DE19929689A1 - Integrable dual band antenna - Google Patents

Abstract

The invention relates to an integrable dual-band antenna. Said antenna consists of an essentially rectangular overall surface that is located over a ground surface. Said overall surface consists of an L-shaped PIFA antenna and a rectangular PIFA antenna for emitting two independent frequencies. The PIFA antennae have three or four connections, which are connected by lines to two contact points.

Description

The present invention relates to an integrable dual band antenna.

There are special types of mobile devices for design reasons demands on the antenna. In particular, it should be possible be, the antenna in the housing invisible to the outside inte to be able to grin. At the same time this should be in at least two different frequency ranges usable and inexpensive be producible.

So far, most antennas of cellular devices have been staban tennen, d. H. Antennas visible from the outside. An integrated Antenna is e.g. B. from WO 95/24745. However, this is known technology very expensive and the antenna is so big that it would find no place in the current devices.

The object of the present invention is to provide an antenna Specify the type mentioned above, which no stub on points, can be integrated in communication terminal housing and has the required dual-band capability.

To solve this problem, there is the aforementioned tenne from a lying above a ground and in the we substantial rectangular total area, which for abstrah two independent frequencies from an L-shaped PIFA antenna and a rectangular PIFA antenna, the PIFA antennas have three or four connections, which are connected to two contact points via cables.

According to the invention, the problem mentioned above is solved by the Use of an antenna solved from a spatial Ver Nesting of two PIFA (Planar Inverted F-Antenna) antennas structures that exist through special management structures  are interconnected. This creates a small one spatial structure that is suitable for dual-band applications and to one of non-flat or rounded surfaces Edges can adapt existing housing. The antenna leaves especially in the vicinity, d. H. in a few millimes distance from inevitable metal surfaces, which are common form the metallic shield of the electronics, operate.

The standard technology of the Stamping and bending sheet metal parts leaves extremely high produc supply speeds and thus there are low Manufacturing costs. In addition, the Manufacturing cost of the antenna contact spring that the contact between antenna and electronics of the device, ge be saved because the antenna spring as an integrated part of the Antenna can be manufactured in a production process.

By optimizing it is possible that the antenna is close their first resonance frequency for one of the target frequency bands which (e.g. GSM) can be used and is close to the second resonance frequency works so broadband that it can be used for another frequency band is possible (e.g. PCN or PCS). In addition, it is possible to have a nominal impedance at the same time of about 50 ohms so that the antenna without an pass network or with a small number of adjustment elements can be operated. This in turn means that the Avoiding losses always occurring in adapter circuits can be.

The inventive step is the inevitable Coupling of the two sub-areas to be taken into account that the entire system is operated in several frequency bands can be. For this, a special feed to the antenna used with three or four contacts on the radiating Areas are mapped onto two contact points.  

Further expedient developments of the invention Tenne arise from the subclaims and the successor ing description of an embodiment of the inventions proper antenna.

The invention is intended to be described below with reference to a drawing illustrated embodiment are described in more detail.

Show it

Fig. 1 is a schematic representation of a first exporting approximately of the present invention,

Fig. 2 is a schematic representation of a second embodiment of the present invention, and

FIGS. 3 to 4 are perspective views of concrete from the antenna of the invention EMBODIMENTS.

Men in the illustrated in Fig. 1 and Fig. 2 Ausführungsfor the two partial structures shown S1 and S2 are connected to each other through a line L1 at defined connecting points P1 and P2. The substructure S1 is essentially L-shaped, while the substructure S2 is essentially rectangular.

In addition, two further connection points P3 and P4 are included connected together by a second line L2.

There are two lines on these lines realized two contacts K1 and K2.

The result is an antenna made up of two connected in parallel Areas with a two-pole connection contact.

The antenna consists of two different surface structures structures or patches. The L-shaped patch works at all  essentially in the GSM band and approximately rectangular Patch mainly works in the PCN band. Therefore the Ge entire system through the line connections of the two patches in two or more belts are operated.

The two antenna patches S1 and S2 are connected to one another by lines L1 and L2. The line L1 can also be formed by a short and wide metal strip and from parts of the patches (see FIG. 2).

The connection points P1 and P2 are normally in opposite overlying corners of the two patches S1 and S2. The distances de between the connection points P4 and P1 on the patch S1 and between the connection points P2 and P3 on the patch S2 essentially determine the input impedance of the antenna firmly.

K1 and K2 are among other things due to the input impedance Antenna and mainly through the layout of the circuit board fixed. A contact is made with the bulk of the circuit board connected and the other contact is connected to the input of the Transmitter or the receiver of the electronics of the mobile radio connected.

The impedance is due to the electronics of the mobile device (typically 50 ohms) are defined. Using calculations who the positions of the connection points P3 and P4 are selected so that the impedance of the electronics and the antenna conjugate are complex to each other.

FIGS. 3 to 5 show specific embodiments of the present invention as radio device, for example, in a mobile can be installed.

Claims (7)

1. Integrable dual-band antenna, characterized by a lying over a ground surface and in wesentli Chen rectangular overall area, which consists of an L-shaped PIFA antenna and a rectangular PIFA antenna for radiating two independent frequencies, the PIFA antennas three or have four connections, which are connected via lines to two contact points. 2. Antenna according to claim 1, characterized in that holes and recesses in the flat structures available. 3. Antenna according to claim 1 or 2, characterized shows that the flat structures kinks and Have bends. 4. Antenna according to one of claims 1 to 3, characterized ge indicates that the line L1 and / or L2 in the areal structure is integrated that a manuf only one part is possible. 5. Antenna according to one of claims 1 to 4, characterized ge indicates that the elements to form the contacts K1 and K2 are arranged such that a production from only a part is possible. 6. Antenna according to one of claims 1 to 5, characterized ge indicates that the elements to form the contacts and lines are arranged such that a production in a common process is possible. 7. Antenna according to one of claims 1 to 6, characterized ge indicates that points P1 to P4 differed edges of the two-dimensional structures.