DE10027609A1 - Planar antenna system for mobile radio applications, has coaxial waveguide whose inner and outer conductors make predetermined angle with axis of slit structure of conductive disk - Google Patents

Abstract

A pair of conductive disks have segmented slit structure for arranging capacitive load elements. A coaxial waveguide is arranged such that the inner and outer conductors (3.1,3.3) make an angle of 90\!20 deg with axis of slit structure.

Description

Aim of the invention

The aim of the invention is to configure an extremely miniaturized th and primarily extensive antenna component with the Property of the generation of a linearly vertically polarized omnidirectional radiation in the azimuth plane and a sector radiation in the elevation plane preferably in the spectral ranges between 890 MHz and 960 MHz as well between 1710 MHz and 1880 MHz. Likewise, with the objective Invention developed a powerful substitution solution for linear antennas be an inconspicuous or camouflaged radio transmission and reception operation permitted both outdoors and indoors and in this context a special suitability for the effective object or building interior supply having.

Furthermore, the invention pursues the goal of immediate assembly possible speed of the planar emitter on any dielectric slides or dielek trical space or object boundaries by any or universal available adhesive or fastening means, so that on the basis of the Invention According to the spotlight arrangement, the possibility of a quick and inexpensive Establishment of wireless signal transmission lines with any complexity Degree of degree or any degree of branching without the requirement of the beam directional sensitivity is given.

The aim of the invention is also to configure the Planar emitter required dielectric structure support through use only electrically conductive and self-supporting thin plates, preferred wise metallic plates or foils to replace and by the use of dielectric base materials with a deviation from the evacuated space Geometric shortening due to the corresponding dielectric constant by means of distributed to achieve capacitive and loss-minimal structural elements.

In addition, the aim of the invention is to increase the spectral bandwidth versus using dielectric basis materials with a dielectric constant that differs from the evacuated space configurable and known solutions as well as in the optimization of techno logical and effort-based basis.  

Field of application of the invention

The field of application of the invention relates primarily to the mobile Radio area within the GSM network and the DCS network as well as on bundles radio applications. The planar emitter forms an optional antenna component or replacement component of linear gain antennas with assembly Possibility both in the open space and in the interior of stationary, portable and mobile objects. The area of application also relates to general my interior applications by adding a spatial component separate component forms from the respective terminal.

The radiator component can be used advantageously in cases where the on system quickly and easily with the option of mechanically fast and uncomplicated detachability is to be assembled. In addition, the radiator component according to the invention a base module for short or medium route transmission systems for communication, sensor or security technology African applications.

Characteristic of the known prior art

Known antenna solutions for the field of mobile radio applications are based on linear antenna designs in the form of monopole or dipole orders in a shortened or unabridged version. These linear antennas are both as externally mountable antennas and as directly with the Terminal-coupled components known and with different direction factor and efficiency. Known flat antenna solutions are based on areal, dipole-like configurations or areal Resonator arrangements using electrically shortening structural supports, the geometry for the case of unabridged arrangements only the Wavelength dependency reflects and thus miniaturization closes as well as the means of the dielectric structure supports used in Ab dependence on the susceptibility profile shortened arrangements with the resul tive reduction in efficiency. Likewise, the Use of dielectric structure supports to increase the cost entry. Known miniature solutions based on asymmetrical waveguide resonance Doors in microstrip technology are based on the combination of conductive foils and dielectric load elements, such solutions being technological design very complex. These combination solutions are beyond that going with the disadvantage of spectral narrowband.

The electrical and usage properties of known antenna solutions exclude the achievement of the objectives of the present invention, so that with the subject invention use for the named fields of application bare technology is expanded compared to the known prior art.  

Presentation of the nature of the invention

The object of the invention is to configure an extremely mini Aturized and extensive spotlight system with the property of the production Ability of a linearly vertically polarized omnidirectional radiation in the azimuthal plane and a sector radiation in the elevation plane, preferably in the spectral ranges between 890 MHz and 960 MHz or 1710 MHz and 1880 MHz. The object of the invention is also the system con Acceptance or dimensioning with consideration or inclusion universal dielectric mounting or mounting levels, preferably glass-shaped assembly levels.

The object to be assigned to this case is achieved according to the invention in that a conductive plate or foil ( 1 ), preferably consisting of aluminum, copper or brass, is arranged at a defined distance parallel to a system-complementary dielectric, preferably glass-shaped, mounting plane, the Conductive plate or film ( 1 ) with a circular, elliptical, square, rectangular, triangular, pentagonal, hexagonal or any, preferably circular border, formed and provided with a segmented slot-shaped structure ( 2 ), the segmented slot-shaped structure from the segments ( 2.1 ), ( 2.2 ) ,. , , , , (2.n) with n = 1, 2,. , ., the same or different segment length or segment extension and / or segment width with mutually identical or non-identical as well as parallel or non-parallel as well as linear or non-linear slot axis is synthesized. The object of the invention is further achieved in that the slot structure ( 2 ) is offset with one or more capacitive loading elements which are synthesized in that the respective conductive surfaces delimiting the slot structure ( 2 ) selectively or locally and preferably parallel to the surface, each with one Conductive plate or film of any border, preferably circular border, and a dielectric plate or film of any border, preferably circular border, identical or unequal dimensions, preferably unequal dimensions, to each other, the size of the respective reactive load due to the geometry and material properties of the conductive plate or film, the geometry and susceptibility properties of the dielectric plate or film and their position with respect to the slot structure ( 2 ) is determined.

