DE10007934A1 - Dual band emitting antenna for integrating in mobile radio system comprises slot structure open on one side with circular axial path corresponding to mid point of conductive plate - Google Patents

Abstract

The emitting antenna includes a conductive plate or film (1) with a circular boundary, with a slot structure that is open on one side and having circular axial path with the same starting point for the radius vector as the mid point of the conductive plate or film. The slot structure may be made up of different circle segments whose axes lead to the mid point of the plate or film with equal or unequal radial distance.

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 producibility of a linearly polarized omnidirectional beam field in the horizontal plane and a broad sector on the coordinate side radiation in the vertical plane within two separate spectral ranges preferably in the spectral ranges between 890 MHz and 960 MHz and between 1710 MHz and 1880 MHz. Furthermore, the aim of the invention is in the development of a planar emitter arrangement with omnidirectional charters ristik in the azimuthal plane, so that especially for the area of the vehicle an antenna system arises, which it attaches to when the antenna is installed the glazed interior of the vehicle enables an almost omnidirecti to ensure onal illumination of the vehicle surroundings. Persecuted further the invention the goal of the immediate mounting possibility of the planar radiator at any dielectric assembly or containment level, preferably on the glazed surfaces of a vehicle and thus the con The acceptance or dimensioning consideration of the electromagnetic relevant properties of the antenna module spatially as well as radiation technology nically upstream dielectric layers or spaces, preferably the ent speaking glazing of the passenger compartment of a passenger or commercial vehicle stuff. The object of the invention is furthermore that for the configuration of the planar radiator required dielectric structure support by using only electrically conductive and self-supporting thin layers or foils, preferably metallic plates or foils, to replace and by using dielectric base materials with one from the evacuated one Geometric shortening due to space deviating dielectric constant according to the invention by means of distributed reactive structural elements or by means of defined to achieve inductive, capacitive or complex load elements.  

Field of application of the invention

The field of application of the invention relates primarily to the mobile radio range within the mobile radio GSM network as well as the mobile radio DCS Network. The planar antenna forms an optional antenna component Dual-band character with the possibility of mounting inside the passenger compartment. The area of application also relates to general interior spaces applications by the radiator component a spatially separated compo forms from the respective terminal and on the relevant dielectric Space limitation, preferably the room glazing, inside and flat is assembled. Further advantageous application features, in particular for the Area of vehicle-based communication, preferably land, air and Sea mobile communication, result from the possibility of modular Er Generability of the omnidirectional radiation pattern in the azimuthal plane.

In addition, the radiator component according to the invention forms Basic module for short and medium-range transmission systems in the sector communication, 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.

Known flat versions with the property of vertical polarization of the elec trical field vector and the omnidirectional radiation pattern in the azimuth levels are based on the ring-slot conception or on areal arrangement dipole modifications, their directional diagram is irregular and dependent the characteristics of the structure or geometry of the respective subsurface have a significant radiation field deformation. The one on the users Radiation properties related to the area of application are those of the Idassian Linear antennas clearly inferior. Likewise, targeted hiding and / or stress properties of defined diagram sectors of the radiation undetectable diagram.

Solutions based on their electromagnetic or radiation properties asymmetrical and open waveguide techniques, especially the microstrip or microslot technology, using self-supporting conductive foil conductors or foil-like guide surfaces in connection with the Mini according to the invention Degree of aturization are not known.  

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 extreme miniaturized and flat spotlight component with the property of Generability of linearly polarized and omnidirectional radiation characteristic in the horizontal plane as well as a broad coordinate side Sector radiation in the vertical plane within two separate ones Spectral ranges or in dual band mode. Furthermore, there is the fiction moderate task in the development of a planar emitter arrangement with the Property of mountability on a defined dielectric base, the resulting complex susceptibility profile as an integral part of the emitter system is to be understood.

The object is achieved in that a conductive plate or film ( 1 ) with triangular, circular, elliptical, square, rectangular, pentagonal, hexagonal, octagonal or other defined or detectable boundary, preferably circular boundary, with a slot structure open on one side ( 2 ) with triangular, circular, elliptical, square, rectangular, pentagonal, hexagonal, octagonal or other defined or definable axis course, preferably circular axis course with a starting point of the radius vector identical to the center of the conductive plate or foil ( 1 ), ver will see.

