ( 1 ), ( 2 ) being of the same or different, preferably different, diameter and the plate or foil ( 2 ) having a smaller diameter than the plate or foil ( 1 ).

According to the invention the object is further achieved in that the two plates or foils ( 1 ), ( 2 ) are arranged symmetrically and plane-parallel one above the other and are connected at the center ( 3 ) by means of a conductive cylinder or cylinder jacket, preferably cylinder ( 4 ), the conductor capable connections between the plate or film ( 1 ) and the conductive cylinder ( 4 ) and between the plate or film ( 2 ) and the conductive cylinder ( 4 ) are preferably carried out as a screw, rivet or soldered connection. The plate or film ( 2 ) is provided with four radial slots ( 5.1 ), ( 5.2 ), ( 5.3 ), ( 5.4 ), each starting from the center ( 3 ) of the plate or film ( 2 ), at a mutual angular distance of 90 degrees , The radial slots ( 5 ) with mutually different lengths and the same slot width or mutually the same length and different slot width are carried out in such a way that the radial slots ( 5 ) offset by 180 degrees to each other are the same length for the case of the identity of the Have slot widths or the radial slots ( 5 ) offset by 180 degrees to each other have the same slot width for the case of the identity of the slot lengths. According to the four radial slots with identical slot length and identical slot width can be carried out, the four radial slots ( 5 ) each being coupled to one or more concentrated blind elements ( 11 ), the electrical properties of which are pairwise identical in such a way that two in each case 180 degrees offset blind elements ( 11 ) or blind element groups ( 12 ) with respect to the center ( 3 ) of the plates or films ( 1 ), ( 2 ) mirror-symmetrically arranged coupling points and have the same characteristic values.

Furthermore, the four radial slots ( 11.1 ), ( 11.2 ), ( 11.3 ), ( 11.4 ) can be designed with identical slot lengths and identical slot widths, whereby two radial slots offset by 180 angular degrees are coupled with a concentrated reactive load by in the planes of Radial lines in question each have a concentrated blind element ( 11 ) between the plates or foils ( 1 ) and ( 2 ) or between a point selected on the respective radial line of the plate or foil ( 2 ) and the connection point ( 3 ) between the plate or foil ( 1 ) and the plate or film ( 2 ) is inserted.

The arrangement according to the invention is coupled to a coaxial waveguide by the inner conductor ( 6 ) of the coaxial waveguide being conductively connected to the plate or film ( 2 ) and the outer conductor ( 7 ) of the coaxial waveguide being conductively connected to the plate or film ( 1 ) is, the outer conductor ( 7 ) through the aperture ( 8 ) of the plate or film ( 1 ) passing into the space ( 9 ) between the plates or films ( 1 ) and ( 2 ) is extended in such a way that the the space between the plates or foils ( 1 ) and ( 2 ) inserted outer conductor segment does not touch the plate or foil ( 2 ) and is identical to the geometry of the outer conductor ( 7 ) with respect to the inner and outer diameter or with respect to the inner or outer diameter or the Inside and outside diameters are taped continuously or discontinuously, where possible through the defined dimensioning of the length and diameter ratios there is the targeted definition or influencing of the input impedance profile of the radiator. Here, the coupling point of the inner conductor ( 6 ) with the conductive plate or film ( 2 ) or the center of the diaphragm ( 8 ) within the conductive plate or film ( 1 ) on one of the center of the plate or film ( 1 ) or . The plate or film ( 2 ) outgoing radial line, which includes an angle of 45 angular degrees to the center line of two radial slots ( 5 ) arranged at a mutual angular distance of 90 angular degrees, arranged and dimensioned with respect to the radial positioning such that one of the wave impedance of the exciting coaxial waveguide identical input impedance of the radiator arrangement arises.

According to the invention, the plate or film ( 2 ) can be provided with diaphragms ( 10 ) of circular, elliptical, square, rectangular, triangular, pentagonal or hexagonal contour, the center points or diagonal intersection points or intersection points of the angular or lateral bisectors on each of the center points radial lines starting from the plate or film ( 2 ) are arranged with a mutual angular spacing of 90 angular degrees, in that the diaphragms ( 10 ) are offset by two angular degrees from one another and starting from the center of the plate or film ( 2 ) with the same contour and Dimension and the position are carried out, wherein the panels ( 10 ) each have a contour section or a contour segment that or that intersects the boundary circle of the plate or film ( 2 ).

Embodiment

The arrangement according to the invention is intended to be explained in more detail using an exemplary embodiment are explained. Here, by means of the arrangement in question within of the frequency range between 890 MHz and 960 MHz a linearly polarized Radiation field with azimuthal omnidirectional characteristics with respect to the surfaces normal the radiator arrangement as well as a circular for the frequency 1575 MHz polarized radiation field with sector characteristic with the main radiation direction generated parallel to the surface normal of the radiator arrangement.

According to Fig. 1, a conductive metallic plate ( 1 ) with a circular rim and a diameter of 90 mm, preferably consisting of copper, brass or aluminum, via a conductive socket ( 4 ), preferably consisting of copper, brass or aluminum, connected to a second conductive metallic plate ( 2 ) with a circular border and a diameter of 76 mm in such a way that the conductive socket ( 4 ) is positioned at the center ( 3 ) of the plates ( 1 ), ( 2 ) and thus the plates ( 1 ) and ( 2 ) are arranged symmetrically and plane-parallel to each other and with a mutual distance of 7.8 mm. Here, the plate ( 2 ) according to Fig. 2 with four radial slots ( 5.1 ), ( 5.2 ), ( 5.3 ), ( 5.4 ) with a slot width of 2 mm and each starting from the center ( 3 ) of the plate ( 2 ) a mutual angular offset of 90 degrees, the radial slots ( 5.1 ) and ( 5.3 ) to each other have the same slot length of 24.2 mm and the radial slots ( 5.2 ) and ( 5.4 ) to each other have the same slot length of 25.4 mm.

