DE1273622C2 - DF method using a direction finder based on the Watson-Watt principle with averaging over the bearing result over time - Google Patents

Description

pointer tube with long afterglow screen. «

3. Direction finder according to claim 1, characterized in that a cathode ray display tube with a variety of behind the display screen Attached storage elements is used.

4. Direction finder according to claim, characterized by * » draws that a storage tube is used, whose solar effect can be switched on as required and their memory can be erased.

5. Direction finder according to one of claims 1 to 3, characterized in that in addition to the usual »! Display tube a preferably switchable storage tube is used.

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^^ viewpeiler known-her for the solution of the above-mentioned J ^ ₅ iL ^ eitFche Wlwertbildung caused (German patent specification 1 115790). Be. this

35

The invention relates to a direction finder according to the Watson-Watt principle with a time notification of the Bearing result.

It is known that with visual radio direction finders on the Display tube ellipses can arise, which constantly change their shape and position (German Auslegeschrift 1 115 790, column 1,2. Paragraph). The cause of these changes are so-called multi-beam effects, the z. B. arise in the sky wave by reflection on the inhomogeneous ionospheric layers. At the Due to these phenomena, the amplitudes and phase positions of the individual incoming waves, causing a permanent change in the display image. The determination of the adjustment is then practical table hardly or no longer possible.

A method for determining the direction of incidence of a wave is already known (German Auslegcschrift I 246 053) in which this disadvantage does not occur or the fluctuations are reduced. In this method, the DF voltages of two or more spaced apart and identically aligned crossed DF antenna systems are successively fed to a two-channel receiver. The output voltages of this two-channel divider are rectified in phase rectifiers, to which on the one hand the high-frequency or /.wischenfrequenten DF voltages and on the other hand the associated azimuth-independent voltage are supplied, that two DC voltages arise, which characterize the direction of incidence by their polarity and amplitude. These DC voltages are means for forming "Ungen in Phasengleichnchtern g £ ^c ^ ™ htet DC output voltages of ^ asengle.chrichter for also a azimutunabhangige voltage is required, a device ™ averaging are supplied, whose output voltages are utilized ^for display.

A DF method is also already known in which various DF antenna systems are successively ^{connected to a Zv / eikan} ? ^s ? ^P ^ ^T _QA \\ * H LT / ntl (German Auslegeschnft 1 061 842)

n systems are known in -.em method Cross frame provided, which is arranged on a circle are. In the case of the known method, if floor and room welfare occurs at the same time three ellipses written one after the other on the display tube. The tangents to this family of ellipses show the direction of incidence of space and ground waves.

With this known arrangement, two coherent waves with different angles of incidence can thus be taken. However, evaluating the display image is not very easy, it must the tangents to a host of copied figures can be found. Besides, the effort is not insignificant in this process.

With the other DF method that has already been proposed (German version 1255 742), the DF voltages of a crossed DF antenna system or successively the DF voltages of two or more DF antenna systems set up at a distance are fed to a two-channel directional divider, from whose output voltages direct voltages are generated which are used for averaging. In this method, the output voltage is used to split these two direct voltages U ₃ and U _4, which characterize the direction of incidence

U ₁ = H ■ cos λ · cosii / and t / ₂ = C / sin * cos ßf of the two-channel direction finder is supplied to a circuit part known from direction finders with rotating goniometers, in which the voltage ί /, from the two voltages U ₁ and U. · Sin ω ί + C / j cos ω ί is formed (where o> is a low frequency). This sum of voltages is then rectified, and finally the phase position of the voltage of frequency ω obtained by the rectification is measured in relation to two reference voltages of frequency ω shifted in phase by 90 °, with the two DC voltages obtained on the basis of the phase measurement being the voltages U ₃ and t / ₄ represent. These voltages are then fed to averaging devices.

I 273 622 3 4

The object on which the invention is based is to deal with the long side boundaries of which are almost completely parallel to one another, in the case of a Watson-Watt direction finder always being completely parallel at the point of incidence. The directions of these coherent waves enable the long side borders to be read off well, making it possible to use the direction of incidence of the bearing without the need for a direction of the wave. When using the invention great effort is required. Here, under 5 according to the direction finding method, the correct incident directional waves, in contrast to the definition in the direction from the direction finder, should be understood easily and immediately to the optics only the fact that determine. Surprisingly, by far the waves with multipath propagation are incident from the same transmitter viewing the display image or arise in single-frequency networks. Ellipses, lines and circles clearly visible within this task is solved by the fact that the direction-finding receiver is placed on a luminous surface when the drop of coherent waves that occurs after a short time is limited. These later coming about are known to be operated in an uncontrolled manner and display images change the shape of the luminous area that to display the direction finding result a saving almost no longer, or if so, then mostly only in the display device, eg. B. a storage tube with a longitudinal extension thereof. Practical measurements have memory management of at least a few seconds 15 when transmitters are incident, whose bearing is used for bearing purposes. The invention is thus based on the recognition of the constantly changing display image with the. that the phase difference of the incident normal direction finder would be completely impossible, shown in frappie waves in the radio wave range only in the course of render manner that the bearing reading changes over 360 ° in one second, so that to solve the set of the method according to the invention after a short de invention underlying task is possible at least in time and without any problems. di> (IMIS times this size into account While, as mentioned above, the long limitation v -.τ Jen need. the luminous area displayed Zung lines virtually

