DE602006000047T2 - Planar antenna arrangement - Google Patents

Description

Background of the invention

1. Field of the invention

The The present invention relates to a small planar antenna device with a patch antenna structure and in particular a planar antenna, the for a vehicle is suitable.

 2. Description of the related state of the technique

In In recent years, a small antenna attached to the vehicle will like an antenna for an ETC (electronic tax collection system, electronic toll collection system) or an antenna for a GPS (global positioning system, global positioning system), increasingly demand. As such an antenna becomes a planar antenna device a patch antenna structure that can be easily inserted in an ETC or in a GPS used circularly polarized waves receives, widely used.

In general, a known prior art vehicle-mounted planar antenna device includes: a dielectric substrate having a radiating conductor layer provided on its upper surface, a circuit board having on its upper surface a ground conductor layer on which the dielectric substrate is mounted is, and on the lower surface of which an electronic circuit unit is provided, and a shield made of a metal plate, which is mounted on the circuit board to cover the electronic circuit unit. The radiating conductor layer and the electronic circuit unit are electrically connected by a feeding contact passing through the dielectric substrate and through the circuit board (see, for example, FIG JP-A-2004-88444 (Pages 2 and 3 as well 5 )). In such related art planar antenna device, the electronic circuit unit is electrically connected to an external circuit through a coaxial cable or the like. And then, the radiating conductor layer is excited by a power supplied by the feeding contact, and therefore, circularly polarized waves or linearly polarized waves of a predetermined frequency band are emitted or received. In addition, the electronic circuit unit is covered with the shield case so as to be electromagnetically shielded. Therefore, noise due to unexpected external electric waves has little influence on the electronic circuit unit. When a low-noise amplifier circuit is provided in the electronic circuit unit, the planar antenna device is adapted to receive weak electric waves in the GPS or the like. Moreover, the dielectric substrate is interposed between the radiating conductor layer and the ground conductor layer, and therefore, it is easy to reduce the size of the antenna device by means of a wavelength shortening effect of the dielectric substrate.

Other examples of planar antenna devices are out EP 1 530 254 A1 or WO 02/06334 A2 known.

at the above-described planar antenna device from the related state However, the art is a relatively expensive dielectric substrate between the radiating conductor layer and the ground conductor layer provided to the size reduction continue to advance. Accordingly, it is difficult due to high component cost, the antenna device economical manufacture. About that In addition, the field of view can be adjusted if such Planar antenna device in a window pane of a vehicle will be installed. Therefore, a reduction in size continues to be demanded.

The invention in brief

The The invention is devised in view of the inherent disadvantages of the related art and it is an object of the invention to provide a planar antenna device provide that cost-effective manufactured and can be easily downsized.

Around to solve the above tasks, includes a planar antenna device according to an aspect of the invention a radiating conductor layer resting on a glass surface of a installed device is provided, capacitor electrodes provided on the glass surface are so that they move away from the edges of the radiation conductor layer Outside extend, a ground conductor layer, the radiation conductor layer facing with an intermediate layer of air, a made of a metal plate clamp, which a the Capacitor electrodes closely spaced planar capacitor plate and on the glass surface is attached with a recorded and held therein Circuit board, and a dielectric layer, at least between the Inserted capacitor electrodes and the flat capacitor plate is. The ground conductor layer and the clip are electrically connected to each other connected, and the capacitor electrodes and the planar capacitor plate are capacitively coupled with each other.

In the planar antenna device with the As described above, the radiation guide layer is provided on the surface (glass surface) of a window glass of a vehicle or the like, and a wavelength shortening effect of a glass plate serving as a dielectric can be used. For this reason, since a costly dielectric substrate can be omitted, the component cost can be reduced, and therefore size reduction can be realized. Incidentally, by capacitively coupling the capacitor electrodes extending outward from the edges of the radiating conductor layer to the plane capacitor plate of the ground clamp, a resonant frequency of the radiating conductor layer can be reduced, which is also advantageous in terms of size reduction. Therefore, even if the planar antenna apparatus is installed on the window glass of the vehicle, the size of the planar antenna apparatus is easily reduced and the field of view is hardly obstructed. In addition, the capacitor electrodes and the radiating conductor layer may be formed together on the glass surface. In addition, the cost can be prevented from being driven up because the dielectric layer interposed between the capacitor electrodes and the planar capacitor plate can be made significantly thinner.

