WO2021001533A1

WO2021001533A1 - Antenna unit comprising multiple antennas

Info

Publication number: WO2021001533A1
Application number: PCT/EP2020/068822
Authority: WO
Inventors: Aps Aeritec; Christian Petersen
Original assignee: Aps Aeritec
Priority date: 2019-07-03
Filing date: 2020-07-03
Publication date: 2021-01-07
Also published as: DE102019117956A1

Abstract

The invention relates to an antenna unit comprising a housing and at least three antennas which are received in the housing or are arranged on the housing, wherein a first of the at least three antennas is an antenna for digital radio, a second of the at least three antennas is an antenna for digital television, and a third of the at least three antennas is an antenna for mobile Internet and telephony. At least two of the at least three antennas are arranged at a distance from one another along a vertical axis when the antenna unit is installed.

Description

ANTENNA UNIT COMPRISING MULTIPLE ANTENNAS

The invention relates to an antenna unit comprising a plurality of antennas which are arranged in or on a housing of the antenna unit.

Such antenna units are used in particular to receive digital radio and / or digital television and can be arranged, for example, on a caravan or mobile home, on ships or boats or even on houses. The antennas are integrated as one unit in a housing and can easily be retrofitted. When integrating several antennas into one antenna unit in a small space, the antennas can interfere with each other. In particular, this can have a negative impact on the reception quality.

The invention is based on the object of providing an antenna unit which, in a compact design, allows the integration of several antennas and at the same time minimizes the occurrence of interference.

The invention achieves the object by means of an antenna unit according to claim 1. Advantageous configurations are the subject of the dependent claims, the description and the figures.

The antenna unit according to the invention comprises a housing and at least three antennas received in the housing and / or arranged on the housing, a first of the at least three antennas being an antenna for digital radio, a second of the at least three antennas being an antenna for digital television and a third of the at least three Antennas is an antenna for mobile Internet and telephony, with at least two of the at least three antennas related to one installed state of the antenna unit along a vertical axis are spaced apart from each other.

According to the invention, at least three antennas are integrated into the antenna unit, which are used for different purposes. The antennas can be transmit and receive antennas or just receive antennas. For example, the antenna for digital radio can be a D AB antenna and can therefore transmit data digitally according to the “Digital Audio Broadcasting” standard. In particular, the antenna for digital radio can receive in the frequency ranges from 30 MHz to 3 GHz. The antenna for digital television is particularly suitable for receiving digital television programs. This antenna can be a DVB-T antenna, for example, and can therefore work according to the “Digital Video Broadcasting - Terrestrial” transmission standard. For example, this antenna can work in the frequency range from 175 MHz to 230 MHz or also in the frequency range from 470 MHz to 790 MHz. The third antenna is designed for reception and in particular also for transmission and is used to establish an Internet connection or a telephone connection. The antenna for mobile internet and telephony can in particular be a 2G, 3G, 4G or 5G antenna and work in the frequency ranges of these standards.

The antenna unit according to the invention integrates these three different antenna types in a compact design in a common housing. Thus, the antenna unit according to the invention allows not only the reception of digital radio and digital television, but also the connection to the Internet and Internet telephony. The antenna unit is particularly easy to retrofit. The at least three antennas can all or at least some of the at least three antennas be completely accommodated in the housing. In particular, the antenna for digital television and the antenna for mobile Internet and telephony can be completely accommodated in the housing. This allows a particularly compact design as well as protection of these antennas against weather-related influences.

