DE112019006456T5 - CONNECTED ANTENNA DEVICE FOR VEHICLES - Google Patents

Abstract

A composite antenna device for vehicles is specified with which common-mode noise can be reduced and impairment of the reception performance can thus be avoided. The compound antenna device for vehicles comprises: an antenna base (10); a roof ladder (20); a circuit board (30); Antenna elements (40); Coaxial cable (50); an intermediate ground area (60); and a circuit board ground area (70). The roof conductor (20) is electrically connected to the antenna base (10) and also to a vehicle roof (R). The intermediate grounding area (60) electrically connects a grounding wire (52) to the antenna base (10) at a position near the roof conductor (20) so that it has the same potential as the roof conductor (20). The circuit board grounding area (70) electrically connects a grounding structure (31) to the antenna base (10) and is arranged such that a distance from the roof conductor (20) to the circuit board grounding area (70) is equal to or greater than that Is the distance from the roof conductor (20) to the intermediate grounding area (60).

Description

Technical area

The present invention relates to compound antenna devices for vehicles, and more particularly relates to a compound antenna device for vehicles in which common mode noise can be reduced in a compound antenna compatible with a plurality of frequency bands.

Composite antenna devices for vehicles capable of receiving AM broadcasts and FM broadcasts are widely used. Recently, small, low profile antenna devices such as a so-called shark fin antenna have also become available (see e.g.

JP 2012-204996 A ). Composite antenna devices for vehicles have various restrictions such as a restriction in height or a need to fit into a small space inside a housing.

Various information devices are installed in recent vehicles for the purpose of safety and convenience. This leads to the requirement that antenna devices are compatible with a plurality of frequency bands, which means that antenna elements suitable for the respective frequency bands must fit into the small space.

In the low-profile antenna device described above, an antenna base has a protrusion which is used to mount the antenna base on a vehicle roof, the antenna base being electrically connected to the vehicle roof by fastening a nut to the protrusion so that a ground washer the The coating or lacquer layer on the vehicle roof breaks open. As a result, the vehicle body made of metal can act as a so-called body ground. The signal output of the antenna device is in turn fed into a receiver in the vehicle using a coaxial cable.

Brief description of the invention

Problems to be Solved by the Invention

In the conventional compound antenna device for vehicles as described above, ground wires of the coaxial cables are connected to a ground pattern of a circuit board. The grounding structure of the circuit board is in turn electrically connected to the antenna base by means of a screw or the like in order to fasten the circuit board to the antenna base.

That is, the ground wires of the coaxial cables are connected to the antenna base through the ground structure of the circuit board, and the antenna base is body-grounded to the vehicle body through the ground washer. This creates a potential stray static capacitance between the coaxial cable ground wire and the antenna base. The static stray capacitance propagates a common mode noise that has propagated on the ground wire of the coaxial cable from the receiver side in the vehicle to the circuit board.

Common mode noise that has propagated onto the circuit board causes potential fluctuations in the circuit board's ground structure. In short, common mode noise causes the PCB's ground level to become unstable. In addition, part of the common mode noise is converted into normal mode noise, which becomes noise for the antenna element.

In particular, in the case of a compound antenna device for vehicles, receivers for frequency bands other than the AM / FM wavebands such as a GNSS receiver, a DAB receiver, a V2X receiver, a TEL receiver, noise in the AM / FM wavebands emit. The noise in the AM / FM waveband becomes common mode noise that propagates from the ground wire of the coaxial cable. In particular, in composite antenna devices for vehicles that are compatible with signals of several frequency bands, a plurality of coaxial cables must be drawn into the antenna device in a closed and mutually parallel manner.

As a result, the common mode noise propagating to the ground wires of the coaxial cables for wavebands other than the AM / FM waveband is superimposed on the ground wire of the coaxial cable for the AM / FM waveband. In this way, common mode noise destabilizes the ground level of the circuit board, and further, the partially converted normal mode noise also becomes noise of the AM / FM antenna elements, resulting in deterioration in antenna performance. For this reason, a desire has arisen to develop a composite antenna device for vehicles which can reduce common mode noise particularly in AM / FM wavebands.

In view of this situation, the object of the present invention is to provide a composite antenna device for vehicles with which common-mode noise can be reduced and in this way an impairment of the reception performance can be avoided.

Means of solving the problems

To achieve this object, a composite antenna device for vehicles according to the present invention comprises: an antenna base to be installed on a vehicle roof; a roof conductor configured to be electrically connected to the antenna base as well as to the vehicle roof; a circuit board mounted on the antenna base and having a ground structure; a plurality of antenna elements disposed on or connected to the circuit board and configured to be compatible with the plurality of frequency bands; a plurality of coaxial cables each having a core wire for signals and a ground wire for grounding, the core wires being connected to the respective signal outputs from the plurality of antenna elements; an intermediate grounding area, the intermediate grounding area electrically connecting the grounding wire or wires to the antenna base at a position close to the roof conductor so that it has substantially the same potential as the roof conductor; and a circuit board grounding area that electrically connects the grounding structure of the circuit board to the antenna base, wherein the circuit board grounding area is arranged such that the distance from the roof conductor to the circuit board grounding area is equal to or greater than the distance from the roof. Is the conductor to the intermediate grounding area.

