DE4227208A1 - Antenna combination - Google Patents

Abstract

The invention concerns an antenna combination with an electrically conducting frame (1), on which an essentially resonant circuit (9, 10) forms, and with at least two individual antennae (4, 5) which couple with the electric field (E) produced by the circuit. The efficiency can be significantly increased by the use of at least an additional individual antenna (11) which couples with the magnetic field (H) of the resonant circuit (9, 10). The antenna combination is intended in particular for mobile reception in motor vehicles and is designed for integration in vehicle parts, in particular bumpers.

Description

The invention relates to an antenna combination with a electrically conductive structure on which an essentially Lichen resonant circuit, and with little At least two individual antennas connected to its electrical field couple.

From DE 40 03 385 A1, which refers to the same applicant declines, such an antenna combination is known which are attached to or in a bumper of a motor vehicle or is housed. On the rear of the vehicle or on the The front of the vehicle forms a resonant circuit, whose resonance frequency is in the FM range because the half wavelength about the dimensions, especially the Width of a motor vehicle body, correspond or corresponds. In the electrical field of displacement current that closes the resonant circuit Individual antennas arranged, so that electri displacement current, d. H. to the electric field of the resonant circuit. The individual antennas are therefore both with the resonant circuit as well coupled with each other via this. A corresponding one phase addition of the antenna voltages of the individual antennas over a radio frequency line gives an increase antenna efficiency without changing the antenna chart.

The overall efficiency of the known antenna combination is due to the effective antenna height of the individual antennas certainly. If the antenna combination in a bumper ger is integrated, the effective antenna height is the Individual antennas directly by the distance of the bumper determined to the conductive body surface. Is this  Sufficient distance between bumper and body large, the passive operation of such antennas is sufficient combination for satisfactory reception results from and corresponds to those of conventional telescopic antennas. Are the Antenna heights of the individual antennas, however, must be smaller thus reduced efficiency with an additional Amplifier are balanced, d. that is, it must be active Antennas are used that have a higher circuit technical effort through the use of low noise and drive-proof amplifier required and also in terms of manufacturing effort and function security are disadvantageous.

The invention is therefore based on the object tennenkombination to create the low scarf a technical and manufacturing effort enables better efficiency.

Based on the antenna combination mentioned at the beginning does this task with at least one other individual antenna attached to the magnetic field of the resonant Circuit couples.

Through the additional use of at least one wide one ren to the magnetic field of the resonant circuit pelting single antenna results in a further decoupling lung from the resonant body circuit, so that the Performance gain is significantly improved. Since the on A coupling the magnetic field of the resonant circuit additional antenna energy from the resonant current coupling out, there is also a greater damping of the resonant circuit leading to In addition to the performance gain, a desired one Increasing the bandwidth of the entire antenna array effect. The increase in efficiency at the Antenna combination according to the invention thus results  through the improved coupling of individual antennas to the resonant circuit, which is also the antenna pattern of the entire antenna arrangement determined. The increase in So the efficiency of the antenna combination does not arise by increasing the directional sharpness, as in her conventional antenna arrangements by forming groups of Antennas is reached.

Especially when using antenna combinations the antenna according to the invention is for mobile reception combination particularly suitable, because in contrast to the conventional antenna arrangements with directivity the antenna combination according to the invention no fading and / or zeros in the antenna diagram to step. The individual antennas of the antenna according to the invention Rather, combinations are about the resonant current circle completely coupled together. That is also their common antenna pattern through this common Circuit determined.

The individual antennas that couple to the electrical field are particularly advantageous on edges of the electrically lei tendency structure provided on which the field strengths on highest and therefore the decoupling is best.

According to a preferred embodiment of the invention are at least two coupling to the electric field Individual antennas at a distance of essentially that half resonance wavelength arranged to be as possible high efficiency of the electrical field or the elec trical displacement current of the resonant circuit to be able to connect.

Preferably, the output signals of the electric field coupled single antennas in essence Chen added in phase opposition, creating an optimal lei  profit is achievable. Preferably the off input signals of the coupled to the electric field antennae in parallel via a high-frequency line switches. This is the corresponding coherent addition reached. The high-frequency line is preferred essentially half as long as the resonance wavelength, which results in an optimal, in-phase addition of the results in both antenna signals. The radio frequency line is preferably a coaxial line and to the Electric field coupling individual antennas are preferred wise linear antennas.