According to the invention, at least two of the at least three antennas integrated in the antenna unit are spaced apart from one another along a vertical axis. The vertical axis relates to an installed state of the antenna unit, that is, to an installed state of the antenna unit intended for intended use. The vertical axis can form an axis of symmetry of the antenna unit and can in particular extend centrally through the antenna unit. Along this vertical axis, two or even three or in particular all of the at least three antennas are spaced apart from one another, that is to say arranged one after the other. For example, the second antenna can be arranged below the third antenna and the third antenna below the first antenna. As the inventors have established, such a spacing according to the invention between the antennas allows an essentially interference-free operation of the same. The spaced apart antennas interfere less with each other. The antenna unit thus enables the integration of the at least three different antenna types without impairing their functionality. The at least two of the at least three antennas are therefore in particular spaced apart from one another along the vertical axis in such a way that they do not influence one another or only influence one another insignificantly during operation.

According to one embodiment, the second antenna is arranged along the vertical axis below the first antenna. From bottom to top along the vertical axis, the antenna for digital television can be arranged first and then the antenna for digital radio. The offset arrangement of the antenna for digital television relative to the antenna for digital radio is particularly advantageous, since these antennas may operate in overlapping frequency ranges. Furthermore, the second antenna, that is to say the antenna for digital television, can also be offset along the vertical axis from the antenna for mobile internet and telephone. This also reduces the interference between the second and third antenna. In particular, the first antenna, the second antenna and the third antenna can each be spaced apart relative to one another along the vertical axis. According to one embodiment, the at least three antennas are spaced from one another along the vertical axis in such a way that the antenna for mobile Internet and telephony follows the antenna for digital television from bottom to top along the vertical axis and the antenna for digital radio in turn follows the antenna for mobile Internet and telephony follows. According to this embodiment, the at least three antennas are consequently arranged one after the other along a vertical direction pointing from bottom to top. Such an arrangement allows particularly trouble-free operation.

According to one embodiment, there is a distance along the vertical axis of at least 1 cm between the antennas of the at least three antennas that follow one another along the vertical axis and are spaced apart from one another. In particular, the distance can be 1 cm to 3 cm. As the inventors have established, a particularly reliable functioning of the individual antennas can be achieved when the antennas are spaced apart from one another at a distance of at least 1 cm. This applies in particular to the previously explained, successive arrangement of the three antennas.

According to one embodiment, the first antenna, that is to say the antenna for digital radio, is a rod antenna which is laterally offset and protrudes beyond the housing in parallel to the vertical axis. The rod antenna or a connection element of the rod antenna can protrude through a housing wall. Due to the lateral offset and the vertical course of the rod antenna, particularly reliable reception of digital radio waves is guaranteed. According to one embodiment, the second antenna, that is to say the antenna for digital television, has a horizontal antenna section and a vertical antenna section, the horizontal antenna section extending at least partially along a circumference around the vertical axis. The horizontal antenna section can in particular extend semicircularly around the vertical axis. For this purpose, the horizontal antenna section can be arranged at a lateral distance from the vertical axis of the fastening section. In particular, the horizontal antenna section can thus form a ring dipole. Due to the explained shape of the horizontal antenna section, the antenna for digital television can receive all around at a 360 ° angle. The horizontal antenna section receives the digital television signals horizontally while the vertical antenna section allows the vertical reception of digital television signals. The signal can thus be received particularly reliably. According to an embodiment in this regard, the vertical antenna section is formed by a conductor loop. The conductor loop can for example be an electrical cable, in particular the inner conductor of a coaxial cable. This is particularly simple in terms of construction.

According to one embodiment, the first antenna, that is to say the antenna for digital radio, is a DAB antenna. The antenna for digital radio can thus, as already mentioned, be designed according to the “digital audio broadcasting” transmission standard for terrestrial reception of digital radio. According to one embodiment, the first antenna, that is to say the antenna for digital radio, operates in the frequency range from 30 MHz to 3 GHz, in particular in the frequency range from 174 MHz to 230 MHz. The first antenna can thus operate in the frequency range provided for the DAB standard.