The ground wire of the respective coaxial cable can also be connected to the ground structure of the circuit board.

The roof conductor can be arranged on a grounding washer for securing the antenna base to the vehicle roof, and the intermediate grounding area can be arranged in the vicinity of a protrusion on which the grounding washer is arranged.

The intermediate grounding area can be arranged in an insertion opening formed in the antenna base in order to enable the coaxial cables to be passed through.

The intermediate grounding area can have a holding connection which is able to hold the grounding wire of the respective coaxial cable.

The intermediate grounding area can have a relay connector which is designed to electrically connect the grounding wire of the respective coaxial cable to the antenna base.

The respective coaxial cables can be arranged on the antenna base at a distance from the antenna elements so that they do not impair the reception performance of the antenna elements.

The plurality of antenna elements may include at least one composite AM / FM antenna element.

The circuit board can stand upright on the antenna base or be mounted parallel to the circuit board.

The antenna base may have an insulating base made of resin material and a conductive base fixed on the insulating base and smaller than the insulating base.

Effects of the invention

The composite antenna device for vehicles according to the present invention is advantageous in that it can reduce common mode noise and thus avoid deterioration in reception performance.

Figure list

• 1 eine schematische Darstellung zur Erläuterung der Konfiguration einer Verbundantennenvorrichtung für Fahrzeuge gemäß der vorliegenden Erfindung;
• 2 eine schematische Darstellung zur Erläuterung einer weiteren Konfiguration einer Verbundantennenvorrichtung für Fahrzeuge gemäß der vorliegenden Erfindung;
• 3 eine schematische Perspektivansicht zur Erläuterung eines speziellen exemplarischen zwischengeordneten Erdungsbereichs bei einer Verbundantennenvorrichtung für Fahrzeuge gemäß der vorliegenden Erfindung;
• 4 eine schematische Perspektivansicht zur Erläuterung eines weiteren speziellen exemplarischen zwischengeordneten Erdungsbereichs bei einer Verbundantennenvorrichtung für Fahrzeuge gemäß der vorliegenden Erfindung;
• 5 eine schematische Perspektivansicht zur Erläuterung noch eines weiteren speziellen exemplarischen zwischengeordneten Erdungsbereichs bei einer Verbundantennenvorrichtung für Fahrzeuge gemäß der vorliegenden Erfindung;
• 6 eine schematische vergrößerte Seitenansicht zur Erläuterung noch eines weiteren speziellen exemplarischen zwischengeordneten Erdungsbereichs bei einer Verbundantennenvorrichtung für Fahrzeuge gemäß der vorliegenden Erfindung;
• 7 eine schematische vergrößerte Seitenansicht zur Erläuterung noch eines weiteren speziellen exemplarischen zwischengeordneten Erdungsbereichs bei einer Verbundantennenvorrichtung für Fahrzeuge gemäß der vorliegenden Erfindung;
• 8 eine schematische Draufsicht zur Erläuterung noch eines weiteren speziellen exemplarischen zwischengeordneten Erdungsbereichs bei einer Verbundantennenvorrichtung für Fahrzeuge gemäß der vorliegenden Erfindung; und
• 9 eine schematische Darstellung zur Erläuterung von Positionen von zwischengeordneten Erdungsbereichen bei Experimenten zur Auswertung des Effekts der Reduzierung von Gleichtaktrauschen bei der Verbundantennenvorrichtung für Fahrzeuge gemäß der vorliegenden Erfindung.

In the drawings show:

• 1 Fig. 13 is a diagram showing the configuration of a compound antenna device for vehicles according to the present invention;
• 2 Fig. 3 is a diagram showing another configuration of a compound antenna device for vehicles according to the present invention;
• 3 Fig. 13 is a schematic perspective view for explaining a specific exemplary intermediate grounding portion in a compound antenna device for vehicles according to the present invention;
• 4th Fig. 13 is a schematic perspective view for explaining another specific exemplary intermediate grounding portion in a compound antenna device for vehicles according to the present invention;
• 5 Fig. 13 is a schematic perspective view showing still another specific exemplary intermediate grounding portion in a compound antenna device for vehicles according to the present invention;
• 6th Fig. 3 is a schematic enlarged side view showing still another specific exemplary intermediate grounding portion in a compound antenna device for vehicles according to the present invention;
• 7th Fig. 3 is a schematic enlarged side view showing still another specific exemplary intermediate grounding portion in a compound antenna device for vehicles according to the present invention;
• 8th Fig. 13 is a schematic plan view showing still another specific exemplary intermediate grounding portion in a compound antenna device for vehicles according to the present invention; and
• 9 Fig. 13 is a diagram showing positions of intermediate grounding areas in experiments for evaluating the effect of reducing common mode noise in the composite antenna device for vehicles according to the present invention.

Description of the embodiments

In the following, embodiments for carrying out the present invention will be described with reference to the illustrated examples. A compound antenna device for vehicles according to the present invention is a compound antenna device for vehicles that is compatible with a plurality of frequency bands. 1 Fig. 13 is a diagram showing the configuration of a composite antenna device for vehicles according to the present invention, wherein 1A shows a side view of the same and 1B shows a top view of this.

