Antenna which can be operated in a number of frequency bands

Communications: radio wave antennas – Antennas – Spiral or helical type

Reexamination Certificate

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Details

C343S900000

Reexamination Certificate

active

06563476

ABSTRACT:

The present invention relates to an antenna which can be operated in a number of frequency bands, and which is preferably suitable for use in frequency bands for different Standards of mobile radio networks.
In recent years, mobile radio networks have been developed to different Standards, which operate in different frequency bands. For example, the GSM Standard mobile radio network operates in the region around 900 MHz, the PCN Standard mobile radio network operates in the region around 1800 MHz, and the PCS Standard mobile radio network operates in the region around 1900 MHz. In this case, it should be noted that the frequency bands for the PCN and PCS Standards overlap one another.
It is, accordingly, desirable to produce mobile radio telephones or similar devices which can be operated, in a number of different frequency bands, that is, which are able to work with different mobile radio network Standards. This requires the mobile radio telephones to have one or more antennas which also need to have different resonant frequencies. The resonant frequencies are, in this case, those for the respective frequency bands of the desired mobile radio networks. The reflection factor at these resonant frequencies must be as low as possible, and an adequate bandwidth also must be available to allow the mobile radio telephone to be operated in the respective frequency bands of the mobile radio networks to the various Standards.
A further major factor for the design of antennas for mobile radio networks is that the dimensions are subject to severe limitations, for design reasons.
In previous antenna structures, which include a number of antennas, two helical antennas or other shapes such as meandering structures have been used, for example, for covering two different frequency bands. However, these solution approaches require more space than, for example, a simple helical antenna and/or their performance is poorer.
An antenna structure whose essential structure is illustrated schematically in
FIG. 5
is known from EP-A-747990. This antenna structure has a first antenna element
10
and a second antenna element
20
. The first antenna element
10
has a helical shape, and the second antenna element
20
is in the form of a straight rod or conductor. The two antenna elements
10
and
20
are connected to one another at a common feedpoint
30
, and at least part of the second antenna element
20
is arranged inside the first antenna element
10
.
In the antenna structure shown in
FIG. 5
, the first and second antenna elements
10
and
20
, respectively, have different resonant frequencies to one another. Thus, the antenna structure shown in
FIG. 5
can be operated in at least two frequency bands, for example, two frequency bands of mobile radio networks.
However, the already described antenna structure has considerable disadvantages. The mechanical design of the antenna structure is complex since the antenna structure includes a first and a second antenna element
10
and
20
, respectively, with at least part of the second antenna element
20
being arranged inside the first antenna element
10
. For this reason, a large amount of effort has to be accepted to manufacture the antenna structure.
Furthermore, the two antenna elements
10
and
20
are located physically close to one another which can lead to problems, such as short-circuit. The antenna structure also has a narrow bandwidth in the region of one of the resonant frequencies, which can lead to problems during operation in certain mobile radio networks.
Finally, the antenna structure requires a matching network in order to achieve a matching to, normally, 50&OHgr;. Such a matching network causes losses in the system, however, owing to the components required for this network.
The present invention has been brought about as a result of the problems with the prior art which have been mentioned above, and its object, accordingly, is to provide an antenna which can be operated in a number of frequency bands, has a simple and low-cost structure, and can be produced easily.
SUMMARY OF THE INVENTION
According to the present invention, therefore an antenna which can be operated in a number of frequency bands has at least one part which encloses an area and at least one part which does not enclose an area. The at least two parts are composed of a single conductor part and are connected in series with one another. Furthermore, the at least two parts interact with one another in such a manner that the antenna has at least two resonant frequencies at a definable position, and with each at the same time having a wide bandwidth.
Since the two parts are composed of a single conductor part, only a single production process is required to manufacture the antenna, and an antenna with a simple and low-cost structure can be achieved.
According to embodiment of the present invention, the antenna operates with a broad bandwidth close to a first resonant frequency in such a manner that it can be used in a first intended frequency band and operates with a wide bandwidth close to a second resonant frequency in such a manner that it can be used in two further intended frequency bands, and preferably has a characteristic impedance of 50&OHgr; in the intended frequency bands.
The resonant frequencies of the antenna likewise can be defined, while each at the same time having a wide bandwidth, in such a manner that the antenna can be used in the frequency bands of a number of mobile radio, for example, the GSM, PCN and PCS Standards.
Additional features and advantages of the present invention are described in, and will be apparent from, the following Detailed Description of the Preferred Embodiments and the Drawings.


REFERENCES:
patent: 5717409 (1998-02-01), Garner et al.
patent: 5986616 (1999-11-01), Edvardsson
patent: 6064346 (2000-05-01), Blom
patent: 6069592 (2000-05-01), Wass
patent: 6094179 (2000-07-01), Davidson
patent: 6130651 (2000-10-01), Yanagisawa et al.
patent: 6229489 (2001-05-01), Holshouser et al.
patent: 0 522 806 (1993-01-01), None
patent: 0 635 898 (1995-01-01), None
patent: 0 814 536 (1997-12-01), None
patent: 0 814 536 (1997-12-01), None
patent: WO 95/08853 (1995-03-01), None

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