According to one embodiment, the second antenna, i.e. the antenna for digital television, is a DVB-T antenna, in particular a DVB-T2 antenna, and / or an ATSC antenna and / or an ISDB-T antenna and / or a DTMB antenna. The antenna for digital television can thus receive digital television signals according to these well-known standards. In particular, the second antenna, that is to say the antenna for digital television, can operate in the frequency range from 175 MHz to 230 MHz and / or in the frequency range from 470 MHz to 790 MHz. These frequency ranges denote the UHF or. VHF channels that are intended for transmission in accordance with DVB-T.

According to one embodiment, the third antenna, that is to say the antenna for mobile Internet and telephony, is a 2G antenna, a 3G antenna, a 4G antenna and / or a 5G antenna. The antenna for mobile internet and telephony can thus be designed to work according to these generally known standards for mobile internet and telephony, that is to say in particular to receive and also to send signals in the frequency ranges provided for the respective standards. According to one embodiment, the third antenna, ie the antenna for mobile Internet and telephony, works in the frequency range from 698 MHz to 960 MHz and / or in the frequency range from 1710 MHz to 2690 MHz and / or in the frequency range from 3.0 GHz to 3.9 GHz and / or in the frequency range from 26 GHz to 39 GHz. The antenna can preferably work at 2.4 GHz for mobile Internet and telephony. The antenna for mobile internet and telephony works in particular in the frequency ranges intended for 5G.

According to one embodiment, the first antenna works in the frequency range from 174 MHz to 230 MHz and the second antenna and the third antenna in one of the frequency ranges already mentioned. This means that there is no overlap between the frequency ranges of the first antenna and the second antenna and the frequency ranges of the third antenna. A particularly reliable 5G connection can thus be achieved. There is less overlap between the frequency ranges of the first antenna and the second antenna problematic. However, it can be provided that the first antenna and the second antenna also operate in different frequency ranges, for example the first antenna in the frequency range from 174 MHz to 230 MHz and the second antenna in the range from 470 MHz to 790 MHz. The third antenna can then operate in particular in the mentioned frequency ranges above 1700 MHz. In this way, the more reliable reception of the signals is achieved by the individual antennas.

According to one embodiment, the housing has a support element and a cover connected to the support element, the support element receiving a metal base plate extending perpendicular to the vertical axis. _· The metal base plate can provide particular extend perpendicular to the vertical axis along the substantially horizontal. Seen along the vertical direction from bottom to top, the at least three antennas can in particular be arranged above the metal base plate. Such a construction of the housing is particularly compact. The metal base plate can be used to fasten one or more of the at least three antennas or their connections. In particular, the metal base plate can provide a downward shield to a certain extent and can improve the reception of the individual antennas or reduce the interference. In particular, the metal base plate can ensure that the DAB signal does not transmit any interference to the DVB antenna or the antenna for mobile Internet and telephony. The cover can in particular completely cover the metal base plate through the connection to the support element and protect the base plate and antennas arranged within the housing and any other components provided against environmental influences.

According to one embodiment, an adapter piece for connecting the support element to a mounting foot is connected to the support element. The support element can basically serve to carry the entire antenna unit. The antenna unit can be built in via a mounting foot that can be connected to the support element, that is to say it can be mounted as intended on a mobile home, for example. For this purpose, the mounting foot or the support element can interact with the adapter piece. In particular, according to one embodiment, the adapter piece can be designed for connection to mounting feet of different sizes. This allows the connection of the support element and thus the entire antenna unit with a wide variety of mounting feet and thus the attachment of the antenna unit in the desired manner on the different objects, in particular caravans, mobile homes, ships or boats as well as on houses. The adapter piece can be designed for connection to mounting feet of different sizes by being designed to receive different insert elements for connection to mounting feet of different sizes.

According to one embodiment, the support element has a support section protruding upwards along the vertical axis and penetrating the base plate, the antenna for digital television being arranged on the support section. The vertical axis can in particular, as already mentioned at the beginning, form a central axis of symmetry of the antenna unit. The support portion can penetrate the metal base plate from bottom to top along the vertical direction. If a horizontal antenna section is provided for the antenna for digital television, this can in particular extend at least partially around the support section. Such an arrangement contributes to a compact structure of the antenna unit.

