DE19953648A1 - Modular dual band planar coupler for external mobile phone antennas uses slot line resonators has no dielectric parts - Google Patents

Abstract

The modular dual band planar coupler uses capacitive coupling to planar waveguide resonators in asymmetrical slot line (4) in a conducting plate (1) fed from a coaxial line (2).

Description

Aim of the invention

The aim of the invention is to configure an extremely miniaturized th and primarily extensive coupler, preferably in the Spectral ranges between 890 MHz and 960 MHz and between 1710 MHz and 1880 MHz, on the basis of which the non-contact, preferably capacitance tive, coupling or decoupling of high-frequency electromagnetic radiation fields of planar or planar emitter systems, preferably system-integrated ones or system-implemented emitter systems, preferably within mobile ones or portable handheld systems or handheld components integrated Spotlight systems.

Furthermore, the object of the present invention is to develop of a planar coupler without the use of dielectric structures or functions on element carrier and without the use of concentrated functional elements, a quick assembly or disassembly with high security and short and allows multiple change cycles.

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 coupler forms an optional adapter system with dual band character as well as the quick and uncomplicated installation option Handheld systems in mobile radio technology without an external antenna connector, whose emitter systems are preferably designed to be system-integrated. Here the planar coupler forms the basis for the possibility of coupling ex tern antennas, preferably external vehicle interior and exterior antennas.  

Characteristic of the known prior art

Known coupler solutions for the field of mobile communication are based on inductive system solutions by a defined winding area on a ge suitable carrier, preferably a dielectric conductor foil, is generated, de Ren inductance or impedance parametric component of a resonance forms a circle, the necessary to meet the resonance condition complementary dummy elements or dummy components over concentrated Functional elements or functional elements with concentrated parameters syn be thetized.

Solutions whose electromagnetic coupling properties are based on un symmetrical and open waveguide techniques, especially the microslot technology, using self-supporting conductive foil conductors or foil-like Licher guide surfaces with the miniaturization and handha invention degree of exercise are not known.

The electrical and usage properties of known coupler 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 turized and flat coupler for the contact-free, preferably ka capacitive, coupling or decoupling of high-frequency electromagnetic radiation fields of planar or planar emitter systems, preferably system-integrated ter or system-implemented spotlight systems with the possibility of fast and inexpensive mounting option on handheld systems, preferably Handheld systems of mobile radio technology.

The object of the invention is achieved by providing a conductive plate or film ( 1 ) with a slit-shaped structure ( 4 ), the structure ( 4 ) consisting of one or more, preferably several, slit-shaped segments (4.n) with n = 1, 2, 3,. , , Identical or non-identical, preferably identical, slot width is formed with a linear or otherwise executed axis guide, preferably a linear axis guide, which are each length-different or length-different, preferably length-different, and at a defined angle to each other, which is arbitrary or right-angled, preferably right-angled , dimensioned, be arranged. Here, the number, geometry and arrangement of the slit-shaped segments te is chosen such that the geometric and arrangement-related combination of the mutually coupled segments enables the vibration condition to be fulfilled, the oscillation condition of the arrangement being determined both by the number, geometry and arrangement of the slit-shaped segments and by the area and edge or contour of the conductive plate or film ( 1 ) be determined. The electromagnetic signal coupling takes place via a coaxial waveguide ( 2 ), whose inner conductor ( 2.1 ) and outer conductor ( 2.2 ) are each galvanically connected to the conductive plate or film ( 1 ) on the opposite edges of the slot conductor ( 4 ), the axis of the Inner conductor ( 2.1 ) guided orthogonally to the axis of the slot conductor ( 4 ) and their position with respect to the axis of the slot conductor is chosen in accordance with impedance.