As storage tubes you can always have a cathode parallel, the end limits of the dial indicator tube with long afterglow luminous surface are irregular. So it won't be how to use umbrella. It is more favorable to use a cathode-ray ^{display tube on the} basis of German patent specification 973 560, which could be assumed by a large number, a parallelogram written on the display tube behind the display screen. When the subject of this cricrelemente has. Preferably, a patent is used to control the display of a storage tube, which is optionally given as a normal two-channel divider on the receiving ^{channels for a short time display tube without storage effect or as a 3 ° and} periodically an auxiliary AC voltage. Sf> t! CheiTÖhre can be used. Stdle to ^the frequency of the frequency of the gepeilten ei'ur such a tube, the direction finder may also be a transmitter is somewhat different. Ri- next to the paint through the n "M display tube and in addition ^to a storage fox hunter sender wrote down light ^bar; --re to be equipped. These two tubes ^are artificially created here a luminous parallelogrammkivmen optionally connected to the direction finder 35 ^{flat on the} display tube. The bearing channels would or would be in operation at the same time. Storage ^{tanks only have the} same gain if one tube with a large number of pairs of sides of this parallelogram behind the screen has an angle of storage elements that are attached to have an extinguishing ⁴⁵ °. By checking this direction, the device can be opened so that the displayed results ^{on the} equivalence of the two amplifiers can be deleted at any time. To be closed in place of a 40. Here, however, is apparently only storage tube can Retentive display uses ^a conventional display tube and the leucheinrichtung also a known device one ^tends parallelogram kommi due to the setting in which the by the electron beam ^is overall each other quickly changing phases of the SECTIONPLANE image Frequent voltages are generated by dust (Sfaubschrift) or by both of the display tube, which does not color a certain substance uniformly. In contrast, will. It is also possible to let a light beam through is required in the inventive method, the voltages of the direction finder distract of ^a display tube on which the image recorded on a film a permanent change hervor- DF relatively long, eg. B. calls at least some. The activation of a luminescent plate also remains written down for seconds. Only then and making the display image visible on this is 5 <> the light required for the bearing can be imagined, for which the two bearing voltages are, however, ^{flat with} parallel long sides,
need to be recoded. ^The emergence of the luminous surfaces in the invented

While in a conventional direction finders, whose to the invention method can min, following receivers are controlled such that virtually explain ^masses: The outgoing from a transmitter always an equal display image is created and at 55 beams generally have at Peilort a so using the usual display tube, which only has a smaller field strength, the more it has a very short afterglow period from Großkrcis, give way to incidence. The addition of such partially simultaneous two or more coherent waves of non-occurring rays form direction finding figures, all of which in approximately the same direction receive a continuously changing display image with the most varied of ellipses ^{in the integrated display belt described above, δο.} An essential prerequisite, whereby the main axes of these ellipses in the ^d 'e for the emergence of the most different directions, z. B. also in correctly reproducing luminous surfaces by 90 ° with mutually twisted directions and the direction finder according to the invention must be fulfilled, is that the direction finder does not know how to show the correct bearing from such a view of the two directional receivers during the bearing process should determine, comes 65 are operated unregulated; in the regulated Betnebsbei the method according to the invention on the case would namely result in a distorted luminous area, storage tube in a short time, from z. B. some of the directions of incidence to be measured no longer seconds, an elongated luminous surface for display, could be removed.

For example, in the case of dual radiation, there are not regulated DF receivers and with a phase difference of 0 and 180 ° generally two different large and differently directed line displays. In the regulated state, however, these are Line displays the same size. Since these line displays are partial images of the illuminated area, the The above-described difference clearly shows the change in the luminous areas with regulated and unregulated State of expression.

In the drawing, an embodiment of a Pciler according to the invention is shown. As a DF antenna system an Adcock system 1 is provided, which is connected to the two receivers 2 and 3 of the direction finder. With 4 is the common one This DF receiver called oscillator. With the help of the member S, to which the output voltages of the two DF receivers are supplied, a control voltage is generated, which when the Switch 6 acts on the amplifiers in receivers 2 and 3 and causes the on the Display tube 7 resulting display images are largely independent of the received field strength. The indicator tube 7 is connected to the receivers 2 and 3 via the switches 8 and 9 during normal direction finding operation switched on (dashed position). In the case of two or more coherent incidence, roughly from the same In the direction of incoming waves, the direction finder described so far occurs on the display tube 7 one after the other the most varied of ellipses, their main axes in the most varied of directions show. This is indicated by the two ellipses 10 rotated with respect to one another approximately by PO ″.

Reading the correct bearing direction is practically no longer possible with such a display image. According to the invention, when such a display image occurs, the direction finder is switched over, and although the switches 6, 8 and 9 are brought into the fully extended position. In this position it is on the outputs of the receivers 2 and 3 a storage tube 11, for example a storage tube with a A plurality of storage elements arranged behind the screen are switched on. Besides-this is now-

, ₅ more by the switch 6 the regulation of the amplifier of the receivers 2 and 3 is interrupted. Receivers 2 and 3 are now working unregulated. On the display tube 11, the elongated luminous area designated by 12 is displayed within a few seconds.

_ao , whose longitudinal boundaries are two parallel lines 13. The display image that appears after a few seconds practically no longer changes when the bearing process is continued. The direction of the parallel lines 13 points in the direction of the

A ₅ A ^f searched a1Isrichtung. In the case of such a display image, this direction is easy to determine, for example with the aid of a parallel ruler. When using the method according to the invention, there is no problem in determining the correct bearing direction.

1 sheet of drawings

Claims (1)

Patent claims: 1. Sight direction finder based on the Watson-Watt principle with a timely notification of the direction finding result characterized in that the direction finder in the incidence of coherent waves are known to be unregulated beJebJ and that to display the bearing result a storing display device z. B. a storage » chute pipes with a storage effect of at least ernjgen ^ endxent. of the mean value from the voltages originating from the various antenna systems. By forming the quotient of the two output voltages of this E "™ * ^ ™ ^ ttelwembildung one then obtains the Emfalknchtun ^ The already proposed method« «on the disadvantage that for the Bi f ™ \ ^ ™ ^ ™