DE10039772A1 - combination antenna - Google Patents

Abstract

The invention relates to a combination antenna (1) that renders a particularly compact design possible. The combination antenna (1) serves for transmitting and/or receiving signals of at least two different applications. At least one antenna element (11, 12, 13, 14) is provided for each of the applications. A shared antenna support (5) is provided on which the antenna elements (11, 12, 13, 14) are arranged. The shared antenna support (5) comprises at least two supporting surfaces (20, 21, 22), which are 90 DEG offset with regard to one another and on each of which at least one of the antenna elements (11, 12, 13, 14) is arranged. All antenna elements of each supporting surface (20, 21, 22) are assigned to exactly one of the applications.

Description

State of the art

The invention relates to a combination antenna according to the Genus of the main claim.

Combination antennas for sending and / or receiving Signals of at least two different applications already known. For example, combination antennas known in the form of rod antennas, with which both broadcasting as well as receive cellular signals and with them Mobile radio signals can be sent.

Advantages of the invention

The combination antenna according to the invention with the features the main claim has the advantage that for each of the applications has at least one antenna element it is provided that a common antenna carrier is provided on which the antenna elements are arranged are that the common antenna carrier at least two includes angled support surfaces on which each arranged at least one of the antenna elements and that all antenna elements of each carrier surface are assigned to exactly one of the applications. In this way  a combination antenna can also be used in the event create one for each application own or own Antenna elements are required. It results from the use of the common antenna carrier particularly compact design for the combination antenna.

Another advantage is that for Antenna elements on different, against each other angled support surfaces particularly simply different Directional characteristics can be realized that not interfere with each other.

By the measures listed in the subclaims advantageous developments and improvements in Combination antenna specified in the main claim possible.

Such avoidance of interference between Directional characteristics of antenna elements different carrier surfaces can be particularly easily by realizing that all antenna elements one or above all several support surfaces so on the corresponding carrier surface are arranged that their Directional characteristic a maximum in one direction perpendicular to the associated support surface.

Another advantage is that the antenna carrier has a top in the form of an n-corner, the Top forms the first support surface, and that of the Top side at least one side surface approximately rectangular is bent away, the at least one second support surface forms. By providing an approximately right angle between the top and the at least one side surface can be essentially orthogonal to each other Produce directional characteristics, the Directional characteristic of the at least one antenna element  on the top approximately orthogonal to the directional characteristic of the at least one antenna element on the side surface is so that interference between the Directional characteristics can be minimized.

Another advantage is that several Side surfaces are bent away from the top, of which at least two at least one antenna element each have, and that all the antenna elements of this Side surfaces are fed by the second feed circuit. In this way, the directional characteristics of Antenna elements of different sides as required overlay to send and / or receive Signals of one of the applications an optimal or to implement the specified directional characteristic.

Such a needs-based overlay of Directional characteristics of the antenna elements of the side surfaces A superimposed directional diagram can be particularly simple can be realized by using a selection circuit, through which the antenna elements of the side surfaces each are separately connectable to the second supply circuit, so that depending on the connected antenna elements predefined directional diagram can be set.

The training of at least one is advantageous Antenna element as a linear radiator. Let it this way linearly polarized signals from at least one Radiate and / or receive antenna element.

If the at least one linear radiator as a shortened dipole is trained, there is space for the arrangement of the Save linear radiators on the antenna support, so that the Combination antenna realized even smaller and more compact can be.  

An embodiment of the at least one linear radiator as shortened dipole can do this with very little effort be realized that the linear radiator in a substrate is embedded with a high dielectric constant, especially in a ceramic. In this way, the Linear radiator with unchanged operating wavelength operate and still shorten.

It is particularly advantageous that on one of the Carrier surfaces, in particular on the first carrier surface, two linear radiators approximately at right angles to each other are arranged, one of the two linear radiators over a delay line is fed, the length of one quarter of the operating wavelength. In this way can be circular from the two linear emitters Radiate and / or receive polarized signals.

Another advantage is that the antenna carrier on the side facing away from the antenna elements Has reference potential surface. In this way a shielded area on the the side of the antenna carrier facing away from the antenna elements realize, in the transmitting and / or receiving components, in particular the first and the second supply circuit, can be arranged. In this way, the the components mentioned save space and cabling below the antenna carrier in a housing Arrange the combination antenna without the antenna elements by emitting interference signals.

