DE713633C - Facility for determining the side of the bearing - Google Patents

Description

Device for determining the direction of the bearing Um in a direction finding system with a double-circle directional diagram, the target side can be clearly identified it is known to be necessary to the tension of the directional antenna (frame, cross frame goniometer and the like) to add a non-directional voltage in or out of phase so that, Uals resulting reception diagram a cardioid arises. Since the frame EMF and the EMF of the omnidirectional antenna are 90 ° out of phase with each other, it is necessary to the receiving voltages of these two antennas, which are in the input circuit of the DF receiver become effective, in phase or out of phase with additional phase control elements do. Various arrangements are already known for this purpose.

For example, the loop antenna or the omnidirectional antenna or both antennas can be tuned, whereby it is then easy to use the Phase changes occurring close to the resonances in order to achieve the correct phase relationships to take advantage of.

However, it is generally undesirable to use the antenna systems vote, as this creates difficulties in synchronism with the recipient appear. Another possibility for phase rotation is to use a Pre-tube for the voltage of the omnidirectional antenna. However, this requires one considerable additional effort and is aging and fluctuations in operation down front.

For this reason, the phase rotation was previously the undirected Voltage mostly with the help of an ohmic resistance in the circle of the linear antenna causes. Such an arrangement is shown in Fig. I.

It means R the loop antenna, which is connected to the transformer via the Ü by means of the capacitor CA the input circuit of the tube R is connected is. The non-directional antenna is located above the phase register resistor W on the input circuit the tube. The resistor W is used to determine the secondary coil of the transformer Ü Undirected voltage becoming effective in the phase position of the directional voltage turned. The disadvantage this arrangement consists in dt \ as a result the ioteutiometer effect between the resistance 11 'and the impedance in the circuit very low in-phase voltage is obtained in the tube. The more precise namely, the phase relationship is to be maintained, the greater the resistance must W and the lower the effective auxiliary antenna voltage as a result in the input circuit of the DF receiver. Because of this, it is especially useful when using of omnidirectional antennas with a low effective height no longer possible, pure To form cardioids. and so far one has been content with such an amplitude ratio len in the two switching positions of the cardioids, which is the clear one Recognition of the correct bearing side is just enough.

In accordance with the present invention, there is an improvement on this circuit suggested by the receiving voltage of the omnidirectional antenna with the help of a Ohmic resistance only rotated so far into the phase position of the directional antenna voltage is that as large as possible, in phase with the directional antenna voltage or in phase opposition Component is obtained, with the remaining component out of phase by go is compensated by a counter voltage supplied by the same linear antenna.

FIGS. 2 to 4 show exemplary embodiments of the inventive concept shown.

Identical parts in the various illustrations correspond each other, the omnidirectional antenna is again connected to the input circuit via a resistor W of the direction finder connected. However, this resistance is now measured in such a way that that not a perfect equivalence or contradiction. between that of him in The voltage coupled to the input circuit occurs with the directional antenna voltage, but that a 90 ° phase-shifted residual component remains. This 90 ° out of phase Residual component causes the cardioid diagram to become cloudy. To eliminate this Turbidity is now tapped from the resistor W, a compensation voltage that over the capacitor C of an overwinding of the coupling coil or the input coil of the DF receiver is supplied. The amplitude of this counter-voltage is dimensioned in such a way that that the component of the auxiliary antenna voltage which is 90 ° out of phase with the directional antenna voltage is being compensated.

By making better use of the auxiliary antenna voltage, as it is through the present invention is achieved there is the possibility of a looser Coupling. so that the infrequent determination usually reduced to - @@ nden upsets which also improves the side-to-bearing maximum ratio.

Another embodiment is shown in Fig. 3, in which the compensation voltage tapped off by the resistor W via a self-induction L is fed directly to the coupling coil or the input coil of the receiver. A Fig. 4 shows another exemplary embodiment, namely a self-induction here and a round capacitor in combination with the resistor 11 '- used.

Claims (4)

P A T E N T A N S P R Ü C H E 1. Device for determining the side in the case of a DF antenna with a double circle diagram with the aid of an omnidirectional antenna, whose received voltage is rotated in phase by means of an ohmic resistor is, characterized in that the auxiliary antenna voltage through the phase control resistor is rotated only so far into the phase position of the directional antenna voltage that a large component that is in phase or out of phase with the directional antenna voltage occurs and that the remaining voltage is 90 ° out of phase with the directional antenna voltage Component of the auxiliary antenna voltage by one supplied by the same auxiliary antenna Counter-tension is compensated. 2. Device according to claim 1, characterized in that the compensation voltage tapped from the phase control resistor and via a capacitance to an overwinding the coupling coil or the input coil of the DF receiver is performed. 3, device according to claim 1, characterized in that the compensation voltage tapped from the phase control resistor and via an inductance of the coupling coil or fed to the input coil of the receiver. 4. Device according to claim I, characterized in that the compensation voltage tapped from the phase control resistor and at the same time via a capacitor a Overwinding of the coupling or input coil and an inductance of the coupling or an input coil itself is supplied.