As shown in these drawings, the composite antenna device for vehicles according to the present invention primarily has an antenna base 10 , a roof ladder 20th , a printed circuit board 30th , Antenna elements 40 , Coaxial cable 50 , an intermediate grounding area 60 and one or more circuit board ground areas 70 . It also comes with an antenna cover when installed on a vehicle 1 covered, which has an interior space for accommodating the antenna elements, the circuit board, etc. It should be noted that while the following description is directed to a low profile antenna device as a composite antenna device for vehicles, the present invention is not limited thereto.

The antenna base 10 is for installation on a vehicle roof R. educated. Here is the antenna base 10 intended for arrangement on the outside of the vehicle. The circuit board 30th or the like is on the antenna base 10 appropriate. The antenna base 10 can be used as a ground for the circuit board 30th and the Antenna elements 40 works. The antenna base 10 can be formed from a conductive material. The antenna base can have a so-called resin base. In particular, the antenna base 10 an insulating base made of resin material and a conductive base fixed on the insulating base and smaller than the insulating base.

The roof ladder 20th is for electrical connection with the antenna base 10 as well as for the electrical connection to the vehicle roof R. educated. In particular, the roof ladder 20th Have a ground washer. Exemplary ground washers include a serrated washer, a leg washer, or the like. In the example shown, a leg washer is used in an exemplary manner as a roof ladder 20th used.

The roof ladder 20th in the form of the leg washer is sandwiched between one in the antenna base 10 arranged projection 11 and a bolt 12th arranged in a coaxial manner by the bolt 12th on the ledge 11 is attached. When fastening the bolt 12th on the ledge 11 one or more outer claw areas of the grounding washer break through the coating layer or lacquer layer of the vehicle roof R. . This allows the antenna base 10 with the vehicle roof formed from a metal plate R. be electrically connected via the grounding washer. In this way, the vehicle roof made of metal becomes R. to a so-called body grounding.

The circuit board 30th is on the antenna base 10 attached and has one or more grounding patterns 31 on. The ground pattern or structure 31 serves as a ground for one on the circuit board 30th attached amplifier circuit or the like. The grounding structure 31 may for example have a grounding plate around a screw hole for attaching the circuit board 30th at the antenna base 10 is formed around. The exemplary printed circuit board shown 30th is standing upright on the antenna base 10 appropriate. However, the present invention is not limited to this and the circuit board 30th can also be parallel to the antenna base 10 to be appropriate.

The amplifier circuit 32 or the like is on the circuit board 30th appropriate. The amplifier circuit 32 is used to amplify the received signals. For example, in the case where the compound antenna device for vehicles according to the present invention is configured as a compound antenna which can receive signals in both the FM frequency band and the AM frequency band, the amplifier circuit can 32 correspondingly have a plurality of frequency band-specific amplifier circuits which correspond to the respective frequency bands, ie the FM frequency band and the AM frequency band. Furthermore, a power supply circuit or the like can also be on the circuit board 30th to be appropriate.

The composite antenna device for vehicles according to the present invention is provided with a plurality of antenna elements 40 fitted. As an example is the plurality of antenna elements 40 of the example shown on the circuit board 30th arranged. That means the antenna elements 40 are on the circuit board 30th formed by structured training of the same. The antenna elements 40 in the example shown are merely schematic in nature, and the present invention is not limited to these shapes, arrangements and the like.

Furthermore, one or more patch antennas or planar antennas can be placed on the antenna base 10 be arranged. Too specific examples of the multitude of antenna elements 40 include: an FM antenna element, an AM antenna element, a DAB antenna element, a V2X antenna element, a TEL antenna element, a GNSS antenna element, and the like. However, the present invention is not limited to this, and any elements can be used as long as they are antenna elements for use in vehicles.

Furthermore, they may include an AM / FM composite antenna element in which a capacitive antenna and a resonance antenna are combined. That is, a conductive element with a predetermined antenna capacitance can be designed to act as a capacitive antenna for forming an AM antenna element, while this conductive element and a coil can be combined to act as a resonance antenna for forming an FM antenna element.

Any coaxial cable 50 has a core wire 51 for signals and a ground wire 52 for grounding. The core wire 51 of the coaxial cable 50 is with the signal output from the antenna element 40 tied together. In particular, the core wire 51 with an energy feed area of the antenna element 40 or with the output of the amplifier circuit 32 on the circuit board 30th be connected. The variety of coaxial cables 50 with such a configuration is for the respective antenna elements 40 intended. This coaxial cable 50 are through one in the antenna base 10 formed insertion opening 13th led to the outside of the composite antenna device for vehicles. The insertion opening 13th serves as a cable entry opening.

The coaxial cable 50 are then through one in the vehicle roof R. trained cable entry opening guided into the vehicle interior. One or more connectors 53 is / are arranged on areas of the coaxial cables that are located inside the vehicle. The coaxial cables can then be connected to the connector or connectors 53 be connected to the receivers or the like in the vehicle interior.

The intermediate grounding area 60 is provided for the purpose of the ground wire or wires 52 of the coaxial cable or cables 50 with the antenna base 10 to connect electrically, at a position near the roof conductor 20th so that it has essentially the same potential as the roof ladder 20th having. That means the intermediate grounding area 60 is near the roof ladder 20th arranged.

