DE460271C - Directly displaying radio direction finder - Google Patents

Description

Directly displaying radio direction finder. There are quite a few Radio direction finder devices known in which by means of fixed combined directional antennas or by means of a rotatable loop antenna the direction of incident electromagnetic Waves determined by subjective maximum or minimum determination of the reception effect can be. All of these facilities have one thing in common that the observer is through Actuation of an operating handle, by which either coupling sizes vary or the receiving frame axis is rotated, the maximum or minimum position the effect must seek subjectively.

There are also objective methods in which commutated deflections or commutated. Effects can be compared with each other, orler such, where two receiving systems assumed to be equally sensitive to a single one Acting cross-wound instrument.

The disadvantages inherent in these facilities, either subjective Observation of the effects or the need only from several information: that Derive result, or finally methodological inadequacies, as they are the requirement two calibration-sensitive detectors are described in the following Invention avoided.

This only requires a single detector or receiver and is permitted (if observers learn to draw a conclusion directly from the pointer deflection of an instrument on the direction of the incident waves in relation to the longitudinal axis of his vehicle to pull.

The principle of the new process can be seen in the schematic Fig. I. a and b represent two directional antennas, drawn in this case as frame antennas, firmly connected to the vehicle whose longitudinal axis is c, d . The connections to the antennas: are denoted by 1,: 2, 3, .I. e is a receiver of any construction, the input terminals at 5 and 6, at 7 and f; .has connections to the telephone. A rectifier f is connected to this, to which 'A' alternating current is fed at g and iö er; at ii and 12 the rectified current can be taken. A pointer galvanometer is denoted by g; which has its zero point in the middle of the scale and whose deflections to the left or right are intended to enable conclusions to be drawn about the direction of the falling skins in relation to the vehicle axis c, d. 13 and i4 are the connection terminals of the galvanometer. 1t presents a drive mechanism that operates two changeover switches i and k. With each rotation of the axis i, the switch i alternately creates a connection between: the frame a and b with the receiver e. In the same rhythm, the changeover switch k applies the current drawn from the rectifier with different signs to the galvanometer g, which is used as an angle instrument.

The mode of operation of the arrangement is therefore as follows. With a certain The position of the drive axis Z is, for example, via the switch i or the frame a. connected to the receiver, while. at the same time via the switch k the Rectifier is so connected with the galvanometer that a rash of the pointer to the right. It is then to .dem frame cc via the switch for Ida's galvanometer a current direction is assigned, which moves the pointer to the right emotional. With a rotation of the triabwerk axis r by z80 °, the frame would be reversed b connected to the receiver while the rectifier feeds its power in commutated direction in the galvanometer, so that there is a deflection after must perform on the left.

Assuming that the rays are incident in the direction c-d, both antenna frames would consume the same amount of power, and the rectified, The current impulses supplied to your galvanometer would have the same strength as the pointer Grant drive to the right or left one after the other. Is the communication speed high compared to the setting time of the instrument, the instrument becomes like a Differenti.adgalvanametef work; the needle would be in the zero position in this fur remain. Would: a rotation (of the vehicle occur, so that the frame a stronger is hit, the impulses that deflect the galvanometer to the right let it be stronger than the impulses excited by the transverse frame b move the pointer to the left. The pointer is positioned to the right in all the higher Just as frame a is more excited than frame b. The reverse would enter when the vehicle swings to the left. In this case the pointer position would be deviate to the left. The methodological advantage of the arrangement is accordingly: that with only one single receiver and rectifier the effect of the received waves can be compared to the two crossed directional antennas.

With regard to the embodiments, Ida's principle tolerates a large one Diversity of execution options. The directional antennas can, for. B. open Be antennas or loop antennas. The latter can, like this for example in the case of airships or airplanes it can be advantageous to the hull of the vehicle to be wrapped. Instead of -the switch i can be inductive or capacitive The antennas can be coupled, or one or the other frame can alternate short-circuited or detuned. As a galvanometer you can see an ordinary one Use moving-coil galvanometer, where the switch k is used as a collector switch, roller switch etc. can be formed from =. A cross-coil instrument can also be used as a galvanometer use in such a way that the ends of the two cross-wound bobbins alternate through the switch k connected to the rectifier.

Claims (1)

PATENT CLAIMS: r. Directly displaying radio direction finder, with which two crossed directional antennas different depending on the direction of the incident waves are strongly excited, characterized by periodically operating changeover switches -the alternating one or the other antenna to the receiver and rectifier and the received current leaving the rectifier commutates in the same rhythm to the Zaiger galvanometer serving as an angle instrument. z. Facility according to claim z, characterized by alternating capacitive and inductive coupling of the two directional antennas.