DE872379C - Low-interference receiving antenna - Google Patents

Description

Low-interference receiving antenna It is a low-interference receiving antenna has been proposed in which the receiving probe preferably by one, e including arranged conductive surface with defined P: ot-ential, preferably earth potential, is shielded against interference fields. It has also been suggested through spatial Additional probes combined with the receiving probe, which essentially only deal with the interference field are set to compensate for the interference voltage.

According to the invention are now in a further embodiment for the shield the receiving sand has one or more dipoles with a defined potential, preferably Earth potential, provided in a suitable position to the interference field and to the receiving probe, z. B. below the same. According to a further development of the invention, Störfeldantennlen also for the compensation of the interference voltage picked up by the received sin Dipoles are used, their interference voltage by means of a compensation circuit against the receiving probe is switched on.

In the case of the first-class embodiment, with a receiving probe shielded from interference fields by the dipoles, at least one can also be spatially combined with the receiving probe and essentially. the interference field exposed additional antenna of another type can be provided for the compensation, z. B. in the form of a loop antenna. In the second-mentioned embodiment with a receiving probe in compensation circuit with the dipiols, a conductive surface with a defined potential, e.g. B. a wire mesh, 'be provided for the shield. It is possible also such an arrangement that at least one dipole lind causes the 'shielding mitdestens another _D.i # ol <Ue compensation.

A further development of the invention aims to be particularly advantageous Formation of the antenna in a receiving device for radio broadcasting: that for reception of all waves from VHF-B: range to long-wave range is established. According to the invention ... the arrangement is made in such a way that # at least one for the shielding o # Dipole provided for the compensation also for the reception of the waves Ües Ul # W range iciTigericht is and the receiving probe for the reception of waves of the rest Areas. It is particularly useful for connecting the dipole and the receiving probe with the associated receiving devices a common connection line, e.g. B. a two-wire, shielded antenna cable., to. use. This will be at the beginning and at the end advantageously provided with a circuit which is suitable for the waves to separate the VHF area from those of the other areas; it is then a simultaneous one or alternating reception in different wave beer areas with the same Antenna arrangement possible. The circuit is appropriate for the VHF range on Input and output of the line symmetrically and asymmetrically for the other areas. The circuit Im = for the crossing of the areas also contain electrical signals.

The invention and the details belonging to it are explained in FIGS. 1 to 6, for example.

Fig. I shows the overall circuit of the 4-way antenna with its feed line and the receiving devices connected to it. Üh principle shown. The receiving probe is marked with i and is essentially set up for receiving dull short, medium and long wave ranges; 'It preferably has the shape of a vertically arranged steel antenna, which is at the tip with a sphere as a Spighs, chu # tz or a capacitance areaod. like. be provided kamn. It is suitable, also a Dmah # awerme, of the usual kind. With its center just beneath the base point of the receiving probe i lying, the Horizontaldipol 2 is further provided, which gegehenenfalls. is designed as a folded dipole according to the dashed line. It is in the middle of the matching transmission 3, which has a screen 4 between the primary and secondary windings for the screen; Connected to the two-wire, shielded antenna cable 5 , to whose output the VHF receiver 6 and the radio receiver 7 are connected # In place of the separate F-in receiver, a device is also suitable for both areas. The receiving station is i. connected asymmetrically via the antenna transmitter 8 to the beginning # of the antenna cable 5 and - the radio receiver 7 accordingly asymmetrically via the adapter transmitter 9 to the end of the cable. The FM receiver 6 lies with its input coil io symmetrically on the cable and thus of the dipole is located at the 2, DIE primary side of the transformer 9 via their tap ian the center tap of the input coil io, - -dgl. the secondary side of the antenna transformer 8 applied its tap to: the center of the secondary winding of the dipole transmitter 3. The dipole 2 is at a defined potential, preferably ground, potential,: 4i, in such a way that the primary coil of the transmitter 3 with its center tap over the cable jacket is attached to earth. This ensures that sources of interference, which are located below the antenna arrangement, vB inside the house on whose roof the antenna is located, are shielded by the dipole 2, so that they cannot, or only to a small extent, reach the receiving probe i . The arrangement enables the simultaneous or alternating reception of waves from the VHF range via dipole 2 and waves from the other areas via the reception area. i. Instead of the one VHF dipole 2, several of them can be used in a group arrangement; the individual dipoles can be interconnected by lines or radiation-coupled. The Eifmdung is therefore also with VHF antennas that with reflectors or directors z. B. are provided on the type of jagi antenna, applicable. An embodiment of this kind with a grounded reflector ii parallel to the dipole 2 is shown in Fig. 2. The receiving probe is expediently perpendicular to the center line between the Odem Dipo12 and the reflector i i.