In the example shown, the one or more outer claw areas are used as roof conductors 20th provided ground washer around one or more areas with exactly the same potential as that of the vehicle roof R. . The ground washer thus has over the protrusion 11 and the bolt 12th essentially the same potential as the antenna base 10 . Thus, the intermediate grounding area 60 for example near the ledge 11 to be ordered.

By attaching the intermediate grounding area 60 own the ground wire or wires 52 of the coaxial cable or cables 50 essentially the same potential as the vehicle roof R. , which is what is known as the body grounding, from the grounding structure 31 the circuit board 30th when looking from the roof ladder 20th the end. This can cause common mode noise to appear on the ground wire (s) 52 of the coaxial cable (s) 50 propagates directly to the vehicle roof R. propagate without the circuit board 30th to go through.

Although the intermediate grounding area 60 can be designed such that he or the ground wire 52 from one or more of the coaxial cables 50 with the antenna base 10 electrically connects, it is preferred that the intermediate grounding area 60 is designed such that it has the ground wires 52 of all coaxial cables 50 with this electrically connects.

The reason for this is that the common mode noise can not only propagate on the coaxial cable for the AM / FM waveband, but also, for example, on other coaxial cables for other frequency bands. Even if the intention is to reduce the common mode noise for the AM / FM waveband, electrically connecting the ground wires 52 of all coaxial cables 50 via the intermediate grounding area 60 with the antenna base 10 the highest level of noise reduction can be achieved.

• Abziehen des Außenmantel-Schutzüberzugs des Koaxialkabels 50 zum Freilegen des Erdungsdrahts 52 in einem Bereich, der auf dem zwischengeordneten Erdungsbereich 60 platziert werden soll;
• Festklemmen des freiliegenden Bereichs des Erdungsdrahts 52 mit dem konkav ausgebildeten zwischengeordneten Erdungsbereich 60; und
• elektrisches Verbinden des Erdungsdrahts 52 mit dem zwischengeordneten Erdungsbereich 60 beispielsweise durch Löten. Auf diese Weise kann der in die Verbundantennenvorrichtung für Fahrzeuge gezogene Erdungsdraht 52 des Koaxialkabels 50 im Wesentlichen das gleiche Potential wie das Fahrzeugdach R aufweisen.

In the example shown is the intermediate grounding area 60 with a concave shape in integral training with the antenna base 10 shown. The coaxial cable 50 can with the intermediate grounding area 60 be electrically connected by:

• Removing the protective outer sheath of the coaxial cable 50 to expose the ground wire 52 in an area that is on top of the intermediate grounding area 60 should be placed;
• Clamping the exposed area of the ground wire 52 with the concave intermediate grounding area 60 ; and
• electrically connecting the ground wire 52 with the intermediate grounding area 60 for example by soldering. In this way, the ground wire drawn into the compound antenna device for vehicles 52 of the coaxial cable 50 essentially the same potential as the vehicle roof R. exhibit.

The PCB ground area 70 serves to electrically connect the grounding structure 31 the circuit board 30th with the antenna base 10 . The composite antenna device for vehicles according to the present invention is configured to be able to operate due to the intermediate grounding portion 60 when looking from the roof ladder 20th from essentially the same potential as the vehicle roof R. in front of the grounding structure 31 the circuit board 30th having.

To the ground structure 31 the circuit board 30th to a position further away than the intermediate grounding area 60 to the antenna base 10 can lead to the circuit board grounding area 70 be arranged so that the distance from the roof ladder 20th to the circuit board ground area 70 is greater than the distance from the roof ladder 20th to the intermediate grounding area 60 . That means the circuit board ground area 70 in the form of a screw projection for fastening the circuit board 30th at the antenna base 10 can when looking from the roof ladder 20th from in a more distant position than the intermediate grounding area 60 be arranged.

The PCB ground area 70 in the form of the screw projection can be integral with the antenna base 10 be shaped. In the example shown, there are two circuit board ground areas 70 at the corners of the circuit board 30th arranged, each circuit board ground area 70 is arranged such that it is when viewed from the roof ladder 20th is located further away than the intermediate grounding area 60 . When the circuit board 30th on the one on the antenna base 10 designated circuit board grounding area 70 is attached by means of a screw, the grounding structure 31 on the circuit board 30th over the screw with the antenna base 10 electrically connected.

This allows this electrical connection in relation to the roof conductor 20th be arranged further away than the intermediate grounding area 60 . At the distance from the roof ladder 20th it can be an electrical distance and not a physical distance.

In the illustrated example, as described above, an example is illustrated in which the distance from the roof ladder 20th to the circuit board ground area 70 is given greater than the distance from the roof ladder 20th to the intermediate grounding area 60 . However, the present invention is not limited to this. For example, the circuit board ground area 70 be arranged so that the distance from the roof ladder 20th to the circuit board ground area 70 equal to the distance from the roof ladder 20th to the intermediate grounding area 60 is.

That means when looking from the roof ladder 20th can be the distance to the PCB grounding area 70 equal to or greater than the distance to the intermediate grounding area 60 be. This allows the intermediate grounding area 60 and the circuit board ground area 70 when looking from the roof ladder 20th essentially have the same potential.

