DE1766465C - Bearing arrangement for determining the azimuth and elevation of a plane electromagnetic wave - Google Patents

Description

the elevation ε of the incident wave can be deduced.
It has long been known that bearings with

ίο normal cross frames are flawed, if, in addition to the bump, a sky wave occurs. nuc arrangements have become known, which are able to take bearings without errors under these conditions. One of these orders (German Patent specification 1188 680) uses an antenna consisting of a horizontal frame and a rotatable vertical frame. This arrangement fails, however, if there are also waves on the ground in addition to the space and ground waves reflected sky wave is added It is the aim of the present application to specify an arrangement, which delivers perfect bearing values under these circumstances.

The arrangement according to the invention is illustrated in FIGS. In Fig. 1 is a f with the elevation and the azimuth of an arbitrary polarization ρ in the place of the antenna incoming wave shown obliquely from above to the incident wave occurs on the ground reflected their added that as a coherent wave from the I levation - f acts.

In Fig. 2 the arrangement according to the invention is shown.It consists of three mutually perpendicular cross frames R _z , R ₇ , R _x , a horizontal plate 1 reflecting with Bet.ag 1 below the antenna, a goniometer 2 in the derivatives of the two vertical frames, an amplitude control element 3 in the derivation of the horizontal frame, a double-channel visual radio direction finder with the amplifiers 4, 5 and the Braun tube 6.
The mode of operation of the arrangement is as follows:

If the search coil of the goniometer 2 is rotated in the direction ρ, this results in amplifier voltages

U _z = H sin f [- cos ωί + cos (<ot + a) ~ \ · D

U "= H COS r [COS ωί + COS (wi + α)].

Here, α = 4π (--j sin * the geometric phase difference between the sky wave and the reflected sky wave and D the setting value of the amplitude control element 3. A slight transformation results in u ^; e bearing equations

U. - 2DH cosesin -? - cos (ωί + - - ~ r U _F = 2H sinecos - ^ - cos (o> t + ~ - π ).

These two tensions create an ellipse on the Braunsehen tube with an inclination of 90 or 180 ° amounts to. If you now adjust the amplitude control element so that the two voltages have the same amplitude are evaluated, the ellipse degenerates to

Circle. That is the case for

= Ig ₆ Ig " ¹ y.

^ 766465- 4Γ ^:

Circle degenerates by means of referring
- (2 ^ sin «)

D = tgetg "

The result is the following direction finding method: The search coil of the goniometer is rotated until an ellipse appears below 90 or 180 °, whereupon the azimuth ρ can be read on the scale of the goniometer. Then the value D of the amplitude control element is changed until the ellipse for can then be determined as the elevation ε.

Falls in addition to the sky wave and the reflected one RaumweÜe a ground wave from the same azimuth, then nothing changes in the bearing criteria, since the Search coil hides the bump in the bearing position

1 sheet of drawings

Claims (1)

Claim: Amplitude control element according to the relationship Bearing arrangement for determining the azimuth ρ and elevation ε of a plane electromagnetic wave of wavelength λ using an antenna system oriented in the three directions of space and made up of three mutually perpendicular frame antennas, a reflective horizontal plate, a dual-channel radio direction finder, a goniometer and an amplitude control element, thereby is characterized in that the antenna system at a height h attached to the very good reflective horizontal plate, in that in per se known manner, the outputs of the vertical frames or the horizon dipoles on a goniometer combined with the ingang a} and the output of the horizontal frame and the Vertikaldipols are connected to the other input of the radio direction finder that the amplitude regulator is connected in front of one of the two inputs of the direction finder, so that if the goniometer is twisted for so long! until the semiaxes of the resulting display ellipse are horizontal or vertical, the azimuth ρ of the incident wave can be read on the scale of the goniometer and that, if the> inphtuden regulating element is adjusted until the display ellipse degenerates into a circle, out of position D of the amperage control element according to the relationship D = tgitg ' ¹ (2-τΓ.Λ sin f J inferred from the elevation f of the incident wave can be. The invention relates to a bearing arrangement for determining the azimuth ρ and elevation r of a plane electromagnetic wave of wavelength λ using an antenna system oriented in three directions of space and comprising three frame antennas, a reflective horizontal plate, a double-channel radio direction finder, a goniometer and an amplitude control element, and its essence is that the antenna system is mounted at a height h above the very good reflective horizontal plate, that in a known manner the outputs of the vertical frames or the horizontal dipoles are combined via a goniometer with one input and one output of the horizontal frame or the vertical dipole are connected to the other input of the visual radio direction finder that the amplitude control element is connected in front of one of the two inputs of the direction finder, such that when the goniometer is rotated until the semiaxes of the resulti erenden display ellipse stand horizontally or vertically, the azimuth ρ of the incident wave can be read on the scale of the goniometer and that, if the ampilitude control element is adjusted until the display liosis degenerates into a circle, the γ) ^sin from position D D =