In the arrangement according to Fig. 3 , two crossed horizontal diplexes 2 are provided as VHF antenna, with the receiving probe i positioned above the dents. The closed dipoles result in an improved shielding effect; They are expediently connected in the manner of a rotating field antenna, so that a phase shift of go 'is effected between the two via the 2/4 detour line 12. This antenna has no directivity # d in the horizontal plane. H. their directional characteristic is circular (omnidirectional).

In. Fig.4 is an AusEihrungsbeispiel, an arrangement is shown in which, in addition to the shielding by the dipoles 2, the z. B. are designed according to Fig. 3 , nedh a compensation antenna in the form of the ring antenna 13 arranged below is provided. This is connected to the receiving probe i via the transmitter 14 in compensation hold, so that interference voltages which are picked up by both antennas at the same time cancel each other out. The loop antenna. 13 should, if possible, not pick up the useful voltage from the transmitter, but only the interference.

In the antenna according to Fig. 5 , the dipoles 2 are not effective as a shield, but rather as probes connected to compensate for the interference voltage. In connection with this, a shield is useful, which in this case does not have the form of dipoles, but consists of a DTaht network 1 5 , which is connected to earth or is at another defined potential; it 4sits z. B. the shape of a truncated cone or basket, the larger opening area of which is at the top. Another embodiment of this type is shown in FIG. 6. Here, a horizontal wire antenna is provided as the reception sin i, which is shielded from interference fields by a wire mesh 16 with downwardly curved edges 17. The horizontal dipole 2 with its reflector ii is used for VHF reception, both of which are connected together as interference field antennas for the directional antenna and effect the compensation.

In a further embodiment, at least two different dipoles or dipole groups are provided for the receiving probe, one of which is used according to the invention for shielding and the other for compensation. The two dipoles or dipole groups are expediently arranged one above the other below the receiving end; they could be addressed differently, so that each from a different Recept, ngs, RIDH # tung different transmission - can accommodate r. The dipoles or dipole groups can also be coordinated differently so that each is suitable for recording a different frequency band and thus a different program, e.g. an acoustic performance and a television performance.

With: a dipole group it is possible to use part of the same for the Shield and another part for compensation.

Claims (2)

