DE708522C - Transmitting device for generating a beacon - Google Patents

Description

Transmission device for generating a beacon It is wireless Transmission technology known, a vertical bundling of a radiation diagram thereby make that several dipoles fed at the same time are placed one above the other in in a row.

Furthermore, devices for generating guide beams are through alternating radiation of ultra-short waves in two different directions below Use of two by a switching device alternating with a common one Vibrator of connected dipoles known; where the dipoles are defocused before, a common reflector are housed.

The generation of a guide beam with a device of this type goes on in such a way that from the common reflector, alternately once the radiation of one dipole arrangement (dipole line) and then that of the other Dipole, anordaung (dipole line) is reflected. It is of the utmost importance while one dipole line is being fed, the other dipole line is electrically complete to render ineffective. If this does not happen, the radiation-coupled dipole line a diagram deformation and thus a guide beam shift whose size depends on the degree of electrical effectiveness of this unpowered dipole line depends.

There are basically two different ways to feed dipoles, the stream. and the power supply. In Fig. I and 2 these are two types of Feed shown. In each case, D means the dipole radiator with the one at the feed points Sp , connected feed line L. The current distribution along the dipoles is. schematic through the drawn out curves! and the voltage distribution by the dashed Curves U shown.

As you can see, the ½ long dipole in Fig. 1 is in the puff of current fed, the dipole of length i as shown in Fig. 2 in the voltage curve. Accordingly the former dipole is referred to as current-fed and the other as voltage-fed.

For decoupling the individual dipoles of different radiator systems In the case of a beacon transmitter with a fir tree-bamboo dipole arrangement, it is known the dipoles to be decoupled in a straight line passing through their longitudinal axis to be arranged, taking advantage of the fact that the dipoles are not in the axial direction shine. To reduce the influence of asymmetries in the feed line Current-fed dipoles are preferably used.

However, this type of decoupling cannot be used with two dipole rows should be arranged defocused in front of a common reflector, since then the Dipole rows lie next to each other to achieve different main ray directions have to. In this case, measures must be taken at the dipoles themselves, to make them electrically ineffective. For this purpose it is known for voltage-fed Dipoles between the feed points of the dipoles switched off by the transmitter to produce zero resistance.

In practice, however, the voltage supply of dipoles has disadvantages. This is because the dipoles are not fed by the supply points If the reflector property is taken, then no in-phase oscillations could be possible insist more on the dipole halves, but form because of the practically always present I asymmetry in the geometrical arrangement of oscillations in phase opposition on these two halves, which can only be reached with great difficulty and with complicated means u'i have it done. In addition, these geophasic vibrations can also still be distributed asymmetrically on the two dipole halves. The bottom line is In any case, there is an unwanted shift in the directional diagram.

According to the invention, a device is provided to avoid this disadvantage to generate a beacon by alternately sending out two, partially overlapping beam with the help of two in front of a common reflector defocused housed current-fed dipole lines proposed in which between the feed points of each individual dipole of the dipole line that is not fed the input resistance is infinite (seen from the dipole).

According to the invention, the individual dipoles are supplied with current electrically ineffective by placing between their feed points in per se known Way the input resistance is created infinitely. This results in the significant advantage that an extremely good decoupling of the two dipole lines is achieved because the two dipole halves are completely out of resonance.

Practical tests have also shown that the vertical bundling as well as the range and effectiveness of the radiation do not suffer any significant losses, if with current-fed dipole rows with dipoles directly next to one another every other dipole is omitted.

According to the further earth connection, they are therefore supplied with electricity Dipole rows every second powered dipole omitted, d. H. the individual dipoles of each dipole line are measured from each other, measured between successive feed points, arranged at a distance of about z.

Fig. 3 shows this arrangement in detail: There is one in it Diipole line shown, which consists of three current-fed dipoles. This dipole line has about the same effectiveness as a line in which the dipoles D 'are also present silrd. The leads of this latter arrangement are shown in dashed lines and denoted by L '. The same effectiveness of the arrangement drawn out in the figure (L, D) is indicated by the fact that around the individual dipoles D are thin, elliptical Envelope lines are drawn. With this arrangement, therefore, there is a large one Saving on dipoles, associated feed lines and connections.

STATENT CLAIMS: 1. Transmitting device for generating a beacon by alternately emitting two, partially overlapping beams of rays with the help of two alternately powered, in front of a common reflector defocused under. brought dipole lines, characterized in that between the feed points of each individual dipole of the dipole line that is not fed the input resistance is generated infinitely.

Claims (1)

2. Device according to claim, characterized in that the dipoles of the dipole rows from each other (measured between successive feed points) have a distance of about i.