DE636058C - Device for determining the direction of non-directional wireless high-frequency transmitters - Google Patents

Description

Device for determining the direction of non-directional wireless High-frequency transmitter It is known to be specific for vehicles, in particular aircraft Set courses by radio beacons by placing two fields at an appropriate angle be broadcast to each other. The methods known for this, regardless of whether using the so-called a-n method, d. H. a continuous wave process, or with a Modulation work with certain key tones in the angular spaces, d. i.e., general speaking, working with an intensity comparison allow a very sharp one Determining the course, however, have the disadvantage that the transport network is not universal can be trained. While it is possible to use the main lines of an air transport network to be marked in this way; however, it is usually not acceptable to have more than two or to equip three lines to one landing point. But there is in particular for those vehicles that do not regularly drive certain courses, the need Target trips to a certain landing point or port from all sides enable. It is also known for such cases to target the transmitter by the vehicle to the maximum or minimum of reception of a suitable directional antenna arrangement, which is housed in the vehicle, is controlled. It is particularly known here to work with two frames, which are optionally connected to a receiving device will. With this arrangement, the display instrument is switched over in the same rhythm, in order to enable the display of a right or left deviation from the course.

This method has the disadvantage that. it works with visual display, which is generally less sharp than the audio reception for the same effort.

Furthermore, it is known, in a system, a continuous wave on the Rotate landing point and z. B. a non-directional signal when crossing north admit. From the time difference between the undirected signal and the passage of the continuous line can then determine the angular space in which the vehicle is located will. By means of a second, later measurement, you can. then be determined if; the correct course has been followed. This method has the disadvantage that on the one hand it is difficult to handle and on the other hand there are major deviations must be admitted by the intended course.

According to the invention there is therefore a direction finding device for aircraft for directional determination of non-directional wireless high-frequency transmitters, in which intensity comparison is used on the receiving side; proposed, which is characterized in that the two halves of a short-wave dipole are used as individual antennas, the directional characteristic of which is determined only by the aircraft body. With such a receiving arrangement. Can be done with the an-, _ d, h. the continuous wave method ,, as: also with known tones, so, generally 'g, et speaking, riding -intensity comparison g-earb, ert'i- ,; will. The main advantage is #; # that the transmitter, since it works properly; can be controlled from all sides and no specific preferred directions need to be set.

In the attached Fig. I an example of an arrangement is shown, in which the a-n method is used at the receiving end. It is a schematic Airplane shown in which two antennas A1 and A2 are stretched. As an antenna system the short-wave dipole, which is already widely available today, is used, which, as in shown in the figure. To carry out the idea of the invention however, the short-wave dipole is separated in the middle and the two halves connected to the receiving equipment in a-to-n rhythm. For this purpose is in front of the Receiver switched to a Täeineinrichtung T, which is either a relay combination or contains a collector arrangement through which the right or the left Antenna A1 or 42 connected to the input circuit of the receiver E in an a-n rhythm will. As usual, the headphone I (.

The antennas A1 and A2, which are more or less directed in themselves, have through the aircraft body, since they are attached relatively close to it, not circular Characteristics, but appropriately distorted. You can also use the antennas if necessary, intentionally brace so that by the natural influence of the aircraft body a shielding or field distortion in one for the implementation of the inventive concept appropriate sense. takes place, z. B. the antennas not, as shown in the picture, hang in the middle higher than the upper edge of the fuselage, but on the side wall of the trunk. For the implementation of DF methods that work with field strength comparison it is in and of itself irrelevant which directional characteristic of the Antenna system is being worked. It is common today to use double circles or to work with more or less pronounced simple circles; for the # field strength comparison However, it only depends on the angle of intersection of two diagrams, regardless of which one 'The shape of the diagram in the rest of the way.

By 'the illustrated tactile device T is optionally, as before indicated, one or the other connected with the recipient. As a result of her Directional characteristics, the antennas only pick up the same energies if that Aircraft moves @_ towards the transmitter. At a . @? p @@; lweis Tastimg a continuous sound is heard in the @wpfangstelephon in the a-n rhythm. Is plane closed inclined in this direction, = tl. H. if it deviates from the course, the symbol prevails. of the right or left antenna system.

In principle, as already stated, all of them can be transmitted on the transmission side use known procedures. Another arrangement is shown in Figure 2. The antennas A1 and A2 are here via preamplifiers or rectifiers V with tube arrangements connected through which key tones are generated. There are two small tube generators I <1 and I (2- present, which generate 48 and 72 Hz, for example. The generated Frequencies are imposed on the grid circles of two tubes R1 and R2, their bias depends on the output energy of the amplifier V. Te according to the position of the Antennas A1 and 422 changes the grid bias of tubes R1 and 122, and thus the tones generated by 1 (1 and 1 (2 become more or less strong in the anode circle appear. It is here the received energy, as it is known on a special basis, with Known tones modulated. In the output circuit of amplifier N there is a tongue indicator Z, which contains two reeds that are matched to the key tones. Depending on the position Here, too, one or the other tongue will respond more or less strongly to the transmitter and thus the deviation from the course is displayed.

In the case of the device according to the invention, they are exactly the same Measures carried out as they were previously known in the a-n method, only with the difference is that the angular space of the special fields and the keying of the special fields has been relocated to another place, namely to the place of reception, whereby the whole System, as described at the beginning, becomes universal.

Claims (3)

PATENT ANSYRES: i. Bearing device for aircraft to determine the direction Well-directed wireless high-frequency transmitter, with the receiving side with Intensity comparison is worked, characterized in that the two halves of a short-wave dipole are used as individual antennas, their directional characteristics is determined only by the aircraft body. 2. Procedure for determining direction properly working wireless high-frequency transmitter below. Using a Facility according to claim i, characterized in that the receiving antenna system in a-n rhythm is keyed. 3. Method for determining the direction of non-directional wireless High-frequency transmitter using a device according to Claim i, characterized in that that the received energy of the antenna systems is modulated with two distinctive tones.