The arrangement is coupled to a coaxial waveguide by the inner conductor ( 6 ) of the coaxial waveguide being conductively connected to the plate ( 2 ) and the outer conductor ( 7 ) of the coaxial waveguide being conductively connected to the plate ( 1 ). The outer conductor ( 7 ) is connected by means of a conductive socket ( 13 ) with a geometric length of 6.3 mm according to Fig. 3, preferably consisting of copper, brass or aluminum, which is conductively connected to the panel edge ( 8 ) of the plate ( 1 ), extended, the centering of the socket ( 13 ) by means of a dielectric socket, preferably consisting of polytetrafluoroethylene, in such a way that the diameter ratio in conjunction with the effective dielectric susceptibility of the polytetrafluoroethylene generates the wave impedance of the coaxial waveguide.

Claims (4)

1. Dual-band hybrid antenna, consisting of an arrangement of geometrically defined and conductive levels, characterized in that

• - Two conductive plates or foils ( 1 ), ( 2 ) are arranged at a defined distance parallel to each other by the plate or foil ( 1 ) formed with a circular border and the conductive plate or foil ( 2 ) also with a circular border is formed, the plates or foils ( 1 ), ( 2 ) having a different diameter and the plate or foil ( 2 ) having a smaller diameter than the plate or foil ( 1 );
• - The two conductive plates or foils ( 1 ). ( 2 ) arranged symmetrically one above the other and connected in the center ( 3 ) by means of a conductive cylinder ( 4 ), the conductive connections between the plate or film ( 1 ) and the conductive cylinder ( 4 ) and between the plate or film ( 2 ) and the conductive cylinder ( 4 ) is preferably carried out as a screw, rivet or solder connection;
• - The plate or film ( 2 ) is provided with four radial slots ( 5.1 ), ( 5.2 ), ( 5.3 ), ( 5.4 ) at an angle of 90 degrees to each other, the radial slots ( 5 ) having different lengths and the same slot wide or mutually equal length and different slot width are carried out in such a way that the radial slots ( 5 ) offset by 180 degrees to each other have the same length in the case of the identity of the slot widths or the radial slots offset by 180 degrees to each other ( 5 ) have the same slot width in the case of identity of the slot lengths;
• - The arrangement is coupled to a coaxial waveguide in that the inner conductor ( 6 ) of the coaxial waveguide is conductively connected to the plate or film ( 2 ) and the outer conductor ( 7 ) of the coaxial waveguide is conductively connected to the plate or film ( 1 ), wherein the outer conductor ( 7 ) is extended through the screen ( 8 ) of the plate or film ( 1 ) into the space ( 9 ) between the plates or films ( 1 ) and ( 2 );
• - The coupling point of the inner conductor ( 6 ) with the conductive plate or film ( 2 ) or the center of the diaphragm ( 8 ) within the conductive plate or film ( 1 ) on one of the center of the plate or film ( 1 ) or plate or Foil ( 2 ) starting radial line is arranged, which includes an angle of 45 angular degrees to the axis line of two radial slots ( 5 ) arranged with a mutual angular offset of 90 angular degrees.

2. Dual-band hybrid antenna according to claim 1, characterized in that the plate or film ( 2 ) with diaphragms ( 10 ) of circular, elliptical, square, rectangular, triangular, pentagonal or hexagonal contour is provided, the centers, diagonal intersections or intersections of the Angle or side bisectors are arranged on radial lines starting from the center of the plate or film ( 2 ) with a mutual angular distance of 90 degrees, and the screens ( 10 ) are offset by two 180 degrees from each other and starting from the center of the plate or film ( 2 ) Radial lines are carried out in the same way with regard to the contour and dimension as well as the position, the diaphragms ( 10 ) of the designated contours each having a contour section or a contour segment that intersects the boundary circle of the plate or film ( 2 ). 3. Dual-band hybrid antenna according to claim 1, characterized in that the four radial slots ( 5 ) with identical slot length and identical slot width are executed, wherein two radial slots offset by 180 degrees are coupled with a concentrated reactive load by in the planes of the concerned Radial lines each have a concentrated blind element ( 11 ) between the plates or films ( 1 ) and ( 2 ) is introduced, the concentrated blind elements having the same electrical properties and the coupling points of the concentrated blind elements ( 11 ) mirror-symmetrical to the center ( 3 ) of the plates or Films ( 1 ), ( 2 ) are arranged. 4. Dual-band hybrid antenna according to claim 1, characterized in that the four radial slots ( 5 ) are carried out with identical slot length and identical slot width, two radial slots offset by 180 angular degrees each being coupled with a concentrated reactive load by in the planes of the concerned Radial lines each have a concentrated blind element ( 11 ) between a point selected on the respective radial line of the plate or film ( 2 ) and the connection point ( 3 ) between the plate or film ( 1 ) and the plate or film ( 2 ) is inserted, wherein the points of the plate or film ( 2 ) selected on the radial line in question are arranged mirror-symmetrically to the center point ( 3 ) of the plates or films ( 1 ), ( 2 ).