DE708523C - Night-time direction finding device - Google Patents

Description

No night-effect direction finding device Patent 702 331 describes a direction-finding device free of night-effects, by means of which wireless pulses of any kind are used for night-effect-free direction finding according to the pulse direction finding principle. This direction finding device consists of a directional and a non-directional receiving device. The characters picked up by the directional receiving device are fed to one deflection system of a Braun tube. The high-frequency characters coming from the non-directional receiving device are transmitted to a local generator, e.g. B. a tilting device is given, which is triggered by the flanks of the incoming characters. The pulses generated by the tilting device are now primarily used to deflect the time of the cathode ray of the Braun tube. These impulses are thus fed to the other deflection system of the Braun tube.

The advantage of this direction finding device proposed in the main patent consists in that: it is no longer necessary to use specially prepared bearings for impulse bearing Provide transmitter.

This proposed device still has certain shortcomings. It appears desirable to obtain those obtained from the directional receiving device high-frequency characters always in the same place on the Braun's screen To see Rohres occur. Be at the proposed facility the received pulses already at the beginning of those caused by the relaxation generator Time diversion occur. In this case, the bump pulse is not always be flawlessly aimed, as you very often no longer use the characters on your The umbrella of the Braun tube.

In order to avoid these disadvantages of the proposed direction finding device, is proposed according to the present invention, in the receiving circuit of the Directional antenna recorded signals to provide a delay chain whose time constant such a fraction of the duration of a time sweep of the cathode ray is that the image of the bump pulse on the screen of the Braun tube against the Middle zti shifts.

The idea of the invention is that of the directed The impulse picked up by the antenna reaches the Braun tube a little later than that of the omnidirectional receiver for the time deflection of the Braun tube determined pulse. Suppose, for example, that each time through the use of characters a tilting movement of the light spot of the Brautische tube is triggered, which then strokes the bottom of the Braun tube at about 2 m / s. The incoming character is via a suitable conductor, preferably! a low-pass or a sieve chain, with a short time delay of, for example, 0.5 to 1 m / s to the other pair of plates the Braun tube, so that every character that begins is always at the same Position appears and can be measured.

According to a further invention, the non-directional receiving device can also be used to lock the directional receiving device to be carried out after the arrival of the characters.

An exemplary embodiment will now be given with reference to the accompanying drawings of the inventive concept are described.

In Fig. 1 is a circuit diagram for the direction finding device according to the invention shown. The incoming characters meet in the arrangement I on a DF frame antenna 1, which is turned to its minimum position when taking a bearing. The one from this antenna The received voltages are transferred to a normal two-stage high-frequency amplifier arrangement given, which consists of the high frequency resonance circuits 2, a, 5 and 7 and the tubes 3 and 6 consists. Then the high frequency in the tube 8 is rectified, and now the low frequency gets into the schematically indicated delay chain 9. This transit time chain should, for example, consist of a low-pass chain for an upper one Limit frequency of 3000 to 5000 Hz with about 3 to 15 members. Such Arrangement corresponds to running times of about 0.5 to 1.5 m / s. The v, 0n of the tube io amplified low frequency `.is a symmetry order 1 i on rlas a Deflection system of the Braun tube 21 given.

The incoming radio frequency is added at the same time by a receiving device 1 1, which operates with a non-directional antenna 12 passes, there is also again a two-stage amplifier arrangement consisting of the circles 13, 15, 16 and 18 and the tubes 1q. 17,. The voltage rectified in the tube 19 is applied to a tilting device 2o. This tilting device is started by each incoming pulse and sends a time deflection pulse to the other deflection system of Braun's tube 21.

If only the receiving arrangement I were available, then on the Braunschen When the pipe is tilted by means of a tilting device, the symbols shown in Fig. 2 appear. This image is irregular and moves on the Braunschen luminescent screen Rohres depending on the random use of symbols, so that a bump bearing afterwards is very difficult. Due to the transit time chain, the image on the Braun tube becomes something scrapped and fixed in a place where it always reappears.

The receiving arrangement II, which does not contain a delay chain, is generated the start pulse for the deflection movement of the cathode ray spot, so that then the Image of Fig. 3 appears on the screen of the Braun tube. This picture stands firmly, always in the same place.

In order to suppress the room wave echoes, the receiving arrangement I blocked after the arrival of the bump pulse through line 22. It appears then the image in Fig. q, on the screen of the Braun tube. This picture too is fixed and can be easily measured.

Claims (2)

PA TENT ANSI'RÜCFlr: 1. Night-time-effect-free direction finding device according to patent 702 331, in which wireless impulses of any kind are fed to one deflection system of a Braun tube on the one hand via a directional receiving arrangement and on the other hand to the other deflection system of this Braun tube via a non-directional receiving arrangement and a subsequent tilting device, characterized in that a delay chain is provided in the receiving circuit of the signals picked up by the directed antenna, the time constant of which is such a fraction of the duration of a time deflection of the cathode ray that the image of the ground wave pulse on the tube's fluorescent screen shifts towards the center. 2. Bearing device after Claim i, characterized in that the non-directional receiving arrangement simultaneously the locking of the directional receiving device after the use of characters undertakes.