DE723513C - Display device for the direction of incidence of an electromagnetic wave picked up by a direction finder - Google Patents

Description

Display device for the direction of incidence from a direction finder recorded electromagnetic wave To determine the direction of incidence of the Electromagnetic waves emitted by a wireless transmitter are known to to use a direction finder that sends these waves through a rotating directional antenna system records. A light or something similar is synchronized with this directional antenna system Beam moved so that this beam screens a circular deflection on a display evokes. It is also known to use a rod-shaped neon lamp, which rotates synchronously with the directional antenna system in the manner described. the The output energy of the receiver is fed to this glow lamp - as control voltage, so that the light bulb goes out in the reception minimum.

It is also known to use a cathode ray tube for recording to use the bearing curve, the electron beam for example through a Rotating field is brought into circulation. All these known devices have disadvantages. So the glow lamp gives a blurred display. The usual cathode ray tube prohibits the use of large bearing scales, as the cost of the tube as a result of increasing tube length and the demands on the power sources with increasing Considerably increase the screen diameter.

The invention now has the task of taking advantage of both the rotating glinun lamp as well as de: electron beam tube to combine ml.d accordingly proposes a fluorescent tube rotating synchronously with the directional antenna system to provide a linear, rod-shaped cathode ray tube. This cathode ray tube can according to the further invention in the Ausg.angs.stromkreis of the receiver switched so that it lights up or goes out when the bearing minimum is passed. It is even better, however, the length of the light emitted by this cathode ray tube in Control depending on the falling energy.

Embodiments of the inventive concept are in the drawings shown.

Fig. 1 shows such a self-indicating direction finder. The incident The energy-absorbing frame is set in rotation by the motor A1. This stretch is by a transmission device Ü on the display arrangement, consisting of the cathode ray tube L transmitted. As a result, this electron beam tube, which is located in front of a display screen Sk, perform the same revolutions like the rotating frame. The input voltage received at the terminals of the frame R. is fed to the receiver via slip rings. The output voltage of this receiver is likewise again via slip rings of the rod-shaped electron beam tube L. fed. If necessary, an auxiliary antenna lf can also be provided, which serves to make the bearing clear.

In Figs. 2 to 5 are exemplary embodiments for the training the cathode ray tube shown. According to Fig. 2, the fluorescent tube should be a long one Cathode I (and one or more grids, of which only a single grid G is shown is obtained with unequal intervals. Enlarge starting from one side This spacing of the grids extends to the other end of the tube.

The luminescent screen becomes synchronous with the cathode and the grid Sck arranged.

As shown in Fig. 2, the grid G is powered by a voltage source negatively biased. This bias is connected in series to the Terminals a and b applied output voltage of the receiver overcome. Corresponding the penetration of the individual grid wires are dependent on the one at the exit of the receiver lying voltage in a certain length electrons to the get positive anode A and thus bring the screen Sch to light up.

Fig. 3 shows a cross section through such a tube. The inner parts of the tube are at the bottom and on both sides of a sheet B surrounded, which receives a negative bias with respect to the cathode. The whole system is surrounded by a glass tube, the wall of which is labeled W in Fig. 3.

Instead of the grids wound with unequal spacings, Orifices are also used, as shown in Fig. 4. These bezels P have wedge-shaped openings Sp and are therefore much easier to implement than the grids shown in Fig. 2 with unequal spacing.

In Fig. 5 is a cross section through such an electron tube shown. The reference numbers correspond to the previously described figures chosen.

The use of a plurality of grilles or screens has the purpose of given the difference between the minimum and maximum spacing of the grid wires or to achieve a larger continuous range of the opposite diaphragm plates.

The idea of the invention is not intended to apply to the rotating frame self-indicating pillars, as do other rotating directional antenna systems Can be used. So it is possible to use a to use a rotating goniometer coil.

Claims (5)

PATENT CLAIMS: I. Device for indicating the direction of incidence an electrical wave picked up by a direction finder with the help of a synchronous with the rotating directional antenna system rotating fluorescent tube, which is from the receiving voltage is influenced, characterized in that to achieve a sharply focused Display beam provided as a fluorescent tube, a linear, rod-shaped cathode ray tube is designed such that its electrodes are parallel to the longitudinal direction of the Run the tube. 2. Device according to claim I, characterized in that the cathode ray tube is switched in such a way that it lights up when passing through the bearing minimum or goes out. 3. Device according to claim I, characterized in that the electron tube is provided with a control electrode and is connected in such a way that its luminous length is controlled by the incident energy. 4. Device according to claim 3, characterized in that the cathode ray tube one or more grids arranged one behind the other with unequal spacing of the possesses individual grid wires. 5. Device according to claim 3, characterized in that the electron beam tube Aperture with wedge-shaped enlarging in the direction of the longitudinal extension of the tube Has openings.