According to one embodiment, the third antenna, that is to say the antenna for mobile internet and telephony, is arranged laterally offset to the vertical axis on an inner wall of the cover. For this purpose, the cover can have a fastening means on its inner wall, for example a recess on the Inner wall of the cover can be designed to accommodate the antenna. The lateral offset of the antenna allows, on the one hand, a compact design of the antenna unit and, on the other hand, a reduction in the interference between the antennas.

Thus, according to one embodiment, in particular all of the at least three antennas can be arranged laterally offset from the vertical axis, in particular in different directions. In particular, the antenna for digital television and the antenna for digital radio can be arranged laterally offset to the vertical axis in different directions, that is to say can be arranged at different circumferential positions around the vertical axis. Such arrangements can further reduce the interference between the antennas.

According to one embodiment, an antenna amplifier connected to the first antenna and to the second antenna is arranged in the housing for amplifying the digital radio signal and the digital television signal. The antenna for digital radio and the antenna for digital television can thus be connected to the antenna amplifier. The antenna amplifier can in particular be arranged on the base plate. A connecting line can continue from the antenna amplifier, in particular through the support element and a possibly provided mounting foot, from the antenna unit. Such an antenna amplifier can advantageously amplify the reception of the signals for the digital radio and the digital television. In particular, the antenna amplifier can have a frequency filter for filtering out interference frequencies. The reception of the signals can thus be further improved.

An embodiment of the invention is explained below with reference to figures. They show schematically: 1 shows an antenna unit according to the invention in a side view,

FIG. 2 shows the antenna unit from FIG. 1 in a sectional view,

FIG. 3 shows the antenna for digital television built into the antenna unit from FIGS. 1 and 2,

FIG. 4 shows the cover of the housing of the antenna unit from FIGS. 1 and 2 together with the antenna for mobile Internet and telephony arranged therein, and FIG

FIG. 5 shows the antenna for mobile Internet and telephony from FIG. 4.

Unless stated otherwise, the same reference symbols denote the same items below.

In Figure 1, the antenna unit 10 according to the invention can be seen in one embodiment. The antenna unit 10 comprises a housing 12 with a support element 14 and a cover 16 connected to the support element 14. The support element 14 is connected to a mounting foot 20 via an adapter piece 18 that can be seen in particular in FIG. The antenna unit 10 has three antennas integrated into the housing, one of which can be seen in the illustration in FIG. This first antenna 22 is designed as a rod antenna and is used to receive digital radio signals. The first antenna 22 extends parallel to a vertical axis A of the antenna unit 10 and is arranged offset from this axis A. In particular, it is a D AB antenna that can receive in the frequency range from 174 MHz to 230 MHz. As can be seen in FIG. 1, the outside of the housing 12 is essentially rotationally symmetrical (ie except for an extension arranged below the rod antenna 22) with the vertical axis A as the axis of symmetry. The support element 14 is designed in the shape of a plate and carries the cover 16 as well as the components which are still to be explained and are received under the cover 16 within the housing 12. The cover 16 has a hemispherical shape. Such a housing structure enables the components of the antenna unit to be accommodated in a space-saving manner and at the same time represents a stable external shape for protection against environmental influences. The mounting foot 20 protrudes with an upper end into the adapter piece 18, which is received in the support element 14, as can be seen in particular in FIG. An insert element 17 is arranged between the adapter piece 18 and the mounting foot 20. The adapter piece 18 is designed to accommodate different insert elements, which in turn can be designed to be connected to differently dimensioned mounting feet. The inside diameter of the insert element 17 is matched to the outside diameter of the upper end of the mounting foot 20 and, in particular, receives it in a non-positive manner.

