DE759650C - Circuit arrangement for DF antennas with high antenna effect - Google Patents

Description

Circuit arrangement for DF antennas with high antenna effect when receiving with directional antennas there is always the simultaneous reception of undirected voltage annoying, since the minimnm is clouded thereby. In the case of destination flight receivers, it can even do so a wrong course display arise, namely when the phase of the auxiliary antenna voltage is not exactly the same phase of the frame voltage. It's the possibility of Elimination of the omnidirectional voltage known by grounding the frame coupling coil at such a point where the fields of the undirected stresses resulting currents i1 and i2 cancel each other out (see Fig. I). Then it's at the bars deis Rohres the undirected tension ineffective, while the directed tension, which causes the current i, is not weakened. With DF receivers it is zn For this purpose it is common to ground the center of the coupling coil. Through the always available Small asymmetries will still transfer part of the turbidity voltage, see above that the minimum must be sharpened. For destination flight receivers with frame shift keying it is not possible to ground the center of the coupling winding. So far one has therefore the frame center grounded, or you have accepted the cloudiness and the bearing errors subsequently eliminated. Furthermore, devices for receiving are electrical Waves, especially known for determining the direction, in which the effect of the electric fields on a rotatable receiving coil (antenna effect) to produce a sharp bearing effect by symmetry is eliminated by especially when the coil is grounded, one or both poles of the coil or one or both Feeds to the high-frequency amplifier via capacitors or high-frequency resistors with the earth or with each other, with the middle of the high frequency resistances is grounded. This arrangement has the disadvantage that the provided for symmetry compensation The high-frequency resistances for the derivation of the high antenna currents are too large.

According to the invention is therefore in a circuit arrangement for DF antennas with Hochantneneffelt parallel to the poles one in the middle to derive the High antenna currents tapped coil switched. whose winding halves are dimensioned in this way and are connected so that they are low for the horn antenna currents and for the Bearing current represent a large resistance and that the resistance of the coil in Relation to the resistance of the DF antenna coupling inductance for the high antenna current or the bearing current is large or small.

Examples of embodiments of the invention are shown in the figures shown.

In Fig. 2 are parallel to the frame directly at the entrance of the receiver the inductances L1 and L2, which are magnetically coupled to one another as firmly as possible are. These are switched in this way. that the field of the current i, the field of the current i1 cancels the currents flowing away from earth it and i therefore only a small inductance find. The DF current i finds the coupled inductances L1 and L2 in series switched before. The throttle arrangement thus provides a resistance for the direction-finding current of size 4 # L when the spread is equal to Sull. In Fig. 3 is such a Coil Di- shown. It consists of two wound in parallel on a winding body Windings, with the beginning of one winding and the end of the other winding connected to one another and are connected to earth, while the other two ends are each connected to a connection line of the frame are laid. The following conditions must be met for effectiveness: 4 # L must be large compared to the frame coupling inductance.

The inductance for the currents i1 and i2 must be small compared to the Frame coupling inductivity. the tighter the coupling. the better to let yourself be meet these conditions.

If the receiver in question only works on one frequency, then is it is most favorable for the frame current i to tune the throttle.

The arrangement according to the invention can also be used for such receivers in which the high antenna effect of the frame is used.

Such an example is shown in Fig. 4. With the help of Thrush Dr. which can otherwise have the same training as that of Fig. 3. will the auxiliary antenna voltage at HA is taken from the frame.

In order to remove any remaining residual antenna voltage. the throttles Dr2 and, if necessary, Dr3 are switched on. The throttle is Dr2 so switched. that they have a small current for the frame current i and a small current for the auxiliary antenna current i1 and i2 represents a large resistance. In Fig. 5 is an embodiment the throttle Dr2 shown.

Analogous to the above, there is also a fixed magnetic coupling here Precondition.

This is achieved, for example. by the feed lines to form two paralles coiled windings on the same core to form the frame. For the frame current i, the fields cancel each other out, so that the resistance is small. For the high antenna currents i1 and 2, however, the choke forms a high one Resistance. The throttle Drs conducts directly at the receiver input, as in Fig. 2 and 3 described. the auxiliary antenna voltage to earth. The combination of the two Chokes Dr2 and Dr3 represents a voltage divider. The one high and one low reactance for the high antenna voltage. In the high reactance namely, the reactor Dr2 falls according to the voltage dividing ratio Dr3 to Dr2 from the high antenna voltage, so that practically the high antenna voltage at the receiver input is eliminated. You can of course other throttle arrangements, as described above, to create a T or .7 arrangement to increase the attenuation of the high antenna voltage turn on the line. Of course, the arrangement according to the invention can be used not only for frame antennas, but also for Adcock antennas as well use other directional antenna systems.

Claims (4)

P A T E N T A N S P R Ü C H E: 1. Circuit arrangement for DF antennas with high antenna effect, characterized in that parallel to the poles of the DF antenna a coil adapted in the middle to divert the high antenna currents is connected whose winding halves are dimensioned and switched are, that they are low for the high antenna currents and large for the direction finding current Represent resistance and that the resistance of the coil in relation to the resistance the DF antenna coupling inductance for the high antenna current or the DF current is large or small. 2. Circuit arrangement according to claim 1, characterized in that the choke arrangement of two arranged in the same winding sense on the same carrier tightly coupled windings and that the beginning of one winding to the End of the other is connected and this point is used for derivation, while the both other ends are on the DF antenna. 3. Circuit arrangement according to claim 1 and 2, characterized in that that in addition behind the coil arrangement according to claim I in the supply lines to Receiver one coil is switched on (Dr2, Fig. 4) and that these coils are identical Have winding sense and are firmly coupled to each other, so that they are used for the DF current or the high antenna currents represent a small or large resistance. 4. Circuit arrangement according to claim 1 to 3, characterized in that that further throttle arrangements according to claim I and 3 to create a T or s arrangement are switched into the line. ~~~~~~~ To delimit the subject matter of the invention From the state of the art, the following publications are considered in the grant procedure been drawn: German patent specifications No. 436 309, 635 850.