DE881223C - H-Adcock antenna for short and ultra-short waves - Google Patents

Description

The invention relates to H-Adcock antennas for direction finding of short and ultra-short waves. As is known, these exist in the case of a rotatable design made up of two vertical dipoles, which are connected against each other via horizontal connecting lines are connected to the direction finder and in this way one for the minimum bearing result in a suitable directional diagram. In the case of the fixed version, there are several Dipoles evenly spaced around the circumference of a circle and across horizontal ones Connection lines connected to the excitation system of a gonioma.

In order to obtain a mechanically stable structure, the horizontal ones are used Support arms of the dipoles, which are rigidly connected to the counter axis of rotation or to the support mast are made as metal tubes and lay the connecting lines of the dipoles in the Inside of these tubes.

It has now been shown that when bearing very short waves, the Support tube through horizontally polarized components of the DF field in electrical Vibrations are displaced and in turn generate a return field, which acts on the dipoles and gives rise to bearing errors. Because of this, it has already been proposed that serving as support arms metal pipes in the axial direction by insulating pieces to subdivide electrically.

This enabled a significant reduction in polarization errors can be reached under unfavorable bearing conditions. On the basis of further investigations to suppress the remaining bearing errors, it is proposed according to the invention, the metallic support tubes, which are split in the axial direction, at the separation points To connect ohmic resistances together. When the individual tubular parts the support arms are structurally combined with the insulating pieces, then one uses concentrated ohmic resistances to bridge the separation point, which are expedient be housed inside the support arm. But it is also possible in place of the insulating pieces to use sleeves made of a suitably selected resistance material.

An embodiment of the invention is shown in the figure. The dipoles I and 2 are with the help of the insulating body 3 and 4 on the horizontal Support arms attached, which are made of metal tubes.

The electrical connection lines are located inside these metal pipes and are shown in dashed lines in the figure. To the flow of disruptive The metal pipes 5 and are to be stopped as much as possible behind the flow on the support arms 8 according to the older proposal by insulating pieces g, 10 electrically from the cross head I3 separated, the ~ sitting on the vertical axis of rotation 14 of the H-Adcock antenna. These Axis of rotation, which are also electrically subdivided by an insulating body 15 can is stored at points I6 and I7. At its lower end is the handwheel r8 for operating the antenna.

In the center of the handwheel step through the inside of the as well tubular axis of rotation guided out lines and are attached to this Place z. B. connected to the input circuit of the DF receiver via slip rings.

According to the invention, the insulating pieces9 and IO are now ohmic Resistors 6 and 7 bridged in the order of magnitude of about 70 ohms.

These resistances are outside the metal tubes for the sake of clarity drawn, but are useful in the actual execution within the Metal pipes arranged.

The mode of operation of the invention can be imagined that the two horizontal metal pipes, as long as they are not connected to each other by resistance are connected, still act capacitively on each other at the separation points and therefore none for the complete suppression of bearing detectors. sufficient blocking of the Man tel currents cause.

When the resistors are switched on, these currents become effective attenuated, and also their phase is rotated in such a way that they are no longer bearing errors, but cause slight clouding of the bearing, which are of course compensated for can.

In Fig. 2, dimensional curves are shown, which for an elevation angle of 200 the course of the bearing error; f show for different polarization angles. The solid curve a was measured for the case that the entire support arm consists of a continuous metal tube. The dashed curve b shows the corresponding measured values for the case of electrical separation of the support arms on the Cross head - by insulating pieces. The dash-dotted curve c finally shows that when using the bridging resistors according to the invention, the remaining DF errors are practically negligible.

PATENT CLAIMS: I. H-Adcock antenna for the bearing of short and ultra-short shafts, characterized in that the metal tubes designed as metal tubes and inside the connecting arms of the dipoles leading to the Dipoles divided in the axial direction and the separation points by ohmic resistances are bridged.

Claims (1)

2. I-Adcock antenna according to claim I, characterized in that when using insulating pieces for the mechanical connection of the individual parts the support arms concentrated ohmic resistances, preferably inside the support arms, between the separation point of the metal pipes are switched on. 3. lEI-Adcock antenna according to claim I, characterized in that the individual pipe parts by means of collars made of a suitably selected resistance material are connected to each other.