DE4105826A1 - EXTRA FLAT CIRCULAR POLARIZATION ANTENNA, ESPECIALLY FOR A REMOTE CONTROL INSTALLED IN A MOTOR VEHICLE - Google Patents

Description

The present invention relates to a circular polar station antenna.

First of all, it must be pointed out that whether right here mainly from one for the outside of radio waves specific antenna is such an antenna because of the principle of Reciprocity is also used for reception can and that such an application thus also within the scope of the present invention falls.

The antenna according to the present invention is especially for integrated dialog remote controls intended for motor vehicles.

In these units, the driver detection must allow one sends in the motor vehicle built board module a query signal to an "electro African label ", which is generally in the form of a Pin or a flat card, which the driver carries or is in one of his Bags. If certain conditions he are filled, the card answers when the Interrogation signal on it by in turn in Direction of the on-board module one specially for the card and thus its carrier coded identification signal outside  det. If this from the on-board module of the vehicle is known, the latter then leads a certain one Number of measures by, e.g. B. Unlocking the Doors, automatic adjustment of the rear-view mirror po sition, the steering wheel, etc.

So you can see that this is a Radio signal between one installed in the vehicle and antenna connected to the on-board module and the to send out the card carried by the driver. Since the Identification is "in passing", d. H. without that the driver take the card out of his pocket and insert it into a reader or similar device push, it is not possible to advance the Knowing the location of the map at the time of the query. However, since this card is flat, it can be certain Give positions in which the electromagnetic Field that contains the winding contained in the card receives, weak or zero, for example play when the plane of the map is perpendicular to the Level of the transmitter coil of the vehicle is located.

A known solution to this problem exists in it, not a simple wave with linear polarization (Case of sanded out from an insulated winding th wave) more, but a wave with circular polarity send out so that a rotating field in the Way is formed that one, regardless of the off direction of the flat winding of the card, always one Component of the magnetic field finds that capable is to create an EMF here that is not the same Is zero.

To create such a rotating field, one uses generally two windings, each with vertical th axes, which are separate with signals of the same Frequency and same amplitude, but in a ratio nis out of phase with each other, fed will.  

Such an antenna generates a rotating field with very good polarization circularity, what about the radio electrical point of view from a completely satisfy de Solving the problem of querying driver identities permit card in passing.

From a mechanical point of view, this implies The solution, however, is a relatively bulky antenna system (where the two identical windings cross each other are arranged), which is therefore on a Attach motor vehicle very difficult or in the Has the cabin accommodated; this difficult speed during installation is further increased by the fact that not to electromagnetic transmission to disturb, must avoid metal parts or -walls are located near the antenna.

One of the purposes of the present invention is in eliminating this difficulty by a circular polarization antenna for one in one Motor vehicle built-in remote control suggested will be addressed to those mentioned above radioelectric functions to satisfactory Way fulfilled, but only mechanically seen takes up little space and therefore easily in the cabin of the vehicle or in a superstructure ment can be accommodated.

In particular you will see that you are on this Make a particularly flat antenna that can easily be found in an automobile, for example bil mirror can be installed.

The latter option includes numerous advantages le: The antenna is not visible, it is lying outside the cabin and is therefore by the Metal parts of the body are not affected finally built into an element which contains no or only a few metal parts that the  Could falsify the charisma (whereby rear-view mirror consist essentially of plastic and glass, so from radioelectrically permeable material en).

For this purpose, the invention relates to a circular po Larization antenna for in a motor vehicle built-in remote control, containing a first one Winding, a second winding inside the first winding is attached and its axis in essential, but not exactly perpendicular to the axis the first winding is aligned, as well as one third winding, which serves as an excitation winding, with a source for the signal to be emitted the and coaxially attached to the second winding is, the first and the second winding in the remaining on appropriate tuning capacitors is closed, so that the radiation at 90 ° - Phase shift occurs,

• - With the first winding on a hollow mandrel is formed, the longitudinal dimension of which is essentially Chen is smaller than the transverse dimensions,
• - The second winding is formed on a rod det, its longitudinal dimension is essentially is larger than the transverse dimensions and its Cross-section has an elongated shape, the smallest of which Dimension is at most as large as the longitudinal dimension solution of the mandrel, while the said rod in height its two longitudinal ends rest on the mandrel, characterized in that the mandrel is annular is trained and the rod extends over the entire Length of the inner diameter of this ring-shaped Dorns extends.