The support element 14 receives a metal base plate 24 extending perpendicular to the vertical axis A along the horizontal. The base plate 24 is covered by the cover 16, like the other components arranged within the housing 12, and is thus protected against environmental influences. An antenna amplifier 26, which is connected to the first antenna 22, is arranged on the essentially flat metal base plate 24. The antenna amplifier 26 is also connected to a second antenna 28, which is provided for the reception of digital television signals, as will be explained later. As can be seen in FIG. 2, the cover 16 is connected to the adapter piece 18 and thus to the support element 14 via a screw 19. The screw 19 extends along the vertical axis A from above through the cover 16 through into an upwardly projecting extension of the adapter piece 18. The extension 15 of the adapter piece 18 has an internal thread which interacts with the external thread of the screw 19. By screwing the screw 19 into the extension 15, the cover 16 and adapter piece 18 are moved towards each other, the adapter piece 18 pressing with a lower peripheral edge against the support element 14 and thus the cover 16 and support element 14 braced against each other.

The second antenna 28, that is to say the antenna for digital television, is in particular a DVB-T antenna which operates, ie receives, in particular in the frequency range from 175 MHz to 230 MHz or in the frequency range from 470 MHz to 790 MHz. The second antenna 28 has a horizontal antenna section 28a and a vertical antenna section 28b, as can be seen in particular in FIG. The horizontal antenna section 28a extends semicircularly along a circumference around the vertical axis A, as can be seen in FIG. The horizontal antenna section 28a forms a bracket with an interruption which is closed by the vertical antenna section 28b designed as a cable. The vertical antenna section 28b thus forms a conductor loop. The second antenna 28 is connected to the antenna amplifier 26 via a connection cable 29 and a connection element 30 arranged at the end of the connection cable 29. As can be seen in FIG. 2, the support element 14 has a support section 25 which projects upwards through the base plate 24 along the vertical axis A and on which the second antenna 28 is arranged. The second antenna 28 is connected to the support section 25 via fastening means 31, in particular via an intermediate element. The horizontal section 28a extends semicircularly around the support section 25 hemm.

A third antenna 32 integrated in the antenna unit 10 can be seen in FIGS. The third antenna 32 is an antenna for mobile Internet and telephony, in particular a 5G antenna. This antenna can, for example, im Frequency range from 1710 MHz to 2690 MHz, especially at 2 GHz, or also in the frequency range from 3.0 GHz to 3.9 GHz, especially at 3.4 GHz and / or 3.7 GHz. The antenna 32 is flat and arranged on a circuit board. As can be seen in FIG. 4, the third antenna 32 is received in a recess 13 on an inner wall of the cover 16. The third antenna 32 has a connection line 33 and a connection element 34, arranged at the end of the connection line 33, for connection in particular to a router. The first antenna 22 and the second antenna 28 can also be connected to the router via the antenna amplifier 26.

The antenna unit according to the invention allows the integration of the three different antenna types 22, 28, 32 in or on the housing 12 with a compact design. The antennas 22, 28, 32 are spaced from one another along the vertical axis A. The second antenna 28 is thus arranged below the first antenna 22 and the third antenna 32 in relation to the vertical axis A. The third antenna 32 is arranged essentially between the first antenna 22 and the second antenna 28. Essentially means that the third antenna can also be arranged in the foot area of the first antenna with respect to the vertical axis, but preferably at a distance from the dipole section of the first antenna that is essential for reception. Such an arrangement of the antennas ensures that all antennas function reliably despite the integration of the three different antenna types in one antenna unit. The lateral offset of the antennas 22, 28, 32 relative to the vertical axis A also contributes to this. The base plate 24 also contributes to shielding, at least in such a way that the DAB signal received by the first antenna 22 does not forward any interference to the second antenna 28 or the third antenna 32. List of reference symbols