According to a particularly advantageous embodiment of the Invention is the at least one attached to the magnetic field coupling single antenna between the electrical Field coupling individual antennas arranged. The to the ma single antenna coupling magnetic field, for example a closed conductor loop is preferably so ordered that they have as many magnetic field lines as possible is penetrated. The magnetic field lines are vertical right on the through the resonant circuit in the elek tric conductive structures spanned level and enclose eat this circuit. That through the conductor loop The alternating magnetic field induced in the conductor loop a ring current.

The at least one is preferably connected to the magnetic field coupling individual antenna to the electrical field coupling individual antennas connected in series, whereby an addition of the antenna signals of all individual antennas is carried out optimally. In this context it is advantageous if the individual coupling to the magnetic field antenna connected in the middle of the radio frequency line is that the two couple to the electric field connects the individual antennas. The time functions of the electric and magnetic fields are in the near field  of the resonant circuit namely in their phases 90 ° shifted against each other. It is therefore advantageous if according to a further embodiment of the invention the distance of the connection point for the on the magnetic field coupling single antenna to those on the electric field coupling individual antennas essentially one quarter of the resonance wavelength. Hence the antennae signal of the antenna coupling to the magnetic field correct to the antenna signals on the electrical Field coupling antennas added, so that there is a optimal, coherent addition of the three signals, and thus an optimal performance gain of the entire antenna comm combination results.

It is advantageous if a transformer for connection the single antenna coupling to the magnetic field in series to the individual antennas coupling to the electrical field is provided. The antenna signal to the magnetic Field coupling individual antenna, for example that in egg a closed conductor loop induced ring current, is transformed into the circuit in this way the individual antennas coupling to the electric field fed. Due to the coherent addition of the signals of the Individual antennas with the same possible amplitude can be used Performance increase of the antenna combination of up to 10 dB compared to a single antenna can be achieved without that the resulting antenna pattern changes, what - as already described - in particular together hang with antenna systems for mobile reception which is advantageous.

An embodiment is preferred in which the individual tennen, especially the kop on the electric field pelting single antennas, shortened antennas are there by ensuring that the individual antennas in the we only couple to the resonant circuit. About that  In addition, shortened antennas are particularly simple Chen, compact training of integrated antenna systems particularly well suited.

It is also advantageous if the individual antennas, especially the shortened antennas attached to the electri couple the field, extension coils and / or Dachkapa possess in a manner known per se.

The antenna combination according to the invention is - as be has already been carried out - especially for mobile emp catch, so advantageous in connection with vehicles reversible. According to a further embodiment of the invention The electrically conductive structure is part of a journey body, and the individual antennas are vehicle tennen. There are at least two on the electrical Field coupling individual antennas at the corners of a joint catcher, a vehicle roof, a trunk lid and / or a hood arranged on edges ordered, where the electric field strength is particularly high and thus the performance gain of the individual antennas is particularly large. According to a particularly advantageous one The embodiment of the invention is the radio frequency line device that couples to the electrical field connects antennas, designed as a coaxial line and the outer conductor of the coaxial line is part of the to Magnetic field coupling individual antenna or part of the conductor loop that is penetrated by the magnetic field. The high frequency line is therefore as a coaxial line in one Ab stood facing the body, with the outer ends the outer conductor of the coaxial line with the body line are conductively connected. This results in no additional components the coupling to the magnetic field tenne as a conductor loop through the outer conductor of the Coaxial line, the connections of the outer conductor with the Body and the body itself is formed. Here  it is advantageous if the coaxial line leading to the ad dition of the signals which couple to the electric field serves the individual antennas at the greatest possible distance the conductive body surface is arranged so as many lines of force as possible within the conductor loop pass through, and thereby the induced current in the Conductor loop is as large as possible.