It is also advantageous that the housing one Antenna base for a rod antenna, especially for radio and / or radio applications. In this way further increase the functionality of the combination antenna,  so that an antenna device for a variety of Applications can be created.

drawing

An embodiment of the invention is shown in the drawing and explained in more detail in the following description. In the drawings Fig. 1 shows a cross section through an inventive combination antenna, Fig. 2 is a plan view of a top of an antenna beam of the antenna combination according to the invention and Fig. 3 is a plan view of a side surface of the antenna carrier of the combination antenna of the invention.

Description of the embodiment

In Fig. 1, 1 denotes a combination antenna with a housing 45 which is mounted on a base plate 55 , for example a motor vehicle body. An antenna carrier 5 is arranged within the housing 45 and has a top side as a first carrier surface 20 . A first side surface 21 and a second side surface 22 are bent away from the top side 20 as additional support surfaces approximately at right angles. The side surfaces 21 , 22 rest on the base plate 55 over a first angle piece 75 and a second angle piece 80 . The first side surface 21 and the second side surface 22 are separated from one another by the upper side 20 , the upper side 20 being rectangular or square. The two side surfaces 21 , 22 can also be rectangular or square. The side surfaces 21 , 22 , the top 20 and the base plate 55 thus enclose a cube-shaped or cuboid cavity. This cavity can be closed off by two further side surfaces, which are also bent approximately at right angles from the upper side 20 to the base plate 55 , these further side surfaces also taking an approximately right angle with respect to the first side surface 21 and the second side surface 22 . These further side surfaces are not shown in FIG. 1 because they are parallel to the cutting plane.

Referring to FIG. 1, the cavity described above is indicated by reference numeral 15. A first antenna element 11 and a second antenna element 12 are arranged on the side of the upper side 20 facing away from the cavity 15 . A third antenna element 13 is arranged on the side of the first side surface 21 facing away from the cavity 15 . A fourth antenna element 14 is arranged on the side of the second side surface 22 facing away from the cavity 15 . In the exemplary embodiment described here, the antenna elements 11 , 12 , 13 , 14 are each designed as a linear radiator in the form of a dipole. Such a linear radiator enables the transmission and / or reception of signals perpendicular to its longitudinal axis with a linear polarization in the direction of the longitudinal axis.

FIG. 2 shows a top view of the top 20 of the antenna carrier 5 . FIG. 3 shows a top view of the second side surface 21 of the antenna carrier 5 . It can be seen that the first antenna element 11 , the second antenna element 12 and the third antenna element 13 are each arranged in the longitudinal direction on the top 20 and on the first side surface 21 , respectively. The same applies to the arrangement of the fourth antenna element 14 on the second side surface 22 . The antenna elements 11 , 12 , 13 , 14 thus each show a directional characteristic perpendicular to the associated carrier surface, linear polarization in the direction of the longitudinal axis of the respective antenna element 11 , 12 , 13 , 14 being realized in each case. The directional characteristic of the first antenna element 11 and the second antenna element 12 thus has a maximum at the zenith, whereas the maximum of the directional characteristic of the third antenna element 13 and the fourth antenna element 14 lies perpendicular to it in the azimuth range. According to FIG. 2, it is seen that the first antenna element 11 and the second antenna element 12 are arranged approximately perpendicular to each other on the top surface 20. The first antenna element 11 and the second antenna element 12 are fed together by a first feed circuit 31 for transmitting and / or receiving signals of a first application. The second antenna element 12 is connected to the first feed circuit 31 via a delay line 30 , the length of the delay line 30 corresponding approximately to a quarter of the operating wavelength of the frequencies required for the first application. In this way, a right-handed circular polarization (RHC) can be implemented for the transmission and / or reception of signals of the first application with the first antenna element 11 and the second antenna element 12 . The third antenna element 13 and the fourth antenna element 14 are also fed jointly by a second feed circuit 32 for transmitting and / or receiving. The third antenna element 13 can be connected to the second supply circuit 32 via a first switch 65 . The fourth antenna element 14 can be connected to the second supply circuit 32 via a second switch 70 . With the third antenna element 13 and the fourth antenna element 14 , signals of a second application can thus be sent and / or received. The directional characteristics of the third antenna element 13 and the fourth antenna element 14 overlap when these two antenna elements 13 , 14 are connected to the second supply circuit 32 via the two switches 65 , 70 . Referring to FIG. 1, however, a selection circuit 10 may be provided optionally, is connected to the second supply circuit 32, and drives the first switch 65 and second switch 70. It can therefore be provided that only the third antenna element 13 or only the fourth antenna element 14 is connected to the second feed circuit 32 and thus a different directional characteristic is realized for the second application. Depending on the desired or predefined directional characteristic, the selection circuit 10 may or may not connect the first antenna element 13 and / or the second antenna element 14 to the second supply circuit 32 via the first switch 65 and the second switch 70 .

