DE767599C - Method for determining direction - Google Patents

Description

Method for determining direction Addition to patent 767 354 The main patent relates to a method for determining the direction by means of a rotating radio beacon, which sends out the specific identifier depending on the respective azimuth. At the receiving location Both the field strength curve of the rotating radiation and that of the radiation passing through it become Angular degrees of the rotating radiation continuously marking their mark Correspondingly, the value is written directly on top of each other.

In the main patent, the suggestion was already made for labeling of the azimuth of the directional radiation passed through (guide beam diagram) or the Zero this radiation a second transmitter and a second, with which to generate of the guide beam available synchronously rotating antenna system, whose The radiation maximum coincides with the minimum of the guide ray diagram (characteristic diagram).

Since it is necessary on the receiving side to regulate the Sensitivity of the receiver, the field strength is dependent of the distance from the transmitter, the directional antenna systems must those used to generate the guide beam and the if-sign diagram are used, Generate radiations of a certain course of the diagram in order to ensure a perfect, automatically to ensure effective regulation. As stated in earlier patent 67,534. it is necessary for such a regulation that the racing character diagram a has greater width, d. H. fills a larger radiation sector than that Beacon diagram. This case is shown in Fig. I, in which the field strength values E are above the angular degrees co are shown. The beacon diagram consists from the two main lobes a and b and the adjoining secondary lobes d and e as well as any other secondary radiation. The identification diagram is labeled c.

In order to control the receiver, the first secondary lobe d or e des To be able to use the guide beam diagram, it is necessary that the identification diagram, which, as already mentioned, must have a greater width than the guide ray diagram, if possible has no side lobes, d. H. the radiation amplitude should gradually decrease from the maximum to a value of zero.

From this knowledge, the invention sees a directional antenna system before that the two conditions mentioned above, namely the required width of the indicator diagram with sufficient radiation concentration on the one hand and the freedom from tips of this diagram, on the other hand, is fulfilled. Such a directional antenna system has already been suggested elsewhere and consists of a radiator arrangement, which is located in front of a flat metal mirror, this metal mirror through metallic side plates are limited, which are at an obtuse angle to the mirror walls are set. A convenient angle to wipe the mirror wall and side panels is about 1200. Experiments have shown that this radiator structure the above Requirements met in an ideal way, so that one actually has a radiation path obtained, as shown in Fig. I, according to c.

In Fig. 2 the two directional antenna systems are shown, of which the upper one, marked I, for generating the characteristic diagram, the lower one, marked II, is used to generate the guide beam diagram. The light antenna system to generate the license plate radiation consists of the flat metal mirror t and associated side panels g. Inside this mirror there are three about one Wavelength s ») long radiators, which have a mutual distance of about 1/2. These emitters are fed in the usual way. The dimensions of the reflector are such that the rectangle formed by its outermost border is the votl The area occupied by the single dipoles is about; ./ protrudes on all sides. In Fig. 2 is also the antenna system II required to generate the guide beam diagram shown.

It consists of two radiator groups fed in phase opposition. The parts ii and k indicate a support structure for the dipoles. in Fig. 3 is a plan view of the system shown in Fig. 2. From Fig. 3 it can be seen at the same time, that instead of a reflector made of .NIetallblech for the system I can use a reflector system made of wire mesh.

PATENT CLAIM j: CHE 1. The use of a directional spotlight whose Reflector made up of a flat metal mirror and metallic side plates that are underneath are attached to the mirror wall at an obtuse angle the identifier in the method for determining direction according to patent 767 354 the field strength curve of rotating radiation at the receiving location as well as also the the traversed angular degrees of the rotating radiation continuously Marking marks are written directly on top of each other according to their value will.

Claims (1)

2. Directional spotlight according to claim I, characterized in that the Angle between the metallic side plates and the flat metal mirror approximately I20 °. 3. Directional spotlight according to claims I and 2. characterized in that that in front of the metal mirror there is a radiator arrangement composed of individual dipoles, in particular a triple dipole antenna is located. 4. Directional spotlight according to Claims I to 3, characterized in that that the largest square (rectangle) formed by the border of the reflector the Area occupied by the individual dipoles by about a quarter of a wave length on all sides towers.