A particularly advantageous embodiment of the invention furthermore consists in the fact that the transmitter with which the induced current in the coupling to the magnetic field tenne is fed into the antenna circuit in which Middle of the coaxial line is arranged, and that its Primary winding the outer conductor and its secondary winding connects the inner conductor. This results in a special ders advantageous, symmetrical structure with simple Means, in which the antenna signal in a simple manner the antenna coupling to the magnetic field via a Lambda / 4 long line in phase with the signals of the antennas coupling to the electric field is added, if the individual antennae coupling to the electric field at a distance of half the resonance wavelength are arranged one another.

For the highest possible increase in antenna performance combination should be the three signals of the individual antennas for the coherent addition the same amplitudes as possible exhibit. The transformer can be used for this, which is preferably a winding ratio for this purpose is not equal to one and the amplitude of the signal accordingly, which adapts to the magnetic field provides coupling single antenna.

With regard to an integrated training of the antennas combination, it is particularly advantageous if the ge Entire antenna structure of the antenna combination in one  Level is arranged. This embodiment is in particular very applicable when the antenna combination is integrated in a bumper of a vehicle because the constructive and also assembly effort is greatly reduced.

There are preferably several individual components of the Antenna combination in one piece from an electrically lei tenden arrangement, for example a copper or aluminum minium foil or from an electrically conductive wire, which makes integration of the antenna combination easy nation with corresponding simplification at the manufacturer development and assembly results. The radio frequency line is there preferably a strip line.

It is particularly advantageous and simple to make an adjustment the impedance of the antenna coupling to the magnetic field reach if the outer conductor of the as high-frequency line device used coaxial line with at least one lei tendency foil and / or a conductive wire for spreading tern and / or extend the outer conductor. The outer conductors can also be connected by conductive wires widen that are parallel at a distance. The metal foil (s) or the conductive wires are included at the respective ends of preferably a quarter of a right long coaxial line with its outside conductors connected. This way a simple adjustment of the impedance of the magnet field coupling antenna.

The electrically conductive arrangement is preferably in at least one electrically non-conductive film beds.

The antenna combination is preferably in and / or on provided a foam core. This allows the ge  Entire antenna structure as one component, for example in be integrated into a plastic bumper. Terms Lich the manufacturing process is preferably at least part of the antenna combination by means of a thermo molding process embedded in a plastic film.

The invention is described below with reference to the embodiment examples explained with reference to the figures. It shows

Fig. 1 is a schematic representation of an embodiment of the antenna combination according to the invention for use in a vehicle,

Fig. 2 shows another embodiment of the antenna combination according to the invention in a schematic representation;

Fig. 3 is an equivalent circuit diagram for the antenna combination nen, as shown in Fig. 1, and

Fig. 4 is a schematic representation of an antenna combination according to the prior art.

Fig. 4 shows schematically the rear of the vehicle 1 of a vehicle, not shown. In the vicinity of the vertical edges 2 , 3 of the rear of the vehicle 1 are - for example on a non-conductive material, not shown bumpers - individual antennas 4 , 5 arranged, which are connected to each other via a coaxial line 6 and connected via the connection point 7 with a connecting line 8 , which is preferably also a coaxial line, is connected to the radio receiver of the motor vehicle. For frequencies whose half wavelengths are approximately in the order of magnitude of the motor vehicle width, a re sonant line current 9 forms on the rear of the vehicle 1 , which is indicated in FIG. 1 by an arrow 9 . The resonant circuit is closed via a displacement current 10 .

In the electric field E of this displacement current 10, the coupling on the displacement current 10, that the electrical specific field individual antennas 4, 5, in the vicinity of the body edges 2, 3, in the vicinity of the electric field lines are most dense. The at the individual antennas 4 , 5 are very strongly coupled to each other via the displacement current 10 and for this reason provide the same antenna voltages, but with opposite signs, since they are at a distance from one another of approximately the order of half the wavelength of the resonance current. The antenna signal of a single antenna 4 is led to the connection point 7 via the coaxial line 6 . Since the coaxial line 6 is essentially half a resonance wavelength long, it gives itself at the connection point 7 an in-phase addition of the signals of the individual antennas 4 , 5th The signal obtained is passed through the connecting line 8 to the receiver circuit. To avoid repetition, reference is made to DE 40 03 385 A1 with regard to the known antenna combination.