The defined bordered and structured conductive plate or film ( 1 ) can be provided with additional controls and mounting elements that allow a system-adapted or system-tailored assembly, the Mon days of the structured conductive level ( 1 ) preferably parallel to the coupling object, ie parallel to the surface Object spotlight is done. On this basis, the electromagnetically relevant environment of the coupler, i.e. the respective electrical or magnetic susceptibility profile of the object radiator as well as the material layers acting electromagnetically between the object radiator and the coupler or the resulting capacitance coating between the planar coupler and the object radiator for the dimensioning of the oscillation condition of the coupler, so that the Coupler is dimensioned as an asymmetrical or asymmetrically loaded and open waveguide system, the asymmetrical load leads to an asymmetrical radiation diagram with increased directivity in the direction of the object radiator.

Embodiment

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

This example shows a dual-band version for the spectral bands of the GSM or DCS range 890 MHz-960 MHz or 1710 MHz-1880 MHz, based on the application of the Nokia 3210 mobile phone. According to Fig. 1, a conductive metallic plate ( 1 ), preferably consisting of copper, brass or aluminum, with a slot-shaped structure ( 4 ) consisting of the structure segments ( 4.1 ) to ( 4.12 ) identical slot width, provided. The dimensional relationships to be taken into account are shown in Fig. 2.1. The signals are coupled via the coaxial waveguide ( 2 ), its inner conductor ( 2.1 ) and outer conductor ( 2.2 ) on the basis of the dimensional relationships shown in Fig. 2.1, each in a plane perpendicular to the slot axis of the slot conductor segment ( 4.11 ) with the Conductive plate or film ( 1 ), vorzugswei se by means of a solder joint, are connected. The coupling area is provided in accordance with FIG. 1 with a stepped dielectric socket ( 3 ), the shape, size and design of the dielectric socket ( 3 ) shown in FIG. 2.2, preferably consisting of polyvinyl chloride, being variable as a function of expediency and design or are changeable. The connection to the Nokia 3210 mobile phone is made via the associated plate or film and mutually angled with respect to the axis of symmetry of the arrangement, so that a coupling plane spanned parallel to the object antenna is generated over the aperture of the system-integrated object antenna.

Descriptors

Coupler, planar coupler, adapter, dual band, radiation diagram, directivity, Mobile communications, handheld technology, waveguides, slotted waveguides, spectrum.

Claims (2)

1. Modular dual-band planar coupler, consisting of an arrangement of geometrically defined and conductive levels, characterized in that

• - A conductive plate or film ( 1 ) with a defined area and defined th edge is formed;
• - The conductive plate or film ( 1 ) defined area and edge is provided with a slit-shaped structure ( 4 );
• - The structure ( 4 ) of one or more, preferably several, slit-shaped segments (4.n) with n = 1, 2, 3,. , , identical or non-identical, in front of preferably identical, slot width is formed with a straight or curved axis guide, preferably a straight axis guide;
• - The slot-shaped waveguide segments (4.n) are each made different in length or different in length, preferably different in length;
• - The slot-shaped waveguide segments (4.n) in each case at a defined angle to one another, which is dimensioned arbitrarily or at right angles, preferably at right angles;
• - The inner conductor ( 2.1 ) and the outer conductor ( 2.2 ) of a coaxial waveguide ( 2 ) are each galvanically connected at the opposite edges of the slot conductor ( 4 ) to the conductive plate or film ( 1 ), the axis of the inner conductor ( 2.1 ) being orthogonal to the surface normal of the conductive plate or film ( 1 ) and to the axis of the slot conductor ( 4 );
• - The defined planar dimensioned and defined bordered and by means of defined arranged and defined dimensioned slot conductor segments ( 4 ) structured conductive tarpaulin or film ( 1 ) is arranged galvanically contact-free and parallel to the surface of the system-integrated object radiator and above the radiator aperture of the object radiator.

2. Modular dual-band planar coupler according to claim 1, characterized in that the electromagnetic scattering properties of the coupling space between the conductive plane ( 1 ) and the object radiator and the electromagnetic scattering properties of the object radiator are represented by their equivalent impedance profiles or admittance profiles and in this form as function variables of resultant vibration condition.