The object is further achieved in that the preferably circular slit structure ( 2 ) made of different circular segments ( 2 .n) with n = 1, 2, 3,. , ., the associated axes of which are guided at the same or different radial distance from one another to the center of the conductive plate or foil ( 1 ), or that the slit structure ( 2 ) made of structural segments ( 2 .n) with n = 1, 2, 3 ,. , ., same or different structure length, same or different structure width and / or different axis guidance, preferably different structure length, different structure width and different axis guidance, is synthesized.

Furthermore, the solution according to the invention consists in the coupling of the slot structure ( 2 ) with a second conductive plate or film ( 3 ) or more conductive plates or films ( 3 ) triangular, circular, elliptical, square, rectangular, trapezoidal, pentagonal, hexagonal, octago naler or from the above-mentioned elements defined contour and mutually the same or different dimensions, preferably with a second conductive plate or film ( 3 ) of different dimensions, the coupling preferably by the surface parallel arrangement of the conductive plates or films ( 3 ) in each the same or different defined distance above the slot structure ( 2 ) and at a defined distance from the segment boundaries of the slot structure ( 2 ) is generated.

According to the invention, the coupling of n with n <1, conductive plates or foils ( 3 ) of the same or different borders and area dimensions, preferably the same borders and area dimensions, can also be achieved by the parallel arrangement of at least two conductive plates or foils ( 3 ) one another or along the surface normal of the conductive plate or film ( 1 ) are produced at the same or an unequal distance from one another.

The spacing between the conductive plates or foils ( 1 ) and ( 3 ) or between the conductive plates or foils ( 3 ) with one another is carried out by means of dielectric spacer elements ( 4 ) of defined material parameters and a defined height and area dimension, preferably by means of dielectric foils with or without - or double-sided adhesive coating.

Due to the homogeneous or location-selective displacement or composition of the spacing elements ( 4 ) by means of dielectric or conductive doping, the spacing elements can be designed as additional complex control elements and inserted within the resonance circuit with distributed parameters. The conductive plates or foils ( 3 ) with a defined boundary and area dimension represent reactive stress elements in the coupling mode shown, via their reactive properties, by means of the geometry of the conductive plate or foil ( 3 ), the material structure of the conductive plate or foil ( 3 ), the positioning height above the conductive plate or foil ( 1 ), the plate or foil layer, the structure and geometry of the respective spacing element between the conductive plates or foils ( 1 ) and ( 3 ) and the positioning level, the resulting vibration condition of the planar emitter system and thus the complex electromagnetic scattering behavior of the emitter system is controlled.

The electromagnetic excitation of the radiating system is carried out via a coaxial waveguide system (6) by the inner conductor (6.1) of the coaxial waveguide element at a defined distance to the short-circuit plane or to the neutral plane of the slot waveguide (2), preferably transversely across a defined Strukturseg (2) performed as well as is galvanically connected to the conductive plate or film ( 1 ) directly in the area of the slot structure edge and the outer conductor ( 6.3 ) of the coaxial waveguide ( 6 ) is galvanically coupled to the conductive plate or film ( 1 ) directly in the area of the opposite slot structure edge. The positioning of the coupling plane of the coupling point ( 5 ), which is orthogonal to the axis of the slot structure ( 2 ), depends on the resulting electromagnetic input gate behavior of the arrangement in such a way that the adaptation condition between the exciting or signal-coupling waveguide system ( 6 ) and the input impedance is achieved becomes.

Embodiment

The arrangement according to the invention is intended to be explained in more detail using an exemplary embodiment are explained.

Using the example, a dual band version for the spectral bands 890 MHz-960 MHz or 1710 MHz-1880 MHz for the case of the Glasmon days with azimuthal omnidirectional characteristics and linear polarization placed.