Fig. 1 shows an embodiment of the invention according to the invention in a schematic representation. Details, parts and arrangements in FIG. 1 which correspond to those of FIG. 4 are provided with the same reference numerals as in FIG. 4 and are not explained again for the sake of clarity.

The antenna combination according to FIG. 1 differs from the conventional antenna combination according to FIG. 4 in that, in addition to the individual antennas 4 , 5 coupling to the electric field, a further individual antenna 11 in the form of a conductor loop is provided. The conductor loop is located between the individual antennas 4 , 5 coupling to the electrical field and is penetrated by magnetic field lines 12 which enclose the line current 9 . The magnetic field lines 12 are indicated in FIG. 1 by circles or circles with crosses and pass perpendicularly through the plane of the paper. The conductor loop, ie the additional single antenna 11 , thus couples to the magnetic field H schematically represented by the magnetic field lines 12 .

In the embodiment of the invention shown in FIG. 1, the half-wavelength long coaxial line 6 is divided into two coaxial line parts 6 'and 6 ' of equal length, each of which is a quarter wavelength long. The inner conductors are connected via a secondary coil 13 to a transformer 14 . The connections of a primary winding 15 of the transformer 14 are connected to the outer leads of the coaxial line parts 6 'and 6 ''at the most distant locations from the transformer 14 . The conductor loop 11 is thus formed by the connecting lines 16 and the outer conductor of the coaxial line parts 6 'and 6 ''. Since the outer conductor of the coaxial line parts 6 'and 6 '', however, are also electrically connected at their most distant locations to the rear of the vehicle 1 , the conductor loop is also formed by the connecting lines 16 and the conductive parts of the rear of the vehicle 1 .

The ring current in the conductor loop 11 , which is induced by the alternating magnetic field, is fed toroidally via the transformer 14 into the circuit of the individual antennas 4 , 5 . The time functions of the electric and magnetic fields are in the Nahbe range of the resonant current 9 in their phases in wesent union offset by 90 °. The in-phase addition of the ring current induced in the conductor loop 11 is achieved by the two, a quarter-wave long coaxial line parts 6 'and 6 ''.

In the event that the antenna combination according to the invention is integrated in a bumper of a vehicle, the embodiment of the antenna combination nation shown in FIG. 2 is particularly advantageous. Details, elements and arrangements in FIG. 2 which correspond to those of FIG. 1 are provided with the same reference symbols in FIG. 2 as in FIG. 1 and are not explained again.

In the embodiment shown in Fig. 2, the coaxial line 6 and the coaxial line parts 6 'and 6 ''are spaced by spacers 17 at a distance from the rear of the vehicle 1 . The spacers 17 are electrically conductive and connect the outer conductors of the coaxial line parts 6 'and 6 ''at the most outermost places with the electrically conductive parts of the body. In this embodiment, the primary coil 15 of the transformer 14 connects the mutually facing ends of the outer conductor of the coaxial line parts 6 'and 6 ''.

In the embodiment shown in Fig. 2, the coaxial line 6 or 61 and 6 '', which serves to add the Si signals of the coupling to the electric field individual antennas 4 , 5 , is also used together with the vehicle body and the spacers 17 to form the conductor loop 11 . Parts for the additional individual antenna coupling to the magnetic field are therefore not required in this embodiment.

In order to ensure the best possible coupling of the additional individual antenna to the magnetic field in the embodiments of the invention shown schematically in FIGS. 1 and 2, as many magnetic field lines 12 as possible should be enclosed by the conductor loop. In the embodiment shown in FIG. 2, this is achieved by making the spacers 17 as long as possible.

The embodiment shown in FIG. 2 is, as already mentioned, particularly suitable for the formation of the antenna combination according to the invention as an integrated arrangement in a bumper. The spacers 17 can simultaneously form the bumper holder.

FIG. 3 shows an equivalent circuit diagram of the antenna combination according to the invention in accordance with the embodiment shown in FIG. 2. Again, parts and arrangements that correspond to those of FIG. 2 are provided with the same reference characters and are not explained again.