By forming the composite antenna device for vehicles according to the present invention as indicated, the static stray capacitance between the ground wire becomes 52 of the coaxial cable 50 and the antenna base 10 reduced. In addition, the common mode noise grows from the roof ladder 20th , which is what is known as the body earth, to the vehicle roof R. away. As a result, the common mode noise that has entered the ground wire of the coaxial cable from the receiver side of the vehicle hardly propagates to the circuit board. Even with a compound antenna device for vehicles that is compatible with a plurality of frequency bands, common-mode noise, for example, for the AM / FM waveband, can thus be reduced, and thus deterioration in reception performance can be avoided.

As also in 1B is shown, the coaxial cable or cables 50 on the antenna base 10 of the antenna element or elements 40 be arranged remotely, so that they the reception power of the antenna elements 40 not affect. In particular, is in the drawing 1B the top coaxial cable 50 on the antenna base 10 away from the antenna elements 40 arranged so that it the receiving power of the antenna elements 40 not affected.

As in the composite antenna device for vehicles according to the present invention, the plurality of antenna elements 40 in a small space in the antenna cover 1 is housed affect the coaxial cables arranged in the composite antenna device for vehicles 50 possibly the antenna elements 40 . In this regard, for example, for the antenna element 40 that is in the direction of the short length of the antenna base 10 near the center crosses the coaxial cable (s) 50 the peripheral area of the antenna base 10 be arranged continuously so that they affect the reception performance as little as possible.

Next, another example of the compound antenna device for vehicles according to the present invention will be described with reference to FIG 2 described. 2 FIG. 13 is a schematic diagram for explaining another configuration of the composite antenna device for vehicles according to the present invention, wherein 2A shows a side view of the same and 2 B a plan view of the same shows. In these figures, elements with the same reference numerals as in FIG 1 represent the same elements. In contrast to the printed circuit board 30th that are in the in 1 Example shown standing upright on the antenna base 10 is arranged, is the circuit board 30th at the in 2 example shown parallel to the antenna base 10 appropriate.

Further is under the antenna elements 40 the AM / FM composite antenna element shown with a so-called umbrella-shaped element. The umbrella-shaped element is an element that has an upper region and roof-like inclined regions extending on both sides away from the upper region. The umbrella-shaped element can be formed by bending a single conductive plate into an umbrella shape or by joining two conductive plates together.

The shape of the umbrella-shaped element is not limited to that shown in the example shown. Furthermore, an example is shown in which the intermediate grounding area 60 in the insertion opening 13th is arranged. In this example, too, at the position at which the intermediate grounding area 60 is arranged, the outer sheath protective coating of the coaxial cable 50 peeled off to the ground wire 52 and the exposed ground wire 50 can with the intermediate grounding area 60 be electrically connected.

As shown in the drawings, in this example is the intermediate ground area 60 in the insertion opening 13th arranged. By arranging the intermediate grounding area 60 in the insertion opening 13th becomes, for example, the degree of freedom when arranging other parts or when laying out the wiring of the coaxial cables 50 on the antenna base 10 elevated. In this example, too, the intermediate grounding area 60 in an integral manner with the antenna base 10 be shaped. Furthermore, a separate intermediate grounding area 60 the ground wire (s) 52 of the coaxial cable or cables 50 can clamp, by means of a screw or the like. On the antenna base 10 be attached.

Furthermore, in the example shown, an example is illustrated in which a toothed washer as a roof ladder 20th is used. The intermediate grounding area 60 is similar to the in 1 example shown near the roof ladder 20th arranged. The intermediate grounding area 60 connects the ground wire (s) 52 of the coaxial cable or cables 50 electrically with the antenna base 10 at a position near the roof ladder 20th so that he has the same potential as the roof ladder 20th having. With this configuration, the common mode noise that builds up on the ground wire or wires 52 of the coaxial cable or cables 50 propagates directly to the vehicle roof R. away without it the circuit board 30th runs through, so that a reduced common mode noise results.

In the example shown, too, the grounding structure is to be guided 31 the circuit board 30th to the antenna base 10 at a position equal to or greater than the distance from the roof ladder 20th to the intermediate grounding area 60 is the PCB ground area 70 arranged so that the distance from the roof ladder 20th to the circuit board ground area 70 equal to or greater than the distance from the roof ladder 20th to the intermediate grounding area 60 is.

In particular, in the arrangement according to 2 B two PCB grounding areas 70 at two corners on the left side of the circuit board 50 be arranged. In such a case, for example, two can be placed near the roof ladder 20th arranged corners on the right side of the circuit board 30th as simple fastening protrusions 71 be designed only to attach the circuit board 30th are trained. Using the mounting tabs 71 becomes the circuit board 30th fixed by a screw or the like at a position where the ground structure 31 does not exist.

This enables the circuit board ground area 70 , the grounding structure 31 the circuit board 30th at a position to the antenna base 10 to guide that when looking from the roof ladder 20th from the intermediate grounding area 60 or further away than this, while at the same time the circuit board 30th in a stable manner on the antenna base 10 is mounted.

