EP3192126A1

EP3192126A1 - Antenna module

Info

Publication number: EP3192126A1
Application number: EP15759483.9A
Authority: EP
Inventors: Christian Gerneth; David Silva
Original assignee: Hirschmann Car Communication GmbH
Current assignee: Hirschmann Car Communication GmbH
Priority date: 2014-09-09
Filing date: 2015-09-09
Publication date: 2017-07-19
Also published as: DE102015217243A1; US10283853B2; WO2016038102A1; US20170229768A1; CN106688140A

Abstract

The invention relates to an antenna system (1) having a housing (2), in which a printed circuit board is provided, and at least one antenna element (8), the at least one antenna element (8) being arranged inside a cover. A motherboard (11) without an antenna element (8) is preferably arranged inside the housing (2), an antenna circuit board (12) is provided at a distance from the motherboard (11), outside the housing (2), and the at least one antenna element (8) is arranged on the antenna circuit board (12).

Description

DESCRIPTION

antenna module

The invention relates to an antenna system, which has a housing in which a circuit board is arranged, and at least one antenna element, wherein the at least one antenna element is arranged within a cover, according to the features of the preamble of claim 1.

A generic antenna system is known from DE 10 2012 208 303 A1. This disclosed there antenna system (referred to as antenna module) has a housing in which a circuit board is arranged. This board is called an antenna board. On the top of the antenna board a plurality of identical or different antenna elements are arranged, which have their respective feed points on the antenna board. Shielding plates are arranged between the antenna elements so that the high-frequency signals radiated and / or received by the respective antenna elements do not interfere with one another.

On the underside of the antenna board, electronic circuits are arranged, which further process the high-frequency signals received by the antenna elements or process signals which are to be radiated via the antenna elements. Below the antenna board in turn further shielding plates are arranged to prevent high-frequency emissions from the antenna module or radiation into the antenna module. The electronic circuits are in contact with the feed points of the antenna elements, so that the feed point (also referred to as foot point) of the respective antenna element is connected directly to the associated electronic circuit. The antenna elements are arranged under an outer cover. The antenna module is performed with its outer cover through an opening in a body panel of a vehicle, so that on the one hand protrude the antenna elements below the outer cover on the surface of the body panel so that the high-frequency signals to be received for the antenna elements can be reached. In addition, it is thereby made possible that the antenna elements can radiate high-frequency signals, without this being prevented by the body panel made of an electrically conductive material. On the other hand, the housing of the antenna module is arranged below the body panel, so that it can be arranged and fixed in this space.

The electronic circuits which are arranged on the antenna board thus also operate in the high-frequency range, so that it is necessary to arrange shielding plates below the antenna board. In addition, therefore, the electronic circuits on the antenna board not only in the high frequency, but also in the intermediate frequency or low frequency range is worked.

The invention has for its object to improve a generic antenna system in terms of its structure, thereby improving the performance properties are improved.

This object is solved by the features of claim 1.

According to the invention, a main board with or without an antenna element is arranged within the housing and spaced from the main circuit board and outside the housing, the at least one antenna element is arranged. In this case, the at least one antenna element which is located outside of the housing, contacted directly, for example via directly connected cable or connector, so that advantageously a carrier (for example, an antenna board) can be omitted for the at least one antenna element. Alternatively or additionally, according to the invention, in a preferred embodiment, a mainboard without antenna elements is arranged within the housing and spaced from this mainboard and outside the housing an antenna board is provided, wherein the at least one antenna element is arranged on the antenna board.

Advantageously, for these two variants, the region in which high frequency is used can be separated from the region in which intermediate frequency and / or low frequency are used. This means that advantageously the motherboard with electronic circuits can be arranged in the housing and operates in the low frequency or intermediate frequency range and is shielded by the housing from high-frequency signals. At the same time the antenna board is present, which carries the at least one antenna element, but also several antenna elements, and thus can be optimally tuned to the operation in the high frequency range. In addition, an optimal arrangement of the antenna system in the available space is possible by this separation of the two boards. Thus, when using the antenna system in a vehicle, the antenna board can be arranged at the same level or preferably slightly above the plane in which a body panel is located in order to achieve optimum transmission and / or reception characteristics. At the same time, the housing can be arranged and secured with the motherboard arranged therein below the body panel. This advantageously takes place independently of the arrangement of the antenna board, if the associated connection point of motherboard and antenna board (ie, base of an antenna element on the antenna board and associated feed point on the motherboard) are not rigidly connected, but a flexible connection, for example by connectors, Cable or the like takes place. Due to the electrical connection between the respective feed points of the motherboard and the associated base points of the antenna board (in the case of transmitting high-frequency signals, otherwise vice versa), the distance between these two boards can be varied to make optimum use of the space to tolerances compensate and in case of application of the antenna system in a vehicle to use different thickness body panels can.