According to Fig. 1 is a conductive metallic plate ( 1 ) with a circular edge, preferably consisting of copper, brass or aluminum, with a slot structure ( 2 ) consisting of the structure segments ( 2.1 ), ( 2.2 ), ( 2.3 ) and ( 2.4 ), provided and geometrically dimensioned according to the information in Fig. 2.1. In the transition area between the structure segments ( 2.2 ) and ( 2.3 ), parallel to the metallic plate ( 1 ), a metallic plate ( 3 ), measured and bordered according to Fig. 2.2, is composed of the spacer element ( 4 ) dimensioned according to Fig. 2.3 a polyethylene film provided with a double-sided adhesive coating. The inner conductor ( 6.1 ) of the signal-coupling coaxial waveguide ( 6 ) is guided in the transition plane between the slot structure segments ( 2.3 ) and ( 2.4 ) transversely with respect to the slot structure axes over the slot structure and in point ( 5 ) galvanically, preferably by means of a soldered connection, with the metallic Plate ( 1 ) connected. The outer conductor ( 6.3 ) of the coaxial waveguide ( 6 ) is connected directly to the metal plate ( 1 ) in the area of the opposite slot structure edge, preferably by means of a soldered connection of the twice spread flexible outer conductor.

The assembly of the arrangement is carried out by applying the metallic plate ( 1 ) with the structural surface opposite the metallic element ( 3 ) on a single-layer or multi-layer dielectric, preferably low-dielectric and low-loss, assembly level.

Claims (2)

1. System integrable dual-band radiator for mobile radio applications, be existing from an arrangement of geometrically defined structured conductive levels, characterized in that

• - A conductive plate or film ( 1 ) with a circular, elliptical, square, rectangular, pentagonal, hexagonal, octagonal or other defined or definable border, preferably circular border, with a one-sided open slot structure ( 2 ) with a triangular, circular, elliptical , square, rectangular, pentagonal, hexagonal, octago nalem or otherwise defined or definable axis course, preferably circular axis course with a starting point of the radius vector identical to the center of the conductive plate or foil ( 1 ) is provided;
• - The preferably circular slot structure ( 2 ) from different union segments ( 2 .n) with n = 1, 2, 3,. , ., the associated axes of which are guided at the same or different radial distance from one another to the center of the conductive plate or film ( 1 ), are joined or the slot structure ( 2 ) from structure segments ( 2 .n) with n = 1, 2, 3, . , ., the same or different structure width and / or different axis guidance, preferably different structure length, different structure width and different axis guidance, is synthesized;
• - The conductive plate or film ( 1 ) in the area of the slot structure ( 2 ) with a second conductive plate or film ( 3 ) or a plurality of conductive plates or films ( 3 ) triangular, circular, elliptical, square, rectangular, trapezoidal, pentagonal, hexagonal, octagonal or from the aforementioned elements defined coupled contour and mutually identical or unequal dimensions, preferably with a second conductive plate or film ( 3 ) of unequal dimensions, is coupled;
• - The coupling between the conductive plates or foils ( 1 ) and ( 3 ) preferably as a result of the parallel arrangement of the conductive plates or foils ( 3 ) in an equal or unequal defined distance above the slot structure ( 2 ) and in a defined one Distance to the segment boundaries of the slot structure ( 2 ) is generated;
• - The spacing between the conductive plates or foils ( 1 ) and ( 3 ) or between the conductive plates or foils ( 3 ) with each other by means of dielectric spacer elements ( 4 ) defined material parameters as well as defined height and area dimension, preferably by means of dielectric foils - or double-sided adhesive coating, done;
• - The spacing elements ( 4 ) by means of dielectric or conductive doping are displaced homogeneously or locally;
• - The radiator system is preferably excited via a coaxial waveguide system ( 6 ) by the inner conductor ( 6.1 ) of the coaxial waveguide at a defined distance to the short circuit or idle level of the slot waveguide ( 2 ), preferably transversely over a defined structure segment ( 2 .n ) is routed and is directly galvanically connected to the conductive plate or film ( 1 ) in the area of the slot structure edge and the outer conductor ( 6.3 ) of the coaxial waveguide ( 6 ) is galvanically coupled to the conductive plate or film ( 1 ) directly in the area of the opposite slot structure edge becomes.

2. System-integrable dual-band radiator for mobile radio applications, according to claim 1, characterized in that the conductive plate or film ( 1 ) with n (n <1) conductive plates or films ( 3 ) with the same or different edge and area dimension, preferably the same edge and area dimension solution , is coupled by arranging at least two conductive plates or foils ( 3 ) above the slot structure ( 2 ) one above the other or along the surface normal of the conductive tarpaulin or foil ( 1 ) at the same or unequal mutual distance and by inserting the spacing elements ( 4 ) be distanced from others.