In Fig. 3, the individual antennas 4 , 5 coupling to the electric field are shown schematically by the sources 21 and 22 , the complex impedances 23 , 24 corresponding to these individual antennas 4 and 5, respectively. The individual antenna 11 coupling to the magnetic field is represented in FIG. 3 by the source 25 , the complex impedance 26 corresponding to this individual antenna. The complex impedance 27 represents the terminated impedance of the radio receiver via the coaxial line 6 or 6 'and 6 ''transformed.

The coupling to the electric field single antenna 4 with the source 21 and the complex impedance 23 is to the other, to the electric field coupling antenna 5 with the source 22 and the complex impedance 24 in parallel ge, while the coupling to the magnetic field antenna 11th is connected in series with the source 25 and the complex impedance 26 to the individual antennas 4 , 5 coupling to the electrical field. The complex impedance 27 representing the radio receiver is also connected in parallel to the parallel switched th, coupling to the electric field individual antennas 4 , 5 .

With the circuitry shown schematically in Fig. 3, the complex antenna impedances 23 , 24 and 26 and the transforming, a quarter wavelength long line parts 6 'and 6 '', and a suitable transmission ratio of the transformer 14 , is a compensation in a special advantageous manner the blind components at connection 7 (see FIG. 2) of the antenna combination nation possible. The blind components of the complex impedances 23 and 24 can be defined with extension coils and / or roof capacities of the antennas. The complex impedance 26 , which corresponds to the coupling to the magnetic field individual antenna 11 , behaves like that of a folding dipole, which - as can be seen from Fig. 2 - by part of the body 1 , the two spacers 17 of a bumper and the outer conductor each of which is a quarter wavelength long coaxial line parts 6 'and 6 ''is formed. The complex impedance 26 of the coupling to the magnetic field individual antenna 11 is reduced in a particularly simple and advantageous manner in that, for example, the outer conductor of the quarter-wavelength long coaxial line parts 6 ', 6 ''by a conductive metal foil or by conductive wires guided in parallel at a distance is widened. The metal foil or the conductive wires are there at the respective ends of the coaxial line parts 6 'or 6 ''conductively connected to the outer conductor.

The antenna combination according to the invention is particularly suitable for integration into the bumper of a motor vehicle, both with regard to its efficiency and its electrical properties, and in particular through the possibility of creating the entire antenna structure now in one plane. Plastic bumpers on motor vehicles usually consist of an outer shell and an inner load-bearing structure, which is either part-shaped as a rigid plastic part, but can also fill the volume between the bumper and body as a foam core. In the embodiment of the invention shown in FIG. 1, this must be connected to the electrical field coupling individual elements or elements of these antennas equip the inner frame or even penetrate the foam core, which significantly increases the construction effort and in particular the assembly effort in the manufacture of the bumper. This additional effort can be avoided with the antenna combination according to the invention according to FIG. 3, since the entire antenna structure can now be arranged on a surface, for example on the inside of the outer bumper shell.

There is a version for the manufacturing and assembly process tion form of the antenna structure according to the invention advantageous and inexpensive if the entire An structure already in the production into an art fabric film is embedded and / or welded, such as this in the unpublished DE 42 15 659 A1 the same applicant. Repetitions To avoid this, reference is made to this registration sen.

Claims (29)