Preferred types are as follows, however without any restrictive character that Described antenna according to the present invention ben:

• - The cross section of the magnetic core is essentially  chen rectangular, with the long side essentially Chen parallel to the plane of the first winding running;
• - the mandrel delimits two parallel end faces, between which the turns of the first winding and the second winding is inside of this thorn completely in the space that the mentioned end faces is limited;
• - The rod is in the inner opening of the annular Pressed in Dorns;
• - On the inner surface of the mandrel are means for Attachment of the two rod ends provided.

An embodiment of the invention now follows dung, wherein reference to the accompanying drawings is taken.

Fig. 1 is a front view of the antenna according to the invention.

Fig. 2 is a plan view in section along II-II of Fig. 1 of the same antenna.

In the figures the antenna is according to the invention shown in the form of a flat circular antenna, but this embodiment is not restrictive to understand and you could also use a rectangle choose ge, square, polygonal etc. shape and maintain the same basic structure.

This antenna essentially has a core 1 made of ferromagnetic material (ferrite) in the form of a flat rod, which is arranged according to the diameter of a circular ring 2 , which serves as a mandrel, the longitudinal axis of the rod and that of the mandrel being substantially perpendicular run.

On the ring 2 , a first winding L 1 is attached, the two terminals of which are closed by a capacitor C 1 so that a first resonant circuit L 1 C 1 is formed.

The ferrite core 1 is wound with a second winding L 2 , the two terminals of which are closed by a capacitor C 2 so that a second resonance circuit L 2 C 2 is formed, which is tuned to the same frequency as the first resonant circuit L 1 C 1 .

Finally, the core 1 is also provided with a third winding L 3 , which serves as an excitation winding and whose terminals are connected to a radio frequency source S, which generates the signal to be emitted by the antenna.

The windings L 2 and L 3 , which are wound on the same ferrite core 1 , are of course gekop pelt, so that the emission of a Radiofrefrequenzwel le through the winding L 2 is possible after a first polarization direction.

As for the windings L 1 and L 3 , on the other hand, it is necessary that their respective axes do not run exactly perpendicular, since in this case the mutual coupling would be zero. In order to enable a coupling between these windings and therefore the emission of a radio frequency wave by the winding L 1 according to a second polarization direction, the ferrite core 1 is shifted very slightly in relation to the plane of the ring 2 (and thus the winding L 1 ) , as can be seen from Fig. 2. This angle R, which is referred to as the "circuit angle", is set so that the desired circuit index between L 1 and L 3 is achieved.

In practice you find that you can satisfactory results with a circuit angles of a few degrees (typically 1 to 2 °) can achieve what has a double advantage:

• - First of all, the circularity of the polarization remains, since this angle is only small, very good because L 1 and L 2 have axes that remain vertical with very few exceptions and
• - On the other hand, the antenna retains its particularly flat shape, the core 1 preferably being completely digested in the interior of the end faces 3 , 3 ', which are delimited by the ring 2 , which thus has no projecting part.

For the core 1 one chooses preferably and also with a view to maintaining this particularly flat shape no round or square rod, but one with a completely flat, rectangular cross section, as can be seen from a comparison of FIGS. 1 and 2, or one Rod of comparable shape, for example a circular shape, which is shortened by two parallel planes arranged at the same distance from the central axis.

The calculation of the inductance of the windings L 1 and L 2 must be carried out carefully so that the two windings produce fields of substantially the same amplitude (with an accuracy of 10 or 20%), which must have a phase shift that is as accurate as possible.