In a further development of the invention, the housing has at least one opening for the passage of Mittein for connecting the motherboard to the antenna board. On the antenna board, the at least one antenna element is arranged, which has its base on the antenna board. This is a conductive contact area on the antenna board. Likewise, the motherboard has an associated contact point which is connected to a downstream electronic circuit. In order to be able to connect these two contact points to one another, either to emit signals from the electronic circuits via the antenna elements or to supply high-frequency signals, which are received by the at least one antenna element, to the associated electronic circuit, means such as cables, plug-in connectors or the like are provided, which are performed through the opening of the housing. Here it can be thought of, for example, provide for each cable its own opening or more cables, depending on the number of antenna elements, summarize or summarize all cables to perform through an opening so that they can get into the housing and contacted there. The same applies to connectors. The at least one opening in the housing is chosen on the one hand so large that the means for connecting the motherboard to the antenna board can be carried out, but not substantially larger, in order to provide a housing made of an electrically conductive material (such as zinc die casting). to realize a good electrical shielding of the motherboard therein with its at least one electronic circuit.

In a preferred embodiment of the invention it is provided that, as a means for connection to the antenna board, the motherboard has a connector and the antenna board has a connector corresponding to the connector. This makes it possible in a simple form to design the antenna system moduiartig so that it can be easily mounted. Thus, the antenna board can be provided with antenna elements and associated connectors and forms a first module of the antenna system. Likewise, the motherboard is provided with electronic circuits and disposed in the housing, wherein connectors on the motherboard protrude through the opening in the housing. As a result, another module is formed. If the two modules are mounted at their installation location, the electrical connection between antenna board and motherboard can be made quickly and easily by simply plugging together the two corresponding connectors. For example, the antenna board, which is optionally arranged in a housing or below a cover, are arranged and fastened at their installation location. After this is done, the second module is plugged together with the already first module mounted on the connector and also arranged and fastened at its destination. The reverse procedure is of course also conceivable.

Further embodiments of the invention are specified in the subclaims. These embodiments are described below with reference to the figures and explained in more detail.

In the figures, its installation in a vehicle is shown as a preferred application of the antenna system according to the invention.

Preferably, therefore, a vehicle with an antenna system having a housing in which a circuit board is arranged, and at least one antenna element, wherein the at least one antenna element is disposed within a cover, wherein disposed within the on one side of a body panel of the vehicle housing a motherboard without antenna element is arranged and wherein spaced from the motherboard and outside of the housing arranged on the other side of the body panel of the vehicle antenna board is provided, wherein the at least one antenna element is arranged on the antenna board.

Although this application of the antenna system according to the invention is preferred in a vehicle, while the following description is specific to this application, it is not limited thereto. As shown in detail, FIG. 1 shows a three-dimensional view of an antenna system 1 which has a housing 2. In the case of using the antenna system 1, an antenna hood 3 is provided, which is visible from the outside when viewing the vehicle (for example, on the roof of the vehicle). Furthermore, the antenna system 1 has an outer cover 4. The reference numeral 5 denotes an upper side of the housing 2 and the reference numeral 6 denotes a lower side of the optional antenna hood 3. Reference numeral 7 denotes an outer contour of the outer cover 4,

FIG. 2 shows the three-dimensional representation of the antenna system 1 from a different perspective, the elements already described for FIG. 1 being recognizable.

Figure 3 shows a detail of a detailed representation of the antenna system 1, based on the illustrations shown in Figures 1 and 2. Here it can be seen in particular that above the upper side 5 of the housing 2, an antenna element projects beyond the upper side 5. Although only one antenna element 8 is shown schematically in FIG. 3, several identical or different antenna elements may also be present.

It can thus be seen from FIG. 3 that an antenna board, not shown here, with the at least one antenna element 8 is arranged within the outer cover 4. This has the advantage that the at least one antenna element 8 is protected from external influences. These external influences may be mechanical impairments during assembly or storage of the antenna system 1. However, the outer cover 4 can also, in particular when no antenna hood 3 is present, protect the at least one antenna element 8 from external influences such as rain, snow, wind and the like during operation of the vehicle. In this case, the outer cover 4 is formed over its entire surface (outwards) with an opening (downwards in the direction of the housing 2) for inserting the antenna board with the at least one antenna element 8. In this case, the outer cover 4 forms an antenna hood, in which from below the at least one antenna element 8 or Also, a plurality of antenna elements can be used, and wherein the outer cover 4, when fully formed, that is closed, closes an opening in a body panel of the vehicle to the outside when it is performed through the opening in the body panel.

