DE705480C - DF frame antenna - Google Patents

Description

Peilrahmenantenne The present invention - relates to a Peilrahmenantenne small HochantennLeneffekt.

As is well known, the directional diagrams of loop antennas only correspond then the calculated one, if it succeeds in eliminating the high-antenna effect of the frame. Various means are known for achieving this end. Frame and input circle of the receiver can be set up symmetrically; the frame can be statically shielded and the frame leads can be grounded via differential capacitors will. Finally, the high antenna effect can also be caused by the receiving voltages vain auxiliary antenna can be compensated. The first-mentioned measures can However, the high antenna effect does not completely eliminate and must always be replaced by the last specified means, namely an auxiliary antenna, are compensated. The one needed Auxiliary antenna must have a certain effective minimum size in order to be in sufficient Degree to be effective. In many cases, however, it is annoying to use a large auxiliary antenna. For this reason, it is desirable to use the DF frame antennas with the lowest possible Create high antenna effect.

The high antenna effect of a frame of known design is used in essentially caused by the capacitive asymmetry of the two frame halves against earth or housing and through the frame leads, which are usually with a against Earth unbalanced circle are coupled.

According to the invention, therefore, a frame is used that does not have any has direct feed lines, but one (or more) self-contained Turn (s) exists, while the coupling by one (or more) the frame turn (s) surrounding ring coil (s) takes place.

In the case of the dipoles equivalent to the loop antennas, it is already known per se to carry out the coupling by means of a ring coil surrounding the dipole; however, this measure is not based on the reduction of the high antenna effect. The connection with the receiving device is made as shown in Fig. T via a coil that surrounds the frame winding in a ring shape. It can also b two symmetrically arranged - he used coils. as shown in Fig. 2. The high antenna effect can be further reduced by static shielding of the toroidal coil or the toroidal coils and connection of the shielding to earth or to the housing.

A further reduction in the high antenna effect is in itself As is known, achieved if the loop antenna is symmetrically grounded or with connects to the housing. The earth point of the frame turns is then symmetrical the ring coils (Dep. 2; bz «-. symmetrical to the ring coil lFig. 3 @.

The ring coils are expediently in a coordinated circle. the acts on the grid of a tube (Fig. 2 t between frame and grid circle. so the core of the toroidal coil can be made of iron or a low-loss one. Iron-containing material K can be formed.

By using two identical toroidal coils, zti both sides the grounding point of the frame, the column arrangement can be set up symmetrically will. The two toroidal coils are then asymmetrical to the grounding point and are therefore have a low antenna effect; however, by suitable interconnection of the two coils restored the symmetry, so that the in the two Ring coil halves through the high antenna do not compensate for induced voltages. By reversing the polarity of the connections of a ring coil, you can learn from the case of a high antenna defect-free Frame can be passed over to the case of a frame-effect-free high antenna. These Appearance can be used to create a reflector around the frame to compensate caused high antenna effect, without the aid of a special auxiliary antenna.

If the loop antenna is used to receive a large wave range, So it is practical to use the toroidal coil with different tapping or switchable To provide turns. Of course, there can also be special ones for each wave range Ring coils are used.

To achieve special directional effects, the erindungsgcni: il. @ C Loop antenna. which has no or only a very low antenna antenna can be combined with one or more identical or similar antennas. It can serve as both a receiving and a transmitting antenna.

In Fig.3, R represents the frame and IV represents the winding. at E the frame windings are grounded svinmetrically to the ring coil.

Claims (7)

1 '- \ - ri: @ @s i, izi: Clii. :: i. DF antenna with a small high antenna effect, consisting of one or more turns, characterized in that the turns 1 is (are) self-contained and the coupling through one (or more 1 die Frame ring coil (s) takes place. 2. Peilrahinen: uitenne stach claim t, characterized in that that the ring coil is statically shielded and the shielding to earth or to the housing lies. ;. Peilrahmenantennc according to claims i and 2, characterized in that the Frame winding in the middle of the ring coil or two ring coils grounded or with connected to the housing. 4 .. Peilrahmenantenn.e according to claim i to 3, characterized characterized in that the toroidal coil has a core made of iron or ferrous material owns. 5. DF frame antenna according to claim i to 4, characterized in that two similarly and symmetrically constructed ring coils are provided, which are parallel or connected in series. 6. DF frame antenna according to claim i to 5, characterized in that one or more toroidal coils are connected to the connection lines polarity can be reversed. 7. DF frame antenna according to claim i to 6, characterized in that that the toroidal coils contain various windings that can optionally be switched on or over.