Referring to FIG. 3, the third antenna element 13 and thus accordingly the fourth antenna element 14 is vertical and thus perpendicular to the base plate 55, so that a linear polarization results in this direction. Depending on the application, however, a horizontal alignment of the third antenna element 13 and the fourth antenna element 14 can also be provided, so that a horizontal linear polarization results. Due to the maximum of the directional characteristic of the first antenna element 11 and the second antenna element 12 at the zenith, these two antenna elements 11 , 12 are particularly suitable for the reception of location signals which are emitted by satellites, in particular GPS location signals (Global Positioning System). GPS location signals are emitted from the satellites at a frequency of approximately 1.57542 GHz. A similar frequency is used to receive digital broadcast signals according to DAB (Digital Audio Broadcasting). With DAB, however, the transmission is terrestrial, so that the third antenna element 13 and the fourth antenna element 14 with their maximum directivity in the azimuth range and thus in the horizontal are particularly suitable for receiving the DAB signals. Are on the antenna elements 11, 12, 13, 14 opposite side of the antenna substrate 5 of the antenna carrier 5 may comprise a reference potential surface 25, which shields the cavity 15, provided that the first angle piece 75, the second angle piece 80 and the base plate 55 is formed as a reference potential surfaces , The cavity 15 thus forms a shielded area in which the first supply circuit 31 with the delay line 30 , the second supply circuit 32 , the selection circuit 10 , the first switch 65 and the second switch 70 and further transmission and / or reception circuits, which are shown in FIG are not illustrated. 1, are arranged. A first printed circuit board 35 and a second printed circuit board 40 are provided in the shielded area 15 , the first supply circuit 31 being able to be arranged on the first printed circuit board 35 . The second supply circuit 32, the selection circuit 10 , the first switch 65 and the second switch 70 can be arranged on the second circuit board 40 . The delay line 30 can be arranged directly on the first printed circuit board 35 or on the upper side 20 of the antenna carrier 5 . The first printed circuit board 35 and the second printed circuit board 40 are electrically connected to one another via a plug connector 85 . Via a connecting cable 60 , the second circuit board 40 is connected to further circuits outside the housing 45 of the combination antenna 1 and to a power supply.

The housing 45 can be water and dust resistant, so that the antenna carrier 5 with the antenna elements 11 , 12 , 13 , 14 is protected against environmental influences. The housing 45 can furthermore form an antenna base for a rod antenna 50 , which can be provided in particular for radio and / or radio applications. With the rod antenna 50 , for example, AM and / or FM radio signals can be received, and mobile radio signals can be received and / or transmitted. The mobile radio signals can be, for example, signals according to the GSM standard (Global System for Mobile Communications) or according to the UMTS standard (Universal Mobile Telecommunication System).

The above-described form of implementation of the combination antenna 1 according to the invention is merely an example. A plurality of antenna elements, for example in the form of an antenna array, can also be arranged on each of the two side surfaces 21 , 22 and fed by the second feed circuit 32 . The number of antenna elements arranged on the two side surfaces 21 , 22 can differ from one another or be the same. More than two antenna elements can also be arranged on the upper side 20 , for example in the form of an antenna array, two antenna elements each being arranged in the form described in FIG. 2 in order to achieve circular polarization and can be provided with a delay line as described.

Furthermore, it can be provided that one or more antenna elements are also provided on at least one of the side faces of the antenna carrier 5, which are not shown in FIG. 1 and are optionally additionally provided, as described for the first side face 21 and the second side face 22 .

It can further be provided that an antenna element is arranged only on one of the side surfaces 21 , 22 . In this case, signals can only be transmitted and / or received in one half of the azimuth range by the corresponding antenna element. The other half of the azimuth area is shaded by the associated side surface due to the reference potential surface 25 . When using two antenna elements 13 , 14 on the opposite side surfaces 21 , 22 , signals can be received and / or transmitted by the two antenna elements 13 , 14 almost in the entire azimuth range. If both antenna elements 13 , 14 deliver signals of the same size, however, interference occurs at two points in the azimuth range, namely where the two directional diagrams overlap. The use of more than two antenna elements, which are arranged on one or more side surfaces of the antenna carrier 5 , is also conceivable, as described. However, these antenna elements are not simply interconnected, but are specifically selected by means of the selection circuit 10 . In this way, the interferences mentioned are avoided, so that an optimal horizontal superimposed directional diagram can be set.