In Figure 3, the alternative is shown that the outer cover 4 is formed by struts 9 with recesses 10 therebetween and has an opening for insertion of the antenna board with the at least one antenna element 8. Such a strut-like outer cover 4 provides mechanical protection for the underlying elements, in particular the at least one antenna element 8 and the antenna board. Since such a strut-like outer cover 4 does not protect against water, moisture, snow, dirt particles and the like, it is necessary that the antenna cover shown in Figure 3 is slipped over the outer cover 4 after complete installation of the antenna system. Here it is conceivable to attach both the outer cover 4 and the antenna cover 3 to the housing 2 and thus to mount the entire antenna system as a module. But it is also conceivable that the outer cover 4 is fixed to the housing 5 and this module is mounted, and then the antenna cover 3 is mounted for complete protection of the underlying elements.

The outer cover 4 with the struts 9 can be manufactured as a one-piece component, for example by a plastic injection molding process. The manner in which struts 9 and intermediate openings 10 are realized depends, in particular, on the mechanical forces acting externally on the outer cover 4.

Finally, in FIG. 4, the structure of the antenna system 1 can be seen very well in section. In this figure, the structure and the assembly of the antenna system 1 are explained using the example of a vehicle, not shown. However, it is also conceivable to install the basic structure of the antenna system 1 shown in FIG. 4 in another way, ie outside the vehicle. in the housing 2, a motherboard 11 is arranged, which does not carry a single antenna element. For this purpose, the main circuit board 8 comprises one or more electronic circuits with which it is possible to process signals which are supplied to such a circuit, so that they can be radiated high-frequency via the one antenna element 8. Alternatively or additionally, high-frequency signals that are received via the at least one antenna element 8, supplied to an associated electronic circuit, there processed or processed and supplied to subsequent connected electronic devices. Spaced to the motherboard 11 and outside the housing 2, an antenna board 12 is provided, wherein the at least one antenna element 8, preferably as shown in Figure 4, a plurality of antenna elements 8 is arranged on the antenna board 12. In principle, it is shown that at least one contact point of an electronic circuit on the motherboard 11 is fed to a connector 13 and, analogously, a contact point (preferably the base point) of an antenna element 8 is fed to a connector 14 of the antenna board 12. About the two connectors 13, 14, the electrical contact between the electronic circuit on the motherboard 11 and associated antenna element 8 takes place on the antenna board 12. However, the motherboard 11 may, although not shown, also have an antenna element or a plurality of antenna elements, for example Wifi, bluetooth or the like.

In the case of mounting the antenna system 1 on a vehicle is shown that this takes place in the region of a body panel 15. The body panel 15 of the vehicle may be, for example, a roof, a trunk lid or the like. In order that the means for connecting the motherboard 11 (more precisely, its electronic circuits) to the antenna board 12 (more precisely its antenna elements 8) can be performed through the body panel 15, it is necessary that at least this body panel 15 has an opening 16. In addition to this, the housing 2 has an opening, so that the two corresponding connectors 13, 14 can be performed for mating through the opening of the body piercing 15 and opening in the housing 2. It is also conceivable that the connector 14 on the Antenna board 12 is arranged, while out of the housing 2, a cable is led out, at the end of the connector 13 is arranged. This increases the flexibility of mounting the housing 2 below the body panel 15. It can also be thought that the connector 13 protrudes from the housing 2 and the connector 14 is disposed at the end of a cable whose other end is connected to the antenna board 12 is. It is also conceivable that emanates from both the motherboard 11 and the antenna board 12 from a cable, in each case at the end of a cable, the connectors 13, 14 are arranged. The variants with the cable have the advantage, in particular, if the housing 2 is not arranged, as shown in FIG. 4, in the direct vicinity of the antenna board 12, but remote therefrom. The embodiment shown in FIG. 4 with the two connectors plugged directly together, which are respectively arranged on the main circuit board 11 and the antenna board 12, is particularly preferred as a result of the short signal paths associated therewith.

Not shown, but present the antenna board 12 is arranged and secured by means of connecting means on the motherboard 11 and / or on the housing 2 and / or on the body panel 15. Such connection means such as screws, snap-in connections or the like are required to realize the entire antenna system 1 as a complete system in the finished state, in order to simplify the assembly of such a one-piece antenna system 1. For assembly, the entire unit (the antenna module) is mounted from the inside (inside the vehicle) to the outside (outside the vehicle) with pre-locking by clips.