The inductance of the winding L 3 must mainly be set so that the impedance matching between the generator S and the antenna (typically to a value of 50 Ω) is optimized.

In one embodiment, therefore Ferrite core with the cross section 5 × 14 mm and one Length of 66 mm chosen in a ring with  a thickness of 8 mm, an outer diameter of 80 mm, an inner diameter of 70 mm and a Winding diameter of 72 mm is arranged.

40 turns were wound for L 1 , which gives an inductance of 25 µH. 100 turns were wound for L 2 , which gives an inductance of 520 μH. Finally, 3 5½ Windun were wound gene for L, which gives an inductance of 2 .mu.H.

The resonance circuits L 1 C 1 and L 2 C 2 were tuned to 120 kHz using capacitors with capacitances C 1 = 6.8 nF and C 2 = 3.3 nF.

So you could use a circular polarization antenna a thickness of only 8 mm with a total diameter Make water of 80 mm. Extend these dimensions are completely compatible with those of now used rearview mirror, in which such Antenna can be easily installed without that this arrangement, however, is restrictive Feature would be understood.

As far as the assembly of the antenna parts is concerned, several solutions are possible. First of all, the rod 1 can be pressed into the interior of the antenna 2 , which is accompanied by a slight elastic deformation of the ring (which can consist, for example, of a suitable plastic).

In a variant, 2 means for fastening can be provided on the inner surface of the ring, such as indents which are adapted to the rod shape and diametrically opposite one another, or parallel ribs, between which the respective rod ends can be inserted.

To also correspond to the positioning of the rod to facilitate the aforementioned angle R, can said rod and ring more advantageous wise so that when the rod is in the correct angular position, its after outside shifted side surfaces with the correspond corresponding side surfaces of the ring are flush.

Of course, the present invention is limited in no way to the above and in the embodiment shown in the drawings, but the expert can do any of the basics Appropriate variant or modification men.

In particular, of course, is any other arrangement (Headrest, door rack, rear bumper, suitcase space etc.) possible, although here from an antenna according to the invention was discussed in one Rear view mirror can be accommodated.

Claims (5)

1. circular polarization antenna, in particular for a remote control installed in a motor vehicle, containing a first winding (L 1 ), a second winding (L 2 ) which is attached to the inside of the first winding and whose axis is essentially, but not exactly perpendicular to the axis the first winding is aligned, and a third winding (L 3 ), which serves as an excitation winding, is connected to a radiation signal source (S) and is attached coaxially to the second winding, the first and second windings being otherwise based on tuning capacitors (C 1 , C 2 ) are closed, so that the radiation proceeds 90 ° out of phase,

• - The first winding (L 1 ) is formed on a hollow mandrel, the longitudinal dimension of which is essentially smaller than the transverse dimensions,
• - The second winding (L 2 ) is formed on a rod, the longitudinal dimension of which is substantially greater than the transverse dimensions and whose cross-section has an elongated shape, the smallest dimension of which is at most as large as the longitudinal dimension of the mandrel, while the said dimension Rod rests on the mandrel at the level of its two longitudinal ends, characterized in that the mandrel ( 2 ) is annular and the rod ( 1 ) extends over the entire length of the inner diameter of this annular mandrel.

2. Antenna according to claim 1, characterized in that the cross section of the magnetic core ( 1 ) is substantially rectangular, the longitudinal side being arranged substantially parallel to the plane of the first winding (L 1 ). 3. Antenna according to one of the preceding claims, characterized in that the mandrel ( 2 ) delimits two parallel end faces ( 3 , 3 '), between which the turns of the first winding are arranged, and the second winding inside this mandrel completely in the limited space is arranged between said end surfaces. 4. Antenna according to one of the preceding claims, characterized in that the rod ( 1 ) is pressed into the inner opening of the annular mandrel ( 2 ). 5. Antenna according to one of claims 1 to 3, characterized in that on the inner surface of the mandrel ( 2 ) means for fastening supply of the two ends of the rod ( 1 ) are provided.