DE755712C - Arrangement for bearing with short and ultrashort waves - Google Patents

Description

Arrangement for bearing with short and iiltra-short waves It is already known, in frame receiving systems, field distortions due to back radiation from the Welf in the vicinity of the frame or by coupling the individual parts with each other or with the environment, and also the vertical effect of the frame due to the additional energy to compensate for a non-directional aperiodic auxiliary antenna.

The usual switching arrangements for frame direction finding with long waves cannot easily be used for bearing with short and ultrashort waves because with these waves the requirements for in-phase compensation the antenna effect are difficult to achieve. The proper wave of the bearing frame of the required Tuning and coupling elements are required for technical reception reasons Dimension already approximated in the range of the wavelengths to be received, so that unwanted phase shifts occur in the circles.

Furthermore, special measures are required for the bearing of ultra-short waves required to avoid the influence of reflectors, for example by people who are located in the vicinity of the bearing arrangement, to compensate in a simple manner.

The new direction finding arrangement described below fulfills the requirements Conditions and enables the bearing of ultrashort waves. For the bearing is not a frame, but uses a dipole antenna that is perfodic coupled to a receiver wnd against the normal wave is out of tune. The dipole halves are changeable capacitive to one with them approximately symmetrical in a vertical one Auxiliary antenna lying flat is coupled, which is also detuned against the useful wave is.

This third antenna can be used to control the influences mentioned in the Compensate the bearing field, provided that their effect increases the field strength in the vicinity of the Dipole antenna is changed.

The auxiliary antenna does not act in the sense of the frame bearing known auxiliary antenna to compensate for the antenna effect. While with these known arrangements as a result of the coordination of the frame circle on the useful wave the auxiliary antenna voltage supplied to the frame versus the frame voltage 900 is out of phase, is in the arrangement according to the invention due to detuning of the dipole system and the auxiliary antenna against the useful wave, the auxiliary component supplied the voltage induced in the dipole halves in phase or in phase opposition. By unilateral Coupling of the dipole halves to the auxiliary antenna can in the arrangement according to FIG Invention a more or less large composition of the auxiliary antenna component can be achieved with the voltage of one or the other dipole half. The order can in particular also be used in the sense of a spatial pivoting of the system will.

The in-phase and antiphase composition of the voltages of a Loop antenna and auxiliary jackets to determine the side or to compensate for bearing errors due to asymmetries or influences of reflective objects is known per se. In contrast to the invention, these known arrangements work with tuned Frame circle and an aperiodic or strongly detuned against the reception wave Circle between frame and non-directional auxiliary antenna. The coupling of the auxiliary antenna takes place via a differential capacitor that reverses the phase and enables constant regulation of the auxiliary voltage. In other cases, the Matching of the phase of frame and auxiliary antenna voltage by additional phase shifting members, e.g. B. Tuning of the auxiliary antenna.

The arrangement according to the invention avoids these additional rivets and the difficulties encountered particularly with short and ultra-short waves and frame bearing occur in the simplest way, as explained in more detail with reference to the figure.

In Fig. I the arrangement is shown schematically. The dipole antenna consists of dipole halves I and 2. Another antenna is the vertical rod 3 used.

The antenna 3 can be through the rotor of the capacitor 4 on the Alternately couple the stators with the dipole halves 1 and 2. The inductive Coupling 5 couples this to the receiver 6. The overall arrangement is on or in a carrier 7 which is rotatably mounted at 8. The received pulses are over an Xacheamplifier 9 is fed to the measuring instrument 10 or to the telenoner II.

To avoid interference from the line from the receiver 6 to the Amplifier 9 and the carrier 7, which may be conductive, becomes the carrier 7 at 12 by an insulating layer or a layer with high resistance for the nltra short waves divided. Which lead from the receiver 6 to the amplifier 9 Cables contain extremely high resistances (ohmic resistances or throttles) for the KwrzwelleFn. This subdivision of the connecting lines and the wearer may take place in several places, and so often that in the individual conductive parts of the carrier or those leading through the carrier Supply lines no oscillatory, resonant structures for the ultra-short Waves arise.

The arrangement described can be simplified in that the entire carrier for the direction finder arrangement or part of the carrier as the third antenna is used. It may be useful to place the wearer's foot directly to ground or to isolate it from the ground and lay out several counterweights radially. To increase the effect of this antelllle, a horizontal sheet metal washer can be attached to the Antenna support can be arranged.

In Fig. 2 an arrangement is shown in which the dipole halves are replaced by two inclined, upwardly extending antennas I3 and 14. The carrier 15 of the entire DF arrangement also serves as a third antenna, he is conductively connected to the rotor of the capacitor I6. Located inside the carrier In addition to the coupling member 17, a transposition stage I8, in which only the necessary switching means for transposing the ultrashort cell into a longer shaft are accommodated. The transposed wave is over a line 19 led to a recipient ao. The carrier 15 of the DF arrangement is here with the counterweight wires 21 connected. He stands isolated from the earth.

The dipole halves 13, 14 can of course also consist of horizontal and there are vertical parts l) attached to the outer ends, so that the ladder is kinked. However, it is always important that the dipole halves and the third antenna or the carrier used as antenna for the direction finder arrangement in one vertical plane.

If the beam is inclined at an angle, this can also be used Arrangement do not yet achieve a clear bearing. It is therefore made by the arrangement a special joint inclined the normally vertical plane of the antennas. For the bearing, a flat minimum is sought by rotating the carrier, which is exacerbated by tilting the antennas.

Claims (7)

PATENT CLAIMS I. Arrangement for bearing short and ultrashort Waves by means of a rotatable dipole antenna, characterized in that the on the receiver aperiodically coupled dipole is out of tune to the useful wave and that the dipole halves at one with them approximately symmetrically in a vertical plane lying auxiliary antenna are changeably coupled capacitively, which are also against the useful wave is out of tune. 2. DF arrangement according to claim I, characterized in that as symmetrical antenna is used to support the dipole. 3. DF arrangement according to claim I and 2, characterized in that the carrier of the dipole through an intermediate layer with high resistance for the bearing waves is divided one or more times. 4. DF arrangement according to claim I to 3, characterized in that that immediately at the dipole a transposition stage for transposing the ultrashort Waves at a longer intermediate frequency and located at the foot of the wearer for the DF arrangement a receiver for the intermediate frequency is arranged. 5. DF arrangement according to claim I to 4, characterized in that the dipole halves can be tilted upwards or downwards. 6. DF arrangement according to claim 5, characterized in that on vertical conductors are attached to the outer ends of the dipole halves. 7. DF arrangement according to claim I, characterized in that the The plane of the dipole and the auxiliary antenna can be tilted from the vertical direction is. To differentiate the subject matter of the invention from the prior art are The following publications were considered in the granting procedure: German Patent Nos. 444 195, 516689,635850, 6II 505; British Patent No. 364,782; Keen, Wireless direction finding (I927), Figs. 76, 21, 23, 78 to So, 82.