As described, the antenna elements 13 , 14 arranged vertically on the side surfaces 21 , 22 have a maximum in their directional characteristics on the horizon or in the azimuth range, as is desired, for example, for DAB. At right angles to this, ie at the zenith, the directional characteristics of these antenna elements 13 , 14 each have a zero.

On the other hand, the antenna elements 11 , 12 on the top 20 of the antenna carrier 5 each have a maximum in zenith as described in their directional characteristics. In the horizontal direction, however, their directional characteristics are strongly damped. As described, this is optimal for the reception of GPS location signals. Because of the reference potential area 25 , the first antenna element 11 and the second antenna element 12 are also shielded in the direction of the base plate 55 with respect to the transmission and / or reception of signals.

In this way, the directional characteristics of the antenna elements 13 , 14 arranged on the side surfaces 21 , 22 do not overlap with the directional characteristics of the antenna elements 11 , 12 arranged on the upper side 20 , so that there is no interference between the two applications and the antenna elements 13 , 14 of the side surfaces 21 , 22 can only send and / or receive signals for the second application, whereas the antenna elements 11 , 12 on the upper side 20 can only send and / or receive signals for the first application. In the exemplary embodiment described, only reception of signals is provided for all antenna elements, the first application being the reception of GPS location signals and the second application the reception of DAB radio signals.

The shape of the top 20 is not limited to a square or a rectangular shape. Rather, the upper side 20 can generally be designed as an n-corner, it being possible for up to n side surfaces to be bent away from the upper side 20 towards the base plate 55 approximately perpendicularly or at right angles. The upper side 20 could also be designed, for example, in a triangular or pentagonal shape. As described, not all side surfaces need to be present and antenna elements do not have to be arranged on all existing side surfaces. As described, at least one antenna element can be arranged on one side surface. The arrangement of antenna elements on an upper side 20, which is generally designed as an n-corner, likewise takes place as described for the upper side described as rectangular or square.

The reference potential surface 25 is formed from an electrically conductive material, such as copper.

The reference potential area 25 protects the antenna elements 11 , 12 , 13 , 14 against undesired transmission of signals from the electronic components arranged in the shielded area 15 .

One or more of the antenna elements 11 , 12 , 13 , 14 can be designed as a linear radiator as described. Normally, the length of such a linear radiator must correspond to approximately half the operating wavelength used for the signals to be received and / or transmitted. However, such a linear radiator can also be designed as a shortened dipole with a shorter length than required. The transmission and / or reception of signals with the desired operating wavelength can then be realized in that such a shortened dipole is "extended" by a network of reactive resistors, such as inductors and capacitors for transmission and / or reception at the desired operating wavelength. Such a network is also called an antenna extension. Such an antenna extension can be achieved capacitively by using a particularly high dielectric constant, the linear radiator to be extended being embedded in a corresponding substrate, in particular in a ceramic substrate. In this way, extremely shortened dipoles can be realized, so that a particularly small design of the combination antenna 1 can be made possible.

The different applications can send and / or Receive signals in different frequency ranges or in the same or almost the same frequency ranges enable because the directional diagrams for the  different applications or not at all overlap.

The combination antenna 1 described can be provided, for example, as a vehicle antenna of a motor vehicle. Such a combination antenna 1 can, however, be provided for any vehicles or airplanes or other applications, for example for mobile telephones, in particular for multimedia-capable mobile telephones which support multiple applications.

The antenna mount 5 may be formed as a flexible film, which can be brought by reinforcing elements 90 and the first circuit board 35 in the form described and stabilized, wherein the antenna carrier 5 is supported on the reinforcing members 90 and the first circuit board 35th The reinforcing elements 90 are then fastened to the first angle piece 75 and to the second angle piece 80 and also electrically represent the reference potential area 25. The first printed circuit board 35 and the second printed circuit board 40 are fastened to the base plate 55 in a manner not shown in FIG. 1 ,

Claims (16)