In the planar antenna device according to the invention For example, the clip may have a brim which is glued to the glass surface is, and a part of the brim can form the flat capacitor plate. Accordingly, the Fastening work of the clip easily by causing the brim, close to the surface across from to be accomplished. About that In addition, it is because the part of the brim opposite the Capacitor electrodes with the interposed dielectric layer is arranged, not required, a used only for this purpose to provide flat capacitor plate.

In the planar antenna device according to the invention may be the dielectric layer of a capacitively coupled part be a base layer of a double-sided adhesive sheet, wherein the double-sided adhesive sheet between the glass surface and the brim can be pushed in so as to allow the brim to pass through the glass surface on both surfaces Adhere to the base layer provided adhesive layers and secure. Accordingly, it works the double-sided adhesive tape for attaching the clip on the glass surface also as a dielectric layer. Therefore, the number of components reduced and the ease of installation can be improved. In the result can the costs are reduced.

Furthermore can in a planar antenna device according to the invention a plurality of dummy electrodes in the periphery of the radiating conductor layer on the glass surface be distributed so that they are not connected to the radiation conductor layer are. About that In addition, at several locations in the dielectric layer, the Eletrodenattrappen a plurality of serving as solder pits through holes are formed and the brim can be soldered through within the through holes soldered to the dummy electrodes become. Accordingly, the Joining force of Clamp on the glass surface elevated, and the thin one Dielectric plate is also reliably fixed while it is positioned. Therefore, the reliability can be improved. About that can out the dummy electrodes, the radiation conductor layer and / or the Capacitor electrodes formed together on the glass surface become.

Furthermore can in the planar antenna device according to the invention mounting surfaces on both surfaces the dielectric layer are formed, so that they are the capacitor electrodes or the planar capacitor plate, and the mounting surfaces can be customized with the capacitor electrodes or with the flat capacitor plate by means of a conductive Glued adhesives. Therefore, the capacitance value of the capacitively coupled Part stabilized.

Furthermore For example, the ground conductor layer of the printed circuit board in the planar antenna device according to the invention on a surface be provided applied, so that these the radiation conductor layer and a circuit unit provided on the other surface faces, and the circuit board can be held in the clamp. According to this Configuration is it possible a reliable one To use feed structure, which is a feed point of the radiation conductor layer and the electronic circuit unit of the circuit board by a Food contact connects with each other. In this case, if the electronic Circuit unit includes a low-noise amplifier circuit is the low-noise amplifier circuit Electromagnetically shielded by the staple formed from a metal plate. Therefore, the planar antenna device is suitable, weak electric Waves of a GPS or the like to receive.

Furthermore can the glass surface in a planar antenna device according to the invention an inside surface a window glass of a vehicle. According to this configuration can the planar antenna device installed inside the vehicle and therefore there is no case where the field of view is impaired.

Brief description of the drawings

1 Fig. 10 is a cross-sectional view of a planar antenna device according to a first embodiment of the invention;

2 Fig. 12 is a cross-sectional view showing the main parts of a capacitively coupled part of the first embodiment;

3 is an exploded view of in 1 shown antenna device;

4 is a front view of the in 1 shown antenna device;

5 Fig. 10 is a front view of a planar antenna device according to a second embodiment of the invention;

6 Fig. 10 is a perspective view of a dielectric layer used in the second embodiment;

7 Fig. 12 is a cross-sectional view showing the main parts of a soldered part in the second embodiment;

8th Fig. 10 is a cross-sectional view showing the main parts of a capacitively coupled part in a planar antenna device according to a third embodiment of the invention; and

9 FIG. 15 is a perspective view of a dielectric layer used in the third embodiment. FIG.

Description of the preferred embodiment

Preferred embodiments of the invention will now be described with reference to the drawings. 1 FIG. 12 is a cross-sectional view of the planar antenna device according to a first embodiment of the invention. FIG. 2 FIG. 12 is a cross-sectional view illustrating main parts of a capacitively coupled part of the antenna device. FIG. 3 is an exploded perspective view of the antenna device. 4 is a front view of the antenna device. In 4 a glass plate is not shown.