1. antenna combination with an electrically conductive structure ( 1 ) on which a substantially resonant circuit ( 9 , 10 ) is formed, and with at least two single antennas ( 4 , 5 ) that couple to its electric field, characterized by at least one further individual antenna ( 11 ), which couples to the magnetic field of the resonant circuit ( 9 , 10 ). 2. Antenna combination according to claim 1, characterized in that the coupling to the electric field A zelantennen ( 4 , 5 ) on edges ( 2 , 3 ) of the electrically conductive structure ( 1 ) are provided. 3. Antenna combination according to claim 1 or 2, characterized in that at least two coupling to the electrical field individual antennas ( 4 , 5 ) are arranged at a distance of substantially half the resonance wavelength. 4. Antenna combination according to one of the preceding claims, characterized in that the output signals of the coupling to the electrical field coupling individual antennas ( 4 , 5 ) are added substantially in phase opposition. 5. Antenna combination according to one of the preceding claims, characterized in that the output signals of the coupling to the electrical field coupling individual antennas ( 4 , 5 ) via a high-frequency line ( 6 ) are switched in parallel. 6. Antenna combination according to one of the preceding claims, characterized in that the Hochfrequenzlei device ( 6 ) is substantially half as long as the resonance wavelength. 7. Antenna combination according to one of the preceding claims, characterized in that the Hochfrequenzlei device ( 6 ) is designed as a coaxial line. 8. Antenna combination according to one of the preceding claims, characterized in that the individual antennas coupling to the electrical field ( 4 , 5 ) are linear antennas. 9. Antenna combination according to one of the preceding claims, characterized in that the individual antenna coupling to the magnetic field ( 11 ) is arranged between the individual antennas ( 4 , 5 ) coupling to the electrical field. 10. Antenna combination according to one of the preceding claims, characterized in that the coupling to the magnetic field cal individual antenna ( 11 ) is a closed conductor loop. 11. Antenna combination according to one of the preceding claims, characterized in that the magnetic field coupling individual antenna ( 11 ) to the electrical field coupling individual antennas ( 4 , 5 ) is connected in series. 12. Antenna combination according to one of the preceding claims, characterized in that the magnetic antenna coupling to the individual antenna ( 11 ) in the middle of the high-frequency line ( 6 ) is connected. 13. Antenna combination according to one of the preceding claims, characterized in that the distance from the connection point to the coupling to the magnetic field individual antenna ( 11 ) to the coupling to the electrical field individual antennas ( 4,5 ) is essentially a quarter of a resonance wavelength. 14. Antenna combination according to one of the preceding claims, characterized in that a transformer ( 14 ) for connecting the coupling to the magnetic field single antenna ( 11 ) is provided in series with the individual antennas coupling to the electric field ( 4 , 5 ). 15. Antenna combination according to one of the preceding claims, characterized in that the individual antennas ( 4 , 5 , 11 ) are shortened antennas. 16. Antenna combination according to one of the preceding claims, characterized in that the individual antennas ( 4 , 5 , 11 ) have extension coils and / or roof capacitances. 17. Antenna combination according to one of the preceding claims, characterized in that the electrically conductive structure ( 1 ) is part of a vehicle body, and the individual antennas ( 4 , 5 , 11 ) are vehicle antennas. 18. Antenna combination according to one of the preceding claims, characterized in that at least two coupling to the electrical field individual antennas ( 4 , 5 ) at the corners ( 2 , 3 ) of a bumper, a vehicle roof, a trunk lid and / or a hood are arranged are. 19. Antenna combination according to one of the preceding claims, characterized in that the Hochfrequenzlei device ( 6 ) is arranged as a coaxial line at a distance from the body ( 1 ), and that the outer ends of the outer conductor of the coaxial line ( 6 ) with the body are connected. 20. Antenna combination according to one of the preceding claims, characterized in that the transformer ( 14 ) is arranged in the center of the coaxial line ( 6 ) and that its primary winding ( 15 ) connects the outer conductor and its secondary winding ( 13 ) connects the inner conductor. 21. Antenna combination according to one of the preceding claims, characterized in that the transformer ( 14 ) has a winding ratio not equal to 1. 22. Antenna combination according to one of the preceding An sayings, characterized in that the antenna combination tion is arranged in one plane. 23. Antenna combination according to one of the preceding An sayings, characterized in that the antenna combination tion is integrated in a bumper. 24. Antenna combination according to one of the preceding An sayings, characterized in that several individual compos elements of the antenna combination in one piece from an elec tric conductive arrangement exist. 25. Antenna combination according to one of the preceding claims, characterized in that the high-frequency line ( 6 ) is a strip line. 26. Antenna combination according to one of the preceding claims, characterized in that the outer conductors of the coaxial line used as high-frequency line ( 6 ) are connected to at least one conductive film and / or a conductive wire for widening and / or lengthening the outer conductors. 27. Antenna combination according to one of the preceding An sayings, characterized in that the electrically lei tende arrangement in at least one electrically not lei tendency film is embedded. 28. Antenna combination according to one of the preceding An sayings, characterized in that the antenna combination tion is provided in and / or on a foam core. 29. Antenna combination according to one of the preceding An sayings, characterized in that at least part the antenna combination using a thermoforming process rens is embedded in a plastic film.