DE1112142B - Visual direction direction finder based on the dual channel principle - Google Patents

Description

Visual radio direction finder according to the double-channel principle The invention relates to a visual radio direction finder based on the double-channel principle with a crossed directional antenna system and an antenna with a pie chart that has a cardioid chart with one of the directional antennas supplies, and its essence consists in the fact that to determine the elevation angle the The directional antenna system is designed as an Adcock to be tracked wave, one of which Pair of antennas by connecting the antenna with a circle diagram a cardioid characteristic receives whose zero azimuth can be folded down by 1800 by means of a switching device is, and that the Adcock can be rotated in azimuth so that the other pair of antennas with the maximum reception direction in the azimuthal, in the usual Adcock circuit Direction of incidence of the wave determined on the associated full-circle 3600 scale shows and that in the two switching states of the cardioids at one of zero different elevation angles, symmetrical to the horizontal one There is a single bearing indicator that can be read on a semicircular 3600 scale two bearing indicators lying at their angular distance on a scale for determination serve the elevation angle.

Direction finders are generally used to determine the azimuth angle applied to an incident wave. But there are also tasks in which one is apart from the azimuth angle determine the angle of incidence of the wave against the horizontal plane got to. Various arrangements are known or have been proposed for this. These However, arrangements all require a separate one to determine the elevation angle Antenna system other than that required for determining the azimuth angle.

In contrast to this, in the arrangement according to the invention, both for the determination of the azimuth angle as for the determination of the elevation angle das same antenna system used. It consists of a well-known Adcock system, im in the simplest case, that is, from four vertical ones erected at the corners of a square Antennas and a vertical auxiliary antenna installed in the center of this system. The measures to be taken according to the invention using this antenna system to determine the elevation angle are based on the knowledge that the elevation angle dependency a single open antenna is different from that of two interconnected as Adcock Directional antennas.

If the directional antenna system is one system by combination with the open antenna to a directional antenna arrangement with cardioid characteristics switched, so - as in an older patent - registration in a different context already specified - an antenna arrangement with a reception zero, which in Direction of a directional antenna system of the crossed antenna arrangement is.

It has also been suggested that this can be achieved by combining with the open antenna to a directional antenna arrangement with cardioid characteristics switched directional antenna system to switch periodically so that the zero of the Cardioid is placed periodically in the opposite direction around 1800. To a to avoid the second bearing scale caused by the folding of the cardioids according to further previous proposals in the switching process of the cardioids an exchange of the pairs of plates of the Braun tube with simultaneous polarity reversal of a pair of plates is provided. The resulting bearing arrangement has thus a bearing scale with the entire bearing azimuth of 3600 on a semicircular 3600 scale is housed and in contrast to a characteristic without the proposed switching measures for the cardioids and the bearing scale are none Reception zero in a certain azimuth, i.e. in the one incident from this direction Transmitter cannot be sighted is present. Those in the two switching phases The bearings obtained for the cardioids are therefore in each case at the same number of degrees the semicircular 3 600 bearing scale, which is the same for both switching phases.

If now a wave from the azimuth of the Adcock system, that is not to If a cardioid is switched, one appears symmetrical to the crossed pairs of plates of the Braunschen Bearing indicator lying on the tube in the form of a line below 450, its direction on the semicircular 3600 scale can be read from the degree number 900.

For the creation of the under 450 to the deflection plate pairs (90 ° on the bearing scale) are two equal voltages on the Deflection plate pairs are decisive. One voltage is the maximum voltage of the one Directional antenna system from whose direction the wave is incident and the voltage on the Another pair of plates is the voltage of the omnidirectional antenna that cardioids using the other directional antenna system is required. That for cardioid formation The directional antenna system required delivers at the assumed incidence of the wave the direction of the other system does not contribute since it is perpendicular to its plane is oriented to the direction of incidence of the incident wave. The symmetrical under 457 bearing display lying to the two pairs of deflection plates now remains with the switchover the cardioid remains unchanged in its two switching phases and appears at the number of degrees 900 of the bearing scale, provided that the voltage of the omnidirectional antenna with the maximum amplitude of the voltage of the directional antenna that leads to cardioid formation is used. The mapping laws for the two switching phases of the Cardioids including the switching of the plate pairs are thus: t smp = (1) cosp f l reception zero in azimuth of 1800, tg q 1 cosp (2) sinp reception zero in azimuth of 00.

If now the amplitude of the omnidirectional antenna does not match the maximum amplitude of one directional antenna system coincides, then result for the resulting Bearing indication deviations from the symmetrical under 450 to the pairs of deflector plates trending direction. It must therefore be ensured that the prescribed Equal amplitudes not due to deficiencies in equipment (e.g. change the gain of both channels) is disturbed. Provided that it is more stable apparatus-related conditions can now lead to a change in the amplitude ratios, as it is due to the different voltage dependencies of the auxiliary antenna and the Adcock system is given by the elevation angle of the incident wave, according to the invention by measuring the angular deviation of the bearing display from the 450 position for determination the angle of incidence of the incident wave can be used.

As is well known, the voltage of a non-directional vertical antenna decreases with the cosine of the elevation angle of the incident wave (measured against the Horizontal plane), while the voltage is one of two oppositely connected Vertical antennas formed by the Adcock system are square with the cosine of the elevation angle decreases. The mapping laws of the antenna system for the two switching phases of the Cardioids are thus obtained taking into account the various Dependence of Parts of the antenna system have the following form: sinp cos2 y (la) tgq = '(la) cospcos2y + cosp cos y - cosp cos2 y (2a) tg q =. (2a) sinp cos2 y For the case of incidence of the wave in the azimuth of the antenna system not used for cardioid formation, that is for p = 900, the expressions in tgq = cozy, (1b) ctgq = cos / are simplified. (2b) For the elevation angle y = 0 results for both expressions q = 450. In both switching phases This means that only one bearing display appears on the bearing scale, namely at 900. With increasing elevation angle y there are now angular deviations from the 450 direction, and that the two expressions (1b) and (2b) show that these deviations be carried out symmetrically to the 450 direction. At an elevation angle other than 0 ° thus appear two separate bearing displays in the two switching phases, the are rotated the same angular amount with respect to 450.