The excitation or supply of the electromagnetic resonant vibrating arrangement takes place by means of a coaxial waveguide ( 3 ) by the outer conductor ( 3.3 ) of a coaxial waveguide ( 3 ) being conductive and at a mutual angular offset of 90 +/- 20 degrees between the axes of the slot structure ture ( 2 ) and the coaxial waveguide ( 3 ) with the slot structure-limiting conductive plate or film ( 1 ) in such a way that the limitation of the slot structure ( 2 ) or a slot structure segment (2.n) the axial boundary plane of the outer conductor ( 3.3 ) of the coaxial waveguide. The inner conductor ( 3.1 ), which is axially elongated over the boundary plane of the coaxial outer conductor ( 3.3 ), is at an angle of 90 +/- 20 degrees with respect to the axis of the slot structure ( 2 ) via the slot structure ( 2 ) or via a slot structure segment (2.n ) guided and galvanically coupled to the complementary conductive slot structure limitation of the conductive plate or foil ( 1 ). The positioning of the coupling plane between the coaxial waveguide ( 3 ) and the slot structure ( 2 ) or slot structure segment (2.n) takes place with reference to the axial location dependency of the slot structure ( 2 ) or the slot structure segment (2.n), depicting the axial impedance dependency .

The arrangement is dimensioned on the geometry side for the resonance case, whereby the dielectric container or assembly level upstream of the aperture or dielectric container or assembly layer, which correspond here by the de radiator container or other dielectric body levels ver is represented in its electromagnetic, primarily capacitive effect by means of an inductive detuning of the resonant waveguide structure equi is considered.

Embodiment

The subject invention is intended to use an exemplary embodiment for the Frequency range 890 MHz to 960 MHz are explained in more detail.

According to Fig. 1, a conductive metallic plate ( 1 ) with a circular edge, preferably consisting of copper, aluminum or brass, with a slot structure ( 2 ) according to Fig. 2, consisting of the slot structure segments ( 2.1 ) and ( 2.2 ) provided, the axes of the slot structure segments ( 2.1 ) and ( 2.2 ) enclosing an angle of 90 degrees and the slot structure segment ( 2.1 ) preferably being positioned on a line of symmetry of the circular metallic plate ( 1 ).

The arrangement is excited by means of a coaxial waveguide, in that the outer conductor ( 3.3 ) of the coaxial waveguide ( 3 ) is conductive and capable of conducting at a mutual angular offset of 90 degrees between the axes of the slot structure segment ( 2.1 ) and the coaxial waveguide ( 3 ) Plate or film ( 1 ) is connected in such a way that the parallel axis le delimitation of the slot structure segment ( 2.1 ) forms the axial delimitation plane of the outer conductor ( 3.3 ). The inner conductor ( 3.1 ) of the coaxial waveguide ( 3 ) is extended axially and is guided transversely with respect to the axis of the slot structure segment ( 2.1 ) over the slot structure segment ( 2.1 ) and galvanically with the complementary slot structure limitation of the slot structure segment ( 2.1 ) according to Fig. 1 in the Point ( 4 ) intersecting transverse plane coupled with respect to the slot structure axis.

The circularly designed and structured conductive plate or film ( 1 ) is inserted into a radome consisting of two half-shells, preferably consisting of polystyrene or polytetrafluoroethylene compositions.

Claims (2)

1. planar antenna system with an azimuthal omnidirectional radiation pattern, consisting of an arrangement of geometrically defined dielectric and conductive layers, characterized in that
a conductive plate or film ( 1 ) is arranged at a defined distance parallel to a system-complementary dielectric, preferably glass-shaped, mounting plane, the conductive plate or film ( 1 ) having a circular, elliptical, square, rectangular, triangular, pentagona len, hexagonal or arbitrarily designed, preferably circular, Beran tion is formed;
the conductive plate or foil ( 1 ) is provided with a segmented slit-shaped structure, the segmented slit-shaped structure consisting of the segments ( 2.1 ), ( 2.2 ),. , , , (2.n) with n = 1, 2,. , ., the same or different segment length or segment extension and / or segment width is synthesized with mutually identical or non-identical as well as parallel or non-parallel as well as linear or non-linear slot axis;
the slot structure ( 2 ) is mixed with one or more capacitive loading elements which are synthesized in that the respective conductive surfaces delimiting the slot structure ( 2 ) are selective or location-selective and preferably face-to-face, each with a conductive plate or foil of any type, preferably circular Border, mutually equal or unequal dimensions, preferably unequal dimensions, be set;
the excitation or supply of the electromagnetic resonant oscillating arrangement by means of a coaxial waveguide ( 3 ) by the outer conductor ( 3.3 ) of a coaxial waveguide ( 3 ) conductive and at a mutual angular offset of 90 +/- 20 degrees between the axes of the Slit structure ( 2 ) and the coaxial waveguide ( 3 ) is connected to the slit structure-limiting conductive plate or film ( 1 ) in such a way that the boundary of the slit structure ( 2 ) or a slit structure segment (2.n) the axial boundary plane of the outer conductor ( 3.3 ) of the coaxial waveguide;
the inner conductor ( 3.1 ) axially extended over the delimiting plane of the coaxial outer conductor ( 3.3 ) at an angle of 90 +/- 20 degrees with respect to the axis of the slot structure ( 2 ) via the slot structure ( 2 ) or via a slot structure segment (2.n ) guided and galvanically coupled with the complementary conductive slot structure limitation of the conductive plate or film ( 1 ). 2. Planar antenna system with azimuthal omnidirectional radiation pattern according to An saying 1, characterized in that the excitation by means of any waves conductor types, such as microslot, microstrip, coplanar, triplate or hollow waves head is done.