Further, in the composite antenna device for vehicles according to the present invention, as shown in, for example, FIG 2 shown is the ground wire 52 of the coaxial cable 50 also with the grounding structure 31 the circuit board 30th be connected. As in the composite antenna device for vehicles according to the present invention, the ground wire 52 of the coaxial cable 50 due to the intermediate grounding area 60 essentially the same potential as the vehicle roof R. no common mode noise is planted on the area of the ground wire 52 of the coaxial cable 50 beyond the intermediate grounding area 60 away.

The shielding effect of the ground wire 52 creates a shield against leakage of the core wire 51 propagating signal to the outside and against the penetration of radio waves from outside into the core wire 51 . Because the ground wire 52 also with the grounding structure 31 the circuit board 30th connected, have the grounding structure 31 the circuit board 30th and the ground wire 52 furthermore the same potential, so that there is a further stabilized earthing of the circuit board 30th results.

Specific examples of the intermediate grounding portion in the compound antenna device for vehicles according to the present invention will be described below. However, the present invention is not limited to these specific examples, and any intermediate ground position capable of electrically connecting the ground wire (s) of the coaxial cable (s) at a position close to the roof conductor with the antenna base may be used connect so that it has essentially the same potential as the roof conductor.

3 Fig. 13 is a schematic perspective view for explaining a specific example of the intermediate grounding portion of the compound antenna device for vehicles according to the present invention. In the drawing represent elements with the same reference numerals as in 1 represent the same elements. As shown, for the intermediate grounding area 60 any retention terminal can be used to attach the ground wire (s) 52 of the coaxial cable or cables 50 can hold. The exemplary holding connection shown is a so-called crimp connection.

The intermediate grounding area designed as a crimp connection 60 has a hold area 61 the ground wire (s) 52 of the coaxial cable or cables 50 holds, as well as a screw hole 62 for electrically connecting and fixing the same to the antenna base 10 . The holding area 61 is on one or more areas of the ground wire (s) 52 crimped by removing the protective outer sheath of the respective coaxial cable 50 exposed, and is electrically connected to them.

4th Fig. 13 is a schematic perspective view for explaining another specific example of the intermediate grounding portion of the compound antenna device for vehicles according to the present invention. In the drawing represent the elements with the same reference numerals as in 3 represent the same elements. In contrast to the crimp connection as a holding connection in the example of FIG 3 it is the holding connection of the intermediate grounding area 60 in the present example a so-called screw connection.

The intermediate grounding area designed as a screw connection 60 has a hold area 61 the ground wire (s) 52 of the coaxial cable or cables 50 holds, as well as a screw hole 62 for electrically connecting to and securing the same to the antenna base 10 . The intermediate grounding area is with the antenna base 10 electrically connected by the screw hole 62 by means of a screw on the antenna base 10 is attached, in a state in which one or more exposed portions of the ground wire or wires 52 , in which a protective outer sheath of the respective coaxial cable 50 has been removed in the holding area 60 are held.

5 Fig. 13 is a schematic perspective view for explaining still another specific example of the intermediate grounding portion of the compound antenna device for vehicles according to the present invention. In the drawing represent the elements with the same reference numerals as in 4th represent the same elements. The intermediate grounding area, designed as a screw connection in the example shown 60 is with a solder hole 65 in the holding area 61 formed, the or the ground wire 52 of the coaxial cable or cables 50 holds.

In a state where each exposed portion of a ground wire 52 , in which a protective outer jacket of the coaxial cable 50 has been peeled off in the holding area 60 is held, solder material is through the soldering hole 65 cast to make an electrical connection with this. This means that the electrical connection can be made by crimping or soldering.

The intermediate grounding area formed in this way 60 can using a screw in one in the antenna base 10 formed screw hole are screwed to the intermediate grounding area 60 to fix. Alternatively, a bolt can be used 12th on the one in the antenna base 10 arranged projection 11 used to provide the intermediate grounding area 60 to be fixed together with the grounding washer in a coaxial manner. That means the bolt 12th can through the screw hole 62 of the intermediate grounding area 60 passed through and fastened together with the grounding washer.

This enables an electrical connection to be provided at a position in close proximity to the ground washer as a roof conductor with the same potential as the vehicle roof R. . Furthermore, the actual grounding washer can be designed in such a way that it acts as an intermediate grounding area. This means the ground washer can come with a holding area 61 be formed, and the or the ground wire 52 can be crimped into this to provide a direct electrical connection.

6th Fig. 13 is a schematic enlarged side view for explaining still another specific example of the intermediate grounding portion of the compound antenna device for vehicles according to the present invention. In the drawing represent elements with the same reference numerals as in 1 represent the same items. Also, only the intermediate ground area 60 and the vicinity thereof is enlarged while the other elements are not shown.

As shown in the drawing, the intermediate grounding area 60 have one or more relay connectors. The relay connector, which acts as an intermediate grounding area 60 acts is for the electrical connection of the respective grounding wires 52 of the coaxial cable or cables 50 with the antenna base 10 educated. As shown in the drawing, for example, by attaching a ground connection 63 of the relay connector directly on the antenna base 10 by means of screws or the like of the ground wire or wires 52 the respective coaxial cable 50 with the antenna base 10 electrically connected.