10 antenna unit

12 housing

13 recess

14 support element

15 appendix

16 cover

17 insert element

18 adapter piece

19 screw

20 mounting foot

22 First antenna

24 base plate

25 support section

26 antenna amplifier

28 Second antenna

28a horizontal antenna section 28b vertical antenna section

29 Connection cables

30 connection element

31 fasteners

32 Third antenna

33 Connection cable

34 Connection element

A vertical axis

Claims

Expectations

1. Antenna unit (10) comprising a housing (12) and at least three antennas (22, 28, 32) received in the housing (12) and / or arranged on the housing (12), a first of the at least three antennas being an antenna for digital radio (22), a second of the at least three antennas is an antenna for digital television (28) and a third of the at least three antennas is an antenna for mobile Internet and telephony (32), at least two of the at least three antennas based on an installed state the antenna unit (10) along a vertical axis (A) are spaced apart from each other.

2. Antenna unit (10) according to claim 1, characterized in that the second antenna (28) is arranged along the vertical axis (A) below the first antenna (22) and the third antenna (32).

3. Antenna unit (10) according to claim 1 or 2, characterized in that a distance along the vertical axis (A) of at least 1 cm, in particular from 1 cm to 3 cm, between the antennas that follow one another along the vertical axis, are spaced apart consists.

4. Antenna unit (10) according to one of the preceding claims, characterized in that the first antenna is a rod antenna (22) which protrudes laterally offset and parallel to the vertical axis (A) over the housing (12).

5. Antenna unit (10) according to one of the preceding claims, characterized in that the second antenna (28) has a horizontal antenna section (28a) and a vertical antenna section (28b) wherein the horizontal antenna section (28a) extends at least partially along a circumference around the vertical axis (A).

6. Antenna unit (10) according to claim 5, characterized in that the vertical antenna section (28a) is formed by a conductor loop.

7. Antenna unit (10) according to one of the preceding claims, characterized in that the first antenna (22) is a D AB antenna and / or that the second antenna (28) is a DVB-T antenna, in particular a DVB-T2 Antenna, and / or an ATSC antenna and / or an ISDB-T antenna and / or a DTMB antenna.

8. Antenna unit (10) according to one of the preceding claims, characterized in that the third antenna (32) is a 2G antenna, a 3G antenna, a 4G antenna and / or a 5G antenna.

9. Antenna unit (10) according to one of the preceding claims, characterized in that the first antenna (22) is designed to work and / or in the frequency range from 30 MHz to 3 GHz, in particular in the frequency range from 174 MHz to 230 MHz that the second antenna (28) is designed to work in the frequency range from 175 MHz to 230 MHz and / or in the frequency range from 470 MHz to 790 MHz and / or that the third antenna (32) is designed to work in the frequency range of 698 MHz to 960 MHz and / or in the frequency range from 1710 MHz to 2690 MHz and / or in the frequency range from 3.0 GHz to 3.9 GHz and / or in the frequency range from 26 GHz to 39 GHz.

10. Antenna unit (10) according to one of the preceding claims, characterized in that the housing (12) has a support element (14) and a cover (16) connected to the support element (14), wherein the support element (14) receives a metal base plate (24) extending perpendicular to the vertical axis. _·

11. Antenna unit (10) according to claim 10, characterized by an adapter piece (18) connected to the support element (14) for connecting the support element (14) to a mounting foot (20).

12. Antenna unit (10) according to claim 11, characterized in that the adapter piece (18) is designed for connection to mounting feet of different sizes.

13. Antenna unit (10) according to one of claims 10 to 12, characterized in that the support element (14) has a support section (25) protruding upwards along the vertical axis (A) and passing through the base plate (24), wherein on the support section (25) the second antenna (28) is arranged.

14. Antenna unit (10) according to one of claims 10 to 13, characterized in that the third antenna (32) is arranged laterally offset to the vertical axis (A) on an inner wall of the cover (16).

15. Antenna unit (10) according to one of the preceding claims, characterized in that an antenna amplifier (26) connected to the first antenna (22) and to the second antenna (28) is arranged in the housing (12) for amplifying the digital radio signal and of

Digital television signal.