The planar antenna shown in the drawings is, for example, a circular-polarized antenna for a vehicle suitable as an antenna for a GPS and installed on a window glass (glass plate) such as a windshield of a vehicle. The planar antenna device primarily includes a radiating conductor layer 2 and four capacitor electrodes 3 standing on an inner surface 1a the window glass of a vehicle are printed, a circuit board 4 positioned at one point opposite the radiation guide layer 2 is arranged with a predetermined gap, and a metal clip 5 formed of a metal plate forming a box-like body 5a for picking up and holding the circuit board 4 and on the surface 1a of the window glass 1 by means of a double-sided adhesive sheet 9 is attached. An end to a food contact 6 is with a feed point of the radiation conductor layer 2 soldered. Furthermore, opposite to the radiation conductor layer 2 a ground conductor layer formed of copper foil 7 on a surface on both surfaces of the circuit board 4 provided, and an electronic circuit unit 8th including a low-noise amplification circuit is provided on the other surface.

As in 4 shown is the radiation guide layer 2 formed substantially to have a rectangular shape with notches at two of four corners, and the pair of notched portions forming degeneration dividing members 2a , A phase difference of 90 ° is formed perpendicular to each other between electric field modes in the diagonal direction, whereby circular power can be radiated by a point power feeding waves. The capacitor electrodes 3 are island-shaped conductive regions extending from the centers of the four sides of the radiating conductor layer 2 extend to the outside. The capacitor electrodes 3 and the radiating conductor layer 2 be together with silver paste or the like on the surface 1a of the window glass printed. In addition, the other end of the food contact runs 6 through the circuit board 4 to then with the electronic circuit unit 8th to be soldered.

The ground conductor layer 7 is essentially on the entire surface of the circuit board 4 provided and is the radiation conductor layer 2 with an interposed air layer opposite. The ground conductor layer 7 has a diameter slightly larger than that of the radiating conductor layer 2 is and a relief part 7a (please refer 3 ) at a location corresponding to the feed contact 6 on, causing the ground conductor layer 7 not with the food contact 6 comes into contact. In addition, the on the other surface of the circuit board 4 provided electronic circuit unit 8th is connected to an external circuit such as a receiving circuit or the like via an inner conductor of a coaxial cable (not shown) and includes a low-noise amplifier circuit having various electronic components mounted thereon. Therefore, the planar antenna device is adapted to receive weak electric waves from a GPS or the like.

The clip 5 is formed by pressing a metal plate to have a shape with one in the box-like body 5a provided provided with a bottom brim, and the circuit board 4 becomes in the box-shaped body 5a supported. The brim 5b is in the periphery of an opening end of the box-like body 5a provided so that they are the radiation conductor layer 2 like in the 1 and 4 shown enclosed. The brim 5b is on the surface 1a of the window glass 1 by means of a double-sided adhesive sheet 9 glued and fastened. As in the expanded view of 2 is shown, the adhesive double-sided adhesive sheet 9 by applying adhesive layers to both surfaces of a thin base layer (dielectric layer) formed from a dielectric 9a produced. As a material for the adhesive layers, a UV curing adhesive or a thermosetting adhesive is suitably used. The brim 5b the one on the window glass 1 by means of the double-sided adhesive sheet 9 attached bracket 5 stands the capacitor electrodes 3 close to each other, and the formed of a dielectric thin base layer 9a is between the brim 5b and the capacitor electrodes 3 inserted. In addition, the clip 5 with the ground conductor layer 7 connected, and the bracket 5 and ground conductor layer 7 are connected via an outer conductor of a coaxial cable (not shown) to ground. Therefore, at the time of the power feed, an additional capacitance is created between them and the radiation conductor layer 2 and the brim 5b the bracket 5 outwardly extending capacitor electrodes 3 generated. In addition, the electronic circuit unit 8th including the low-noise amplifier circuit through the bracket 5 covered so that it is electromagnetically shielded. Therefore, noise due to unexpected external electric waves has little influence on the electronic circuit unit 8th ,

The size reduction as such in the planar antenna device of the present invention can be improved by utilizing the wavelength shortening effect of the glass plate (window glass 1 ) can be realized, since the radiation conductor layer 2 on the surface 1a on the window glass 1 of the vehicle is provided. In addition, they are from the edges of the radiator conductor layer 2 from extending capacitor electrodes 3 Capacitive with the brim 5b the staple serving as a mass 5 coupled. As a result, a resonance frequency of the radiation conductor layer 2 be reduced, which is also an advantage for the reduction. In addition, the base layer becomes 9a of the double-sided adhesive sheet 9 is used as a dielectric layer interposed between the capacitively coupled part. Therefore, the number of components can be reduced and a preferred ease of installation can be achieved. As a result, the planar antenna device can peel off an expensive dielectric substrate and suppress the component cost, and can be easily downsized. Moreover, there is no case where the field of view would be obstructed even if the antenna device is on the window glass 1 of the vehicle is installed. In addition, there are few space restrictions for installation in the vehicle since the planar antenna device is used while on the window glass 1 is attached. In addition, there is no case in which the visual field would be impaired as compared with a case where the device is provided on a dashboard or the like.