That way the ground wires 52 essentially the same potential as the roof ladder 20th exhibit. As shown in the example shown, the relay connector can be designed in such a way that the core wire 51 the respective coaxial cable 50 also with the respective signal line 64 connected inside the composite antenna device for vehicles. For example, the relay connector can be a multi-pin coaxial connector so that it is compatible with a variety of coaxial cables for signals in a variety of frequency bands.

In the illustrated example, although the coaxial cables from the receiver inside the vehicle are to be connected to the respective relay connectors, the present invention is not limited thereto and a plurality of cables can be connected simultaneously using one wire harness.

The intermediate grounding portion in the compound antenna device for vehicles according to the present invention can be attached to the projection for fixing the antenna base 10 be arranged on the roof. 7th Fig. 13 is a schematic enlarged side view for explaining still another specific example of the intermediate grounding portion of the compound antenna device for vehicles according to the present invention. In the drawing represent the elements with the same reference numerals as in 1 represent the same elements. Furthermore, only the intermediate grounding area 60 and its surroundings are shown in an enlarged manner, while the other elements are not shown.

As shown in the drawing, the intermediate ground area is 60 in this example on the one on the antenna base 10 provided projection 11 arranged. That means the intermediate grounding area 60 is integral with the protrusion 11 shaped. With this configuration, the head of the antenna base can 10 be made compact. This is particularly the case when the present invention is applied to, for example, a so-called composite base which has an insulating base made of resin material and a conductive base smaller than the insulating base and fixed on the insulating base as the conductive base can be made compact.

8th Fig. 13 is a schematic plan view for explaining still another specific example of the intermediate grounding portion of the composite antenna device for vehicles according to the present invention. In the drawing represent the elements with the same reference numerals as in 1 represent the same elements. Also, only the antenna base 10 and the intermediate grounding area 60 while the other elements are not shown. As shown in the drawing, the antenna base 10 in this example on a composite basis.

The antenna base designed as a composite base 10 exhibits a combination of an insulating base 15th and a conductive base 16 on. The conductive base 16 is smaller than the insulating base 15th and is on the insulating basis 15th attached. The insulating base 15th is formed from a hard member in the sense that it forms the bottom of the antenna device and the antenna cover is attached to it. Even with such a composite base, a similar intermediate grounding area can still be used 60 as used in the examples illustrated above. In the example shown, a conductive plate is used 66 used for intermediate grounding.

Typically the base is conductive 16 formed from a material to which solder is less likely to adhere. For this purpose, the conductive plate 66 used for the intermediate grounding, so that the soldering process can be carried out in a simple manner. The conductive plate 66 for the intermediate grounding may be formed of such a material as a copper plate to which soldering material is easily adhered.

The size and shape of the conductive base 16 and the conductive plate 66 for the intermediate grounding are not limited to the size and shape in the examples shown, but can be varied depending on the arrangement of the respective components of the composite antenna device for vehicles or the like. In the present example, the intermediate grounding area 60 integral with the intermediate conductive ground plane 66 be provided. Such a conductive plate 66 for the intermediate grounding can be designed in such a way that it is attached to the conductive base by means of screws or the like 16 attached and thus electrically connected to it.

The effect of reducing common mode noise of the composite antenna device for vehicles according to the present invention will now be described with reference to experimental data. 9 Fig. 13 is a diagram showing positions of intermediate grounding areas in the experiments for evaluating the effect of reducing common mode noise in the composite antenna device for vehicles according to the present invention. In the drawing represent the elements with the same reference numerals as in 1 represent the same elements.

With reference to the examples illustrated above, it is stated that the effect of reducing common mode noise can be achieved by the configuration in which the distance from the roof conductor 20th to the circuit board ground area 60 is given greater than the distance from the roof ladder 20th to the intermediate grounding area 60 . It is also stated that the distance from the roof ladder 20th to the circuit board ground area 70 equal to the distance from the roof ladder 20th to the intermediate grounding area 60 can be. The evidence for this is given with reference to the results of the evaluation experiments.

That is, in the evaluation experiments, the effects of reducing common mode noise were measured when the distance from the roof ladder 20th to the intermediate grounding area 60 versus the distance from the roof ladder 20th to the circuit board ground area 70 was varied. In the drawing, the inner circle of the two circles represents the position of the conductive roof area 20th while the outer circle of the two circles represents the distance to the circuit board ground area 70 represents.

In particular, as shown in the drawing, the effects of reducing common-mode noise were measured in the respective cases: the case in which the intermediate grounding area is at the same distance (at 60a) as the roof conductor 20th is arranged; the case where the intermediate grounding area is at the distance (at 60b) of the circuit board grounding area 70 is arranged; and the case where the intermediate grounding area is located in a position (at 60c) further away than the circuit board grounding area 70 is arranged. It should be noted that the example shown is a schematic diagram, shown in an easily understandable manner for the purpose of explanation, and the actual distance is not limited to this example.

In particular, the compound antenna device for vehicles used in the evaluation experiments is a compound antenna device having an FM antenna element, a GNSS antenna element, and a TEL antenna element. The difference in the FM output and the difference in the GNSS output were measured when the signal generator for the coaxial cable connected to the TEL antenna element 50 a pseudo-noise signal was or was not superimposed.