1. Combination antenna ( 1 ) for sending and / or receiving signals from at least two different applications, characterized in that for each of the applications at least one antenna element ( 11 , 12 , 13 , 14 ) is provided that a common antenna carrier ( 5 ) is provided on which the antenna elements ( 11 , 12 , 13 , 14 ) are arranged, that the common antenna support ( 5 ) comprises at least two mutually angled support surfaces ( 20 , 21 , 22 ), on each of which at least one of the antenna elements ( 11 , 12 , 13 , 14 ) and that all antenna elements of each carrier surface ( 20 , 21 , 22 ) are assigned to exactly one of the applications. 2. Combination antenna ( 1 ) according to claim 1, characterized in that all antenna elements of at least one support surface ( 20 , 21 , 22 ) are arranged on this support surface ( 20 , 21 , 22 ) so that their directional characteristic is a maximum in one direction approximately perpendicular for at least one support surface ( 20 , 21 , 22 ). 3. Combination antenna (1) according to claim 1 or 2, characterized in that a first feed circuit (31) is provided for a first support surface (20) on said first support surface (20) arranged at least one antenna element (11, 12) for transmitting and / or receiving, and that a second supply circuit ( 32 ) is provided for at least one second carrier surface ( 21 ; 22 ), which is arranged on the at least one second carrier surface ( 21 ; 22 ) at least one antenna element ( 13 ; 14 ) for sending and / or receiving. 4. Combination antenna ( 1 ) according to claim 1, 2 or 3, characterized in that the antenna carrier ( 5 ) has an upper side ( 20 ) in the form of an n-corner, n = 3, 4, 5,. , ., With the upper side ( 20 ) forming the first support surface, and that at least one side surface ( 21 ; 22 ) is bent away approximately at right angles from the upper side ( 20 ) and forms the at least one second support surface. 5. Combination antenna ( 1 ) according to claim 4, characterized in that a plurality of side surfaces ( 21 , 22 ) are bent away from the top ( 20 ), of which at least two each have at least one antenna element ( 13 ; 14 ), and that all antenna elements ( 13 ; 14 ) of these side surfaces ( 21 , 22 ) are fed by the second feed circuit ( 32 ). 6. Combination antenna ( 1 ) according to claim 5, characterized in that the antenna elements ( 13 , 14 ) of the side surfaces ( 21 , 22 ) form a superimposed directional diagram that a selection circuit ( 10 ) is provided through which the antenna elements ( 13 , 14th ) of the side surfaces ( 21 , 22 ) can each be separately connected to the second supply circuit ( 32 ), so that, depending on the antenna elements ( 13 , 14 ) connected, a predetermined directional diagram can be set. 7. Combination antenna ( 1 ) according to one of the preceding claims, characterized in that at least one antenna element ( 11 ; 12 ; 13 ; 14 ) is designed as a linear radiator. 8. Combination antenna ( 1 ) according to claim 7, characterized in that the at least one linear radiator ( 11 ; 12 ; 13 ; 14 ) is designed as a shortened dipole. 9. Combination antenna ( 1 ) according to claim 8, characterized in that the linear radiator ( 11 ; 12 ; 13 ; 14 ) is embedded in a substrate with a high dielectric constant, in particular in a ceramic. 10. Combination antenna ( 1 ) according to claim 7, 8 or 9, characterized in that on one of the support surfaces ( 20 , 21 , 22 ), in particular on the first support surface ( 20 ), two linear radiators ( 11 , 12 ) arranged approximately at right angles to one another , one of the two linear radiators ( 11 , 12 ) being fed via a delay line ( 30 ), the length of which corresponds to a quarter of the operating wavelength. 11. Combination antenna ( 1 ) according to one of claims 4 to 9, characterized in that the antenna elements ( 11 , 12 ) on the top ( 20 ) of the antenna carrier ( 5 ) receive location signals, in particular GPS signals (Global Positioning System). 12. Combination antenna ( 1 ) according to one of claims 4 to 10, characterized in that all antenna elements ( 13 ; 14 ) on the at least one side surface ( 21 , 22 ) receive radio signals, in particular DAB signals (digital audio broadcasting). 13. Combination antenna ( 1 ) according to one of the preceding claims, characterized in that the antenna carrier ( 5 ) on the side facing away from the antenna elements ( 11 , 12 , 13 , 14 ) has a reference potential surface ( 25 ). 14. Combination antenna ( 1 ) according to claim 13, characterized in that in a shielded area ( 15 ) under the antenna carrier ( 5 ) transmitting and / or receiving components ( 10 , 31 , 32 ), in particular the first and the second supply circuit ( 31 , 32 ) are arranged. 15. Combination antenna ( 1 ) according to one of the preceding claims, characterized in that the antenna carrier ( 5 ) is arranged in a water and dust-repellent housing ( 45 ). 16. Combination antenna ( 1 ) according to claim 15, characterized in that the housing ( 45 ) forms an antenna base for a rod antenna ( 50 ), in particular for radio and / or radio applications.