5 Fig. 10 is a front view of a planar antenna device according to a second embodiment of the invention. 6 FIG. 15 is a perspective view of a dielectric layer used in the antenna device. FIG. 7 FIG. 12 is a cross-sectional view showing the main parts of a soldered part of the antenna device. FIG. In 5 a glass plate is not shown. In addition, in the 5 to 7 the same parts as in the 1 to 4 are represented by the same reference numerals and their description is omitted.

In the 5 Planar antenna device shown uses a thin dielectric plate (dielectric layer) 10 that is formed so that it has a rectangular shape, so that it is the radiation conductor layer 2 and the capacitor electrodes 3 covered and brim 5b the bracket 5 facing the outer edge. In four places on the surface 1a of the window glass 1 outside the four corners of the radiation guide layer 2 are dummy electrodes 11 so provided that it does not interfere with the radiation conductor layer 2 are connected. The thin dielectric plate 10 is formed of a dielectric material having a high heat resistance, and through holes serving as solder pits 10a are at the locations of the thin dielectric plate corresponding to the dummy electrodes 11 formed at four corners of the outer edge. In addition, serving as solder pits are through holes 5c (please refer 7 ) at four corners of the brim 5b the bracket 5 according to the through holes 10a educated. At the time of assembly, the thin dielectric plate 10 and the clip 5 on the surface 1a of the window glass laminated, and the through holes 10a and 5c are dummies on the electrodes 11 aligned. In this condition are solders 12 in the through holes 10a and 5c filled. In such a way will the brim 5b the bracket 5 on the dummy electrodes 11 soldered, reducing the joining force of the clip 5 with the window glass 1 is increased. In addition, the between the brim 5b and the window glass 1 turned pushed thin dielectric plate also reliably positioned and fastened. Therefore, it is possible to increase the mechanical stability of the planar antenna device, which can be downsized and manufactured at a low cost. In addition, the dummy electrodes can 11 and the radiating conductor layer and / or the capacitor electrodes 3 together on the surface 1a of the window glass 1 be formed.

8th Fig. 12 is a cross-sectional view showing the main parts of a capacitively coupled part of a planar antenna device according to a third embodiment of the invention. 9 FIG. 10 is a perspective view of a dielectric layer used in the antenna device. FIG. In the 8th and 9 be the same parts as those in the 2 and 6 are represented by like reference numerals and description thereof will be omitted.

In the 8th Planar antenna device shown uses a thin frame-shaped dielectric plate (dielectric layer) 13 with almost the same shape as the brim 5b the bracket 5 , The thin dielectric plate 13 is between the brim 5b and the surface 1a of the window glass 1 inserted. Although in 8th not shown, are dummy electrodes at four points of the surface 1a of the window glass 1 outside the four corners of the radiation guide layer 2 provided so as not to interfere with the radiation conductor layer in the same manner as in the second embodiment 2 are connected. On a surface of the thin dielectric plate 13 near the window glass 1 are fixing islands 13a provided in places corresponding to the capacitor electrodes 3 or the dummy electrodes are formed. In addition, are fastening islands 13b on a surface of the thin dielectric plate 13 near the brim 5b provided to the fastening islands 13a correspond to. The island of fortification 13a are correspondingly with a conductive adhesive 14 on the capacitor electrodes 13 or the dummy electrodes adhered, and the fastening islands 13b are also covered with a conductive adhesive 14 on the brim 5b glued. Especially the capacitor electrodes 3 and the fortification islands 13a are electrically and mechanically coupled together in the capacitively coupled portion of the planar antenna device, and the brim 5b and the fortification islands 13b are electrically and mechanically connected. Therefore, the capacitance value of the capacitively coupled part is stable, thereby easily achieving the desired antenna characteristics. In addition, the dummy electrodes and the capacitor electrodes 3 are formed together, and the adhesive work by the conductive adhesive 14 can be executed at the same time. Therefore, the mechanical strength of the planar antenna device can be improved if dummy electrodes are provided without increasing the number of manufacturing steps.