The measurements were carried out for the respective cases, namely: the case where the intermediate grounding area was provided in each of the TEL coaxial cable, the FM coaxial cable, and the GNSS coaxial cable; as well as the case in which the intermediate grounding area was not provided. Also, in the case where the intermediate grounding area was present, the measurements were carried out while the distance from the roof conductor to the intermediate grounding area versus the distance from the roof conductor to the circuit board ground area. The results are shown in the table below. Table 1: Presence or absence of intermediate earthing for TEL Unavailable Unavailable Unavailable Unavailable Available Available Available Presence or absence of intermediate ground for FM Unavailable Available Available Available Unavailable Unavailable Unavailable Presence or absence of intermediate ground for GNSS Unavailable Available Available Available Unavailable Unavailable Unavailable Position of intermediate earthing - 60a 60b 60c 60a 60b 60c FM output [dB] 18.2 13.1 13.4 17.9 8.9 9.7 18.5 GNSS output [dB] 14.8 12.2 13.0 14.7 9.5 9.8 14.5

As shown in Table 1, it can be seen that both the FM output and the GNSS output in the case where the intermediate grounding area was present and at the same distance (at 60a) as the roof conductor 20th or at the same distance (at 60b) as the circuit board ground area 70 were arranged, are less than in the case in which the intermediate grounding area was not present.

This means that it can be seen that the pseudo-random signal (common mode noise) that has propagated on the ground wire of the TEL coaxial cable has not propagated to the circuit board due to the intermediate grounding area, but has propagated to the vehicle roof.

It can thus be seen that the effect of reducing common mode noise is high when
"The distance to the circuit board grounding area 70"
≥ "the distance to the intermediate grounding area 60"
in terms of roof continuity 20th is. In contrast, it can be seen that, in spite of the presence of the intermediate grounding area, the effect of reducing the common mode noise is small if the intermediate grounding area is arranged in a position (at 60c) which is further away than the circuit board grounding area 70 is arranged.

It should be noted that the composite antenna device for vehicles according to the present invention is not limited to the examples explained above, and it goes without saying that various modifications can be made without departing from the scope of the present invention.

List of reference symbols

1

Antenna cover

10

Antenna base

11

head Start

12th

bolt

13th

Insertion opening

15th

insulating base

16

conductive base

20th

conductive roof area

30th

Circuit board

31

Grounding structure

32

Amplifier circuit

40

Antenna element

50

Coaxial cable

51

Core wire

52

Ground wire

53

Interconnects

60

intermediate earthing area

61

Holding area

62

Screw opening

63

Earth connection

64

Signal line

65

Solder hole

66

conductive plate for intermediate earthing

70

PCB grounding area

71

Fastening protrusion

R.

Vehicle roof

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• JP 2012204996 A [0003]

Claims (10)

A composite antenna device for vehicles, compatible with a variety of frequency bands, comprising: - an antenna base for installation on a vehicle roof; a roof conductor designed for electrical connection to the antenna base as well as to the vehicle roof; a circuit board mounted on the antenna base and having a ground structure; a plurality of antenna elements which are arranged on the circuit board or are connected to the circuit board and are designed such that they are compatible with the plurality of frequency bands; a plurality of coaxial cables each having a core wire for signals and a ground wire for grounding, the core wires being connected to the respective signal outputs from the plurality of antenna elements; an intermediate grounding area, the intermediate grounding area electrically connecting the grounding wire or wires to the antenna base at a position close to the roof conductor so that it has substantially the same potential as the roof conductor; and - a circuit board ground area that electrically connects the ground structure of the circuit board to the antenna base, - wherein the circuit board grounding area is arranged such that the distance from the roof conductor to the circuit board grounding area is equal to or greater than the distance from the roof conductor to the intermediate grounding area. Composite antenna device for vehicles according to Claim 1 , wherein the ground wire of the respective coaxial cable is also connected to the ground structure of the circuit board. Composite antenna device for vehicles according to Claim 1 or 2 wherein the roof conductor is disposed on a grounding washer for securing the antenna base to the vehicle roof, and wherein the intermediate grounding area is disposed in the vicinity of a protrusion on which the grounding washer is disposed. Composite antenna device for vehicles according to Claim 1 or 2 wherein the intermediate grounding area is arranged in an insertion opening formed in the antenna base in order to enable the coaxial cables to be passed through. Composite antenna device for vehicles according to one of the Claims 1 until 4th wherein the intermediate grounding area has a holding terminal which is able to hold the ground wire of the respective coaxial cable. Composite antenna device for vehicles according to one of the Claims 1 until 4th wherein the intermediate grounding area comprises a relay connector which is adapted to electrically connect the ground wire of the respective coaxial cable to the antenna base. Composite antenna device for vehicles according to one of the Claims 1 until 6th , wherein the respective coaxial cables are arranged on the antenna base away from the antenna elements so that they do not impair the reception performance of the antenna elements. Composite antenna device for vehicles according to one of the Claims 1 until 7th wherein the plurality of antenna elements comprises at least one AM / FM composite antenna element. Composite antenna device for vehicles according to one of the Claims 1 until 8th wherein the circuit board is mounted upright on the antenna base or parallel to the circuit board. Composite antenna device for vehicles according to one of the Claims 1 until 9 , wherein the antenna base comprises an insulating base made of resin material and a conductive base fixed on the insulating base and smaller than the insulating base.

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