1. Field of the Invention
The present invention relates to an antenna, especially an antenna for mobile telephony use with a motor vehicle, and more particularly an antenna including multiple conductive areas, such as conductive panels, arranged in a coplanar fashion with interspersed slots.
2. Description of the Related Technology
DE 199 22 699 A1 discloses an antenna, preferably a motor vehicle antenna for mobile telephony. In this antenna there are vertical radiators for use as radiating structures which are located on a ground surface and are interconnected via an impedance transformation line. As a result of tuning, especially by the adjustment of the length of the vertical radiators, and the impedance transformation line for the intended frequency range, for example in the mobile telephony range from 0.8 to 2.2 GHz, the resulting known antenna has accordingly determined length and height dimensions. Since this prior known antenna often is integrated underneath a rear window of a motor vehicle, and due to its determined geometrical dimensions, it requires a large installation space which is either not available or it reduces the amount of interior volume of the motor vehicle in an undesirable manner. Another disadvantage is that a coaxial cable for signal transmission is soldered directly to the ground surface, the inner lead of the coaxial cable being connected to the impedance transformation line. This yields a complex structure that has the special disadvantage that before installation of the antenna there is a cable tail which poses problems in handling the prefabricated antennas before their installation.
An object of the invention is to make available an antenna, especially an antenna for use with a motor vehicle for mobile telephony that avoids the above mentioned disadvantages.
For the antenna according to the present invention, the radiating structures are provided by a conductive area that is open on both sides and which is slit lengthwise such that the arrangement can be excited to radiate in several frequency ranges. These arrangements make it possible for the antenna of the present invention to have a compact structure with the same capabilities as the prior known antennae, but with the antenna of the present invention having a much shorter (by roughly one half) and a flatter physical size. Thus the installation spaces under rear windows or on roof flanges of motor vehicles can be much better and more efficiently used. Depending on the extent of the frequency ranges or depending on the frequencies which are to be sent or received the antenna lengths for antennae according to the present invention correspond roughly to one third of the wavelength of the lowest frequency.
As an aspect of the invention the conductive area that is slit lengthwise can include a double kink, e.g., a pair of obtuse angles along an edge of a conductive area, in a partial area. The doubly kinked slot which has, for example, a funnel shape facilitates a very broad band and thus makes the radiator more accommodating relative to installation tolerances.
As an aspect of the present invention a lengthwise-slit between conductive areas forms a slot that tapers to a point. Thus a vertical radiator capability is effectively provided from a flat structure for use over the required frequency range or ranges.
As another aspect of the present invention another or second slot that branches especially roughly from the middle of the first slot proceeds from the first slot which tapers to a point and separates the lengthwise-slit conductive areas from one another. Depending on the physical arrangements, especially the width and length of the bent second slot, the impedance of the antenna can be matched over wide ranges or also over additional ranges. For optimum impedance matching and also for optimum surface utilization, a leg of the bent second slot, which leg proceeds from the slot that tapers to a point, is shorter than the second slot area adjoining it.
As another aspect of the present invention the antenna conductive areas are shielded in the direction in which emission is not to take place by a housing body, especially a sheet of metal. This metal housing body prevents emission into the interior of the motor vehicle. Depending on the dimensions of the housing body which extends at least over the area of a board, but can also be larger or smaller, at least a significant reduction of emission into the interior of the motor vehicle is accomplished.
As another aspect of the present invention the lengthwise-slit conductive areas are located on a board as copper surfaces on the board. This structure on the one hand makes available an economical material arrangement for producing the effective vertical radiators of the antenna. On the other hand, it is possible by known methods (for example, etching processes) to provide the copper areas on the board, while at least one slot, or alternatively two slots, can be produced by etching away corresponding copper areas. Based on this process it is possible to arrange the shape of the areas as well as the shape of the slots as wide, flat areas.
As another aspect of the present invention the branching slot is made such that a direct current short circuit does not occur at the base of the antenna. For this reason, before its installation the antenna can be electrically checked for serviceability and for faults. By preventing a direct current short circuit, only one simple test resistor need be connected in parallel at the feed point. A coupling capacitor which is necessary for conventional slotted radiators can be omitted. This further simplifies the structure and reduces costs.
As another aspect of the present invention, there is a contact partner, e.g., a plug, mounted at the base of the antenna on the board. In this way, during production of the antenna a contact partner already is provided on the board without the necessity of a cable being provided at that time. For testing the antenna, such a cable can be connected temporarily via the contact partner. After the test the cable can be removed again so that transport and storage of the antenna is simplified up to its final installation. Only with or after installation of the antenna in a vehicle does the corresponding cabling need to take place.
An embodiment for the antenna, according to the present invention, and its installation are described and explained below using the shown figures. The present invention, however, is not limited to the indicated embodiments.
The antenna 1 has a metal housing body which consist of a multiply bent metal sheet 2. Such a bent metal sheet 2 is on the one hand desirable in reducing material costs, and on the other it easily and quickly can be produced. This use of multiply bent metal sheet 2 benefits production of the antenna 1. The corresponding bending of the metal sheet 2 yields two parallel legs spaced apart, with a board 3 located between them. In a conventional manner the board 3 has a base surface which consists of nonconductive material. On this base surface of the board 3 there are several conductive areas 4 to 6 which are produced, for example, by covering the later with conductive areas 4 to 6 and etching away intermediate areas. The areas which are etched away form at least one first slot 7 which is formed on one side by the shape of an edge of area 4 and on another side by the shapes of edges of areas 5 and 6. Furthermore, proceeding from this first slot 7 for matching the impedance of the antenna 1 there is a second slot 8 which in turn separates the two areas 5 and 6 from one another. If the second slot 8 is omitted, the two areas 5 and 6 form a continuous area, the second slot 8 extends roughly from the middle or median length of the first slot 7 at a right angle a short distance, then a longer length of the second slot 8 extends roughly parallel to the first slot 7.
In the embodiment of the antenna 1 which is shown in
The antenna 1, especially a motor vehicle antenna for mobile telephony, is thus in summary made as a radiating open cavity resonator with a specially executed broadband slot in order to achieve a structure which is as compact, especially flat and short, as possible.
Number | Date | Country | Kind |
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101 61 722 | Dec 2001 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP02/12692 | 11/13/2002 | WO | 00 | 12/29/2003 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO03/052873 | 6/26/2003 | WO | A |
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Number | Date | Country |
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42 20 654 | Jan 1993 | DE |
199 22 699 | Dec 2000 | DE |
199 28 213 | May 2001 | DE |
0 301 216 | Feb 1989 | EP |
0 323 664 | Jul 1989 | EP |
Number | Date | Country | |
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20040104858 A1 | Jun 2004 | US |