In Figure 4, the outer cover 4 is not shown for simplicity, but in principle present. If the outer cover 4 is formed voilflächig and formed with an opening for inserting the Antennenpiatine 12 with the at least one antenna element 8, an additional outer hood 3 can be omitted. Nevertheless, it may be present in the full-surface design of the outer cover 4. In particular, the outer hood 3 is present when the outer cover 4 is formed by struts 9 with intervening recesses 10, as shown in Figure 3. In these cases, the Opening 16 in the body panel then be chosen to be larger and at least the outer contour 7 of the outer cover 4 correspond. This has the advantage that the outer cover 4 can be performed from below through the opening 16 in the body panel 5 to mount the housing 2, which carries the outer cover 4, below the body panel 15 can. Once this has taken place, the antenna hood 3 can be arranged and fastened from above on the body panel 15. It is also conceivable that the antenna cover 3 is already slipped over the outer cover 4 and the opening 16 in the body panel 15 has the outer contour of the antenna hood 3. Then, the antenna system 1 with outer cover 4 and slipped antenna hood 3 can be carried out through the opening 16 in the body panel 15 down and the housing 2 are fixed below the body panel 15. For this purpose, appropriate fasteners such as screws, snap-in connections, adhesive joints or the like are present, but not shown in the figures.

LIST OF REFERENCE NUMBERS

1. Antenna system

2nd case

3. Antenna hood

4. Exterior cover

5. top (of the housing 2)

6. bottom (the antenna cover 3)

7. Outer contour (the outer cover 4)

8. antenna element

9. aspiration

10. recesses

11. Motherboard

12. Antenna board

13. Connector

14. Connector

15. Body sheet

16. Opening

Claims

PATENT APPLICATIONS Antenna module

An antenna system (1), comprising a housing (2) in which a circuit board is arranged, and at least one antenna element (8), wherein the at least one antenna element (8) is arranged within a cover, characterized in that inside the Housing (2) a motherboard (11) with or without antenna element (8) is arranged and spaced from the motherboard (11) and outside of the housing (2) the at least one antenna element (8) is arranged.

2. antenna system (1) according to claim 1, characterized in that within the housing (2) the motherboard (11) without Antenneneiement (8) is arranged and spaced from the motherboard (11) and outside of the housing (2) an antenna board ( 12) is provided, wherein the at least one antenna element (8) on the antenna board (12) is arranged.

3. antenna system (1) according to claim 1 or 2, characterized in that the housing (2) has at least one opening for the passage of Mittein for connecting the motherboard (11) with the antenna board (12).

4. antenna system (1) according to claim 2 or 3, characterized in that as a means for connecting the motherboard (11) with the antenna board (12), the motherboard (11) has a connector (13) and the antenna board (12) one with the Connector (13) has corresponding connector (14).

5. Antenna system (1) according to claim 1, 2, 3 or 4, characterized in that the antenna board (12) is arranged with the at least one antenna element (8) within an outer cover (4).

6. antenna system (1) according to claim 4 or 5, characterized in that the outer cover (4) over its entire surface with an opening for inserting the antenna board (12) with the at least one antenna element (8) is formed.

7. antenna system (1) according to claim 4 or 5, characterized in that the outer cover (4) of struts (9) is formed with intermediate recesses (10) and an opening for inserting the antenna board (12) with the at least one antenna element ( 8).

8. antenna system (1) according to any one of the preceding claims, characterized in that the antenna board (12) via connecting means on the motherboard (11) and / or the housing (2) is arranged and fixed.

9. antenna system (1) according to any one of the preceding claims, characterized in that in addition to the outer cover (4) an outer hood (3) is provided.

10. vehicle having an antenna system (1) which has a housing (2) in which a circuit board is arranged, and at least one antenna element (8), wherein the at least one antenna element (8) is arranged within a cover, characterized a motherboard (11) without an antenna element (8) is arranged inside the housing (2) arranged on one side of a body panel (15) of the vehicle, and one spaced apart from the motherboard (11) and outside the housing (2) On the other side of the body panel (15) of the vehicle arranged antenna board (12) is provided, wherein the at least one antenna element (8) on the antenna board (12) is arranged.

11. Vehicle according to claim 10, characterized in that the body panel (15) has an opening (16) for carrying out means for connecting the motherboard (11) with the antenna board (12).