PATENT CLAIMS: i. Low-interference receiving antenna in which the receiving probe shielded against interference fields and / or their interference voltage is compensated, thereby characterized in that for the shielding of the receiving probe (i) and / or the compensation at least one dipole (2) in a suitable position to the interference field and to the receiving probe (i) is provided, e.g. B. below the same. 2. Antenna nadh claim i, characterized in that at least one dipole (2) for the shielding has a defined potential, preferably ground potential. 3. Antenna according to claim i or 2, characterized in that at least one dipole (2), spatially combined with the receiver sand (i) for compensation, is essentially exposed to the interference field and with its interference voltage by means of a compensation circuit against that of the receiving probe (i ) is switched. 4. Antenna according to claim i or 2, characterized in that in an arrangement with a by the dipole (2) against interference fields shielded .b receiving probe (i) still at least ue one spatially combined with the received sin (i) and essentially Additional probe exposed to the interference field, e.g. B. in the form of a ring array (13) is provided, the interference voltage of which is switched by means of a KompensationssCultung against that of the receiving sionde (i). 5. Antenna according to claim i or 3, characterized in that in an arrangement with a receiving, onde, (i) in compensation circuit with the dipole (2) still a preferably below the receiving probe 'i ) arranged conductive surface , 1 5, 1 6) with a defined potential, preferably earth potential, for shielding the receiving probe (ij is provided against interference fields. 6. Antenna according to one of claims i to 5 , characterized in that in, a receiving device for all waves from VHF -Range up to the long wave range at least one of the dipoles (2) is set up for the reception of the waves of the VHF range and the reception: probe (i) for the reception of waves of the remaining regions. 7. Antenna according to claim 6, characterized in, that for the connection of the dip ole (2) and the receiving probe (i) with the supplied; impaired receivers (6, 7) gemciiisame connecting line (5 '), such as a two-wire s, is provided shielded antenna cable.. 8. Antenna according to claim 7, characterized in that a circuit is provided at the beginning and at the end of the common connecting line (5) which is suitable to separate the wellons of the VHF range from those of the other ranges. G. Antenna according to Claim 8, characterized in that the circuit used to separate the areas has a symmetrical input and a symmetrical output for the VHF range and an asymmetrical input and an asymmetrical output for the other areas. i o. Antenna according to claim 8 or 9, characterized in that the circuit for the separation of the areas contains electrical switches. i i. Antenna according to one of Claims 1 to 10, characterized in that at least one dipole (2) is designed as a horizontal dipole, the connection point of which is preferably in the center of the dipole. 12. The antenna of claim ii, characterized denotes Ge, that at least one dipole (2) is formed as a folded dipole. 13. Antenna according to claim ii or 12, characterized in that the receiving probe (i) is designed as a vertical rod antenna which is preferably arranged above the center of the horizontal dipole (2). 14. Antenna according to one of claims i to 13, characterized by a dipole group. 15. Antenna according to claim 14, character- ized in that the dipole (2) is assigned at least one further dipole (ii. As a reflector or director) arranged parallel thereto. 16. Antenna according to one of claims ii to 13, characterized in that two crossed horizontal dipoles (2) are provided, between which a phase shift of g% is preferably effected, e.g. via a 2, 14 detour line (12) 17. Antenna according to claim 5, characterized in that the shielding surface is below the Receiving probe (i) is designed as a wire mesh (15) in the form of a truncated cone or basket, the larger opening area of which is on top. , 1 8. Antenna according to claim 1 5, characterized in that the vertical receiving probe (i) c> about: h # is arranged in the middle between dipole (2) and the associated reflector (ii) .ig. Antenna according to claim 16, characterized in that the vertical receiving probe (i) is arranged joberlialb of the intersection point & r crossed dipoles (2). o. Ant hen according to one of claims i to ig, characterized in that the dipole (2) is coupled to the connecting line (5) via a transmission carrier (3) , which preferably has a screen (14) for electrostatic screening between primary and secondary #vicklung owns. - 21. Antenna according to claim 2o, characterized in that the dipole (2) is grounded at the center tap of the transformer winding connected to the dipole, preferably by connection to the grounded cable jacket. 22. Antenna according to one of claims i to 21, characterized in that at the receiving sionde (i) at least two differently directed and / or differently tuned dipoles or dipole groups are provided, of which dex or one for the shielding and the or the other is used for compensation. 23. Antenna according to claim 14, characterized in that, in the case of a dipole group, part of the same is used for the shielding and the other part for the compensation. 24. Antenna according to one of claims i to 23, characterized in that the compensation circuit contains a transmitter (14) to which; on one side the receiving probe (-i) and on the other side at least one dip, c> l (2) or the interference field antenna (13) are connected in opposite phase.