The deviation of the angular amount from the 45 direction is now a Measure of the elevation angle sought, which can be taken from a curve or table can. Since the angular deviations of the bearing displays from the 45 'direction in the two Switching phases are only symmetrical to the 450 direction if the azimuth of the incident Wave is in the direction of the antenna system that is not interconnected to form the cardioid (p = = 900), so only in this case the simple relationships (1b) and (2b) apply, the correct orientation of the Antenna system can be determined that the directional antenna system around its vertical Axis is rotated until the bearing displays are symmetrical in the two switching phases facing the 450 direction. You can of course also use the azimuth of the incident wave to determine the prescribed orientation of the antenna system, that you can first use the directional antenna system in the usual way, i.e. without using it the auxiliary antenna, by connecting one double-circle characteristic to one Amplifier channel and by connecting the other double circuit characteristic to the other amplifier channel used. In any case, however, the symmetrical position is the two bearing displays, which must appear symmetrically to the 450 direction, a criterion, that the directional antenna system in the prescribed for the determination of the elevation angle Orientation has been brought.

In Adcock systems of small spatial dimensions, as z. B. for UK or decimeter wave direction finding, you can use the antenna system turn directly with a handwheel, for larger antenna structures, as they are in shortwave or medium wave range are common, you can get the required electrical Rotation in a known manner by interposing a Goniometer arrangement cause in crossed search coils or search plates.

FIG. 1 serves to explain the measures according to the invention to 3. FIG. 1 shows the arrangement according to the invention with antenna system and Directional finding apparatus, FIG. 2 shows the directional characteristics associated with the two switching phases 2a and 2b, FIG. 3 shows the deviations of the bearing displays from the 450 direction as a function from the elevation angle '.

In the arrangement according to FIG. 1, the directional antenna system is an Adcock system, which is rotatable about its vertical axis of symmetry. From the two crossed Adcock antenna systems is the system 1-1 ', which is known to provide a double-circle characteristic the amplifier channel 5 of the dual-channel visual direction finder and the other directional antenna system 2-2 ', which is known to have a cardioid with the open antenna 3 as a diagram, via the switch 9, through which the cardioids with their zero point continuously periodically is turned down by 1800, switched on to the second amplifier channel 6. Through the synchronously with the switch 9 working changeover switch 10 is to achieve the uniform scale 7 for the two switching phases of the cardioids necessary switching of the pairs of plates of the Braun tube. The one for determining the elevation angle required rotation of the Adcock antenna system in the way it must be done that the system 1-1 'rotated in the direction of the incident wave is indicated by the arrow 11.

In Fig. 2, the two curves 2 a and 2 b give the course of the in each of the two switching phases 2 a and 2 b of the cardioids for a specific azimuth resulting line lengths of the bearing displays.

It can be seen that z. B. in the switching phase 2 a (common receiving zero towards 1800) in azimuth 1800 the line length 0 is present, while in azimuth 0 ° the line length 2 is available. For azimuths 90 and 2700 the line length is the same in each of the two switching phases (kr2). Appear at horizontal incidence the line displays associated with the two switching phases at the same point in the Azimuth scale, they only have according to the course of the curves 2 a and 2 b different lengths. In the orientation prescribed to determine the angle of elevation the directional antenna system with the system 1-1 'rotated to azimuth 900, thus results from the bearing The scale according to FIG. 2 is the same in both switching phases Bearing display at 900 (the one with the symmetry line from 450 to the plate pairs identical is). If the elevation angle increases, then appear in place of the only one if there are 900 displays, two displays symmetrically to it, as shown as Example in Fig. 2 are shown in dashed lines.

3 shows the deviations of the bearing displays from the 90 ° position on the bearing scale (this is the symmetry direction from 450 to the plate pairs) in Dependence on the elevation angle y shown.

It can be seen that z. B. at an elevation angle of 300 die The deviation from the 90C position is + 8.20 and at 600 + 36.80. From the in Fig. 3 The curves shown can therefore be left when reading the bearing displays from their storage and to the right of 900, which is plotted on the ordinate of FIG. 3, the associated Elevation angle can be read on the abscissa.

Claims (1)

PATENT CLAIM: Visual direction finder based on the double-channel principle with crossed Directional antenna system and one antenna with pie chart that coincides with one of the directional antennas supplies a cardioid diagram, characterized in that for determining the elevation angle of the wave to be tracked, the directional antenna system is designed as an Adcock, whose a pair of antennas by connecting the antenna with a circular diagram a cardioid characteristic receives whose zero azimuth can be folded down by 1800 by means of a switching device is, and that the Adcock can be rotated in azimuth so that the other pair of antennas with the maximum reception direction in the azimuthal, in the usual Adcock circuit Direction of incidence of the wave determined on the associated full-circle 3600 scale shows and that in the two switching states of the cardioids at one of zero different elevation angles, symmetrical to the horizontal one Incidence of the single bearing display to be read on a semicircular 360 scale two bearing indicators lying at their angular distance on a scale for determination serve the elevation angle. Considered publications: German Auslegeschrift W 22712 VIII a / 21 a4 (published January 5, 1961).