Furthermore is a circular in the embodiments described above polarized antenna for a vehicle that is suitable as an antenna has been illustrated for a GPS. In the case of an antenna for An ETC may alternatively be the thickness of a staple by removal a low-noise amplification circuit be reduced. Furthermore the invention is not limited to the circular polarized antenna, but can also be applied to linearly polarized antennas.

at the planar antenna device according to the invention can be an exclusively used dielectric substrate are replaced by providing the Radiation conductor layer on the surface of the window glass of the vehicle. About that In addition, the resonant frequency of the radiating conductor layer can Capacitive coupling of the edges of the radiation guide layer outward extending capacitor electrodes with the planar capacitor plate the mass serving as a staple are reduced. Therefore, the Reduction can be easily realized, and the component cost can be reduced. About that There is little spatial Restrictions for the installation in a vehicle, as the planar antenna device is used while she on the glass surface of the window glass or the like, and there is none Case where the field of view is affected.

Claims (8)

A planar antenna device, comprising: a radiation guide layer ( 2 ) placed on a glass surface ( 1a ) of an installed device is provided; Capacitor electrodes ( 3 ), which on the glass surface ( 1a ) are provided so that they extend from the edges of the radiation conductor layer ( 2 ) extend outwards; a ground conductor layer ( 7 ) with an intermediate air layer of the radiation conductor layer ( 2 ) faces; a molded from a metal plate holder ( 5 ), which one the capacitor electrodes ( 3 ) facing flat capacitor plate ( 5b ) and on the glass surface ( 1a ) with a printed circuit board received therein and held therein ( 4 ) is attached; and a dielectric layer ( 9a ) between the capacitor electrodes ( 3 ) and the flat capacitor plate ( 5b ), wherein the ground conductor layer ( 7 ) and the holder ( 5 ) are electrically connected together, and the capacitor electrodes ( 3 ) and the flat capacitor plate ( 5b ) are capacitively coupled with each other. A planar antenna device according to claim 1, wherein the holder ( 5 ) one to the glass surface ( 1a ) glued brim ( 5b ), and a part of the brim ( 5b ) the flat capacitor plate ( 5b ). Planar antenna device according to claim 2, wherein the dielectric layer ( 9a ) a base layer ( 9a ) of a double-sided adhesive sheet ( 9 ), wherein the double-sided adhesive sheet ( 9 ) between the glass surface ( 1a ) and the brim ( 5b ) and the brim ( 5b ) by adhesive layers ( 9b ) on both surfaces of the base layer ( 9a ) are placed on the glass surface ( 1a ) is glued and attached to this. A planar antenna device according to claim 2, wherein a plurality of dummy electrodes ( 11 ) in the vicinity of the radiation conductor layer ( 2 ) on the glass surface ( 1a ) are distributed so that they do not interfere with the radiation conductor layer ( 2 ), wherein a plurality of through holes serving as solder pits ( 10a ) in several places corresponding to the dummy electrodes ( 11 ) in the dielectric layer ( 9a ) are formed and the brim ( 5b ) to the dummy electrodes ( 11 ) with solder within the through holes ( 10a ) is soldered. A planar antenna device according to claim 1, wherein pads ( 13a . 13b ) on both surfaces of the dielectric layer ( 9a ) are provided so that they the capacitor electrodes ( 3 ) or the flat capacitor surface ( 5b ), and the pads ( 13a . 13b ) by a conductive adhesive ( 14 ) to the capacitor electrodes ( 3 ) or to the flat capacitor surface ( 5b ) are glued. Planar antenna device according to claim 1, wherein the printed circuit board ( 4 ) on a surface with the ground conductor layer ( 7 ) and on the other surface with an electronic circuit unit ( 8th ), and wherein the printed circuit board ( 4 ) in the brim ( 5 ) is housed. Planar antenna device according to claim 6, wherein the electronic circuit unit ( 8th ) includes a low noise amplifier circuit. Planar antenna device according to claim 1, wherein the glass surface ( 1a ) an inner surface 1a a windowpane 1 of a vehicle.