DE727479C - Method for bearing without night effects - Google Patents

Description

Method for night-time direction finding The invention relates on a special method for night-time-effect-free direction finding, in which a transmitter uses which emits pulses at regular time intervals, and a receiver whose Display organ consists of a Braun tube, the beam of which is on the one hand from the recorded impulses. and on the other hand controlled by a timing voltage synchronized with the pulse repetition rate. It is already known in this method the duration of each pulse is greater than that between the direct ones Pulses and the echoes to choose existing interval and a rotatable one on the receiving side Provide directional antenna that observes the light pattern of the Braun tube is set in such a way that the beginning of the oscillogram is at a certain point of interest is most extinguished. It is to this latter method that the invention relates exclusively. To carry out the same it is necessary for an accurate Synchronism of the timing voltage with the pulse repetition frequency must be ensured and at the same time to regulate the phase position of this time deflection so that the Beginning of the ground wave impulse at the point on the screen used for reading the Braun tube shifts.

In the case of poor synchronism, the impulse images migrate over the screen, so that when observing the oscillogram, a minimum setting at the notice point could be faked, but at least the bearing is made more difficult.

From the technology of distance measurement according to the reflection principle With impulses it is now known to calculate the duration of the impulses with the help of a Braunsche Tube display, their time deflection via an additional Recipient, which receives the direct impulses of the transmitter, synchronized with the impulse repetition frequency will.

According to the invention it is proposed in the case of the already explained Impulse direction finding method with relatively long pulses in a similar way inevitable synchronization of the display to effect by the transmitted In addition to the directional receiver, impulses on the receiving side also come from a broadcast receiver are recorded, with both receivers preferably as heterodyne receivers are to be designed with a common oscillator and the received pulses of the radio receiver Via a phase control device for synchronization to the generator for the Timing voltage swirl.

The invention will now be based on what is shown in the figure Exemplary embodiment will be explained in more detail. The DF frame I is over the receiver 2 connected to the vertical deflection system of the cathode ray oscilloscope 3. The horizontal deflection system of this oscilloscope is in the be-Kannen receiving device for the pulse bearing method to which the invention relates, via a Phase shifter with a manually synchronizable with the pulse repetition frequency Tilt generator connected.

According to the invention, however, the synchronization takes place automatically with the aid of an additional receiver 6, which is connected to an omnidirectional antenna 7 connected is. This receiver is simultaneously with the receiver 2 on the wavelength of the transmitter that is to be tracked.

After rectification, an alternating voltage is obtained at the output of the receiver 6, the frequency of which corresponds to the pulse repetition frequency of the transmitter located. This alternating voltage is transmitted to an audio-frequency oscillator via a phase shifter 5 supplied for synchronization. A tilt generator is expediently used as the oscillator used in the manner of multivibrators. The multivibrators have twice as much The advantage is that, first of all, they are easily exposed to the action of an external alternating voltage let synchronize and that they, secondly, a favorable sawtooth voltage deliver. The output voltage of the relaxation generator is with the horizontal pair of plates of the oscilloscope 3 connected. The synchronization obtained in this