DE734910C - Arrangement for generating an in-phase auxiliary voltage for clearing and / or determining the side of a DF system - Google Patents

Description

Arrangement for generating an in-phase auxiliary voltage for -die Clearance and / or side determination in a direction finding system. A gohiometer has already been installed Proposed for DF purposes in which the centers of the field coils are high-frequency are grounded and with the i-m goniometer one or more additional coils in this way are arranged that in them a voltage due to the currents flowing to earth is caused, which can be used for determining the side and / or clearing the cloud.

In the practical use of such goniometers, however, has shown, especially in the shortwave area, that the phase relationships between the bearing voltage and the auxiliary voltage according to the various natural waves of the effective antenna systems, the radiation coupling between the individual antennas and the mutual inductance between - the individual field coil halves in the event of a change the recipient reconciliation also change.: In order to eliminate these disadvantages, was proposed a phase-locked capacitor in the grounding line of the field coil centers to provide, the capacity of which is controlled depending on the receiver tuning will. It has also already been proposed to convert this phase-locked capacitor into one to place the Æwisehenkreis excited by the auxiliary voltage.

In both cases, the phase control capacitors can either over Cams or the like are actuated by the tuning device of the direction finder or sit directly on the tuning axis of the DF receiver and with one of the Corresponding plate section must be provided for the required correction course. Both However, the options listed require an expense that is undesirable in terms of manufacturing.

According to the invention, it is therefore proposed with direliter coupling of the capacitor for the phase control with the tuning axis of the DF receiver Select the plate section as for the tuning capacitors of the DF receiver (e.g. as for the tuning capacitor of the oscillator in heterodyne receivers) and its final capacity to be dimensioned sufficiently small so that the Desired correction process after compensation of a part or all of its capacitive Resistance is achieved by a series-connected self-induction.

The invention will now be explained with reference to the figures will.

In Fig. I, the goniometer described above is shown first. The field coils P1 and F2 are wound on a ring made of ferrous material in such a way that that the bearing currents are a river emerging from the ring and that of the vertical antenna effect originating, flowing to earth currents provide a ring flow. The search coil S is set to the minimum of the resulting bearing flow in a known manner. There are also four auxiliary windings H1 bis connected in series on the ring body H4 provided, which are excited by the ring flow and one for side determination and! Or Supply usable auxiliary voltage to clear the turbidity.

The phase correction of this auxiliary voltage is carried out according to Fig. 2 a variable capacitor C1 in the ground line of the field coil centers. In the picture only one field coil and only one auxiliary winding H is shown. The search coil S is drawn outside the goniometer for the sake of clarity. The phase-locked capacitor Cj is coupled to the tuning capacitor C of the DF receiver.

According to the invention, this coupling now takes place directly, i. H. without the interposition of cams etc. The plate clamp of the capacitor CX is chosen the same as that of the capacitor C2, only the capacitor Ci is like this dimensioned so that it has a sufficiently small final capacity so that by interaction the desired correction course is achieved with the coil L lying in series. In practice there are of course limits to the reduction in size of the capacitor Cl, because at least one pair of plates must be used and the plate distance to the Avoidance of disruptive stray capacities should not be chosen too large. aside from that Even the requirement of the temperature ion dance does not allow an arbitrary reduction in size of the capacitor. A practically sufficient approximation is also in unfavorable Cases achieved with final capacities of around 50 to 6o p.F.

An equally good phase correction is achieved if you work in parallel a series circuit of a self-induction L and to the phase-locked capacitor a capacitance C0, as shown in Fig. 3. By appropriate choice the number of plates of the variable capacitor C1 as well as the self-induction and the phase capacitor CO it is then possible to measure the reactance curve over a certain frequency range even with larger c-n N values for the final capacitance of the capacitor, that over the entire range the phase of the auxiliary voltage for the clouding against the bearing voltage is offset by 90 °.

It should finally be noted that the applicability of the inventive idea not limited to the method shown in Fig. I for generating the auxiliary voltage is.

In the embodiment of the invention shown in Fig. 4, the Auxiliary voltage through the currents flowing in the earth line of the field coil centers via a transformer Ll, L .. connected to this line. whose Primänvielilung acts at the same time as a series coil for the phase-locked capacitor. The rest of the arrangement is as shown in Fig. 3.

The invention is also applicable in a similar way to direction finding systems with a portable ride-on antenna system applicable.

Claims (3)

PATENT CLAIMS: I. Arrangement for generating a phase correct Auxiliary voltage for clearing and / or determining the side of a DF system, in particular a goniometer bearing system, taking advantage of the vertical antenna effect the directional antenna system originating, flowing to earth currents, characterized in that, that when using a directly coupled with the tuning device of the receiver Capacitor for phase control of the auxiliary voltage of this capacitor the same Plate section like the tuning capacitors of the DF receiver and that the Its final capacity is small and either all or part of its capacitive resistance is compensated by a self-induction. 2. Arrangement according to claim I, characterized in that the goniometerpeilanlagell the phase-locked capacitor is in the grounding line of the field coil centers. 3. Arrangement according to claim I and 2, characterized in that parallel to the phase-locked capacitor, a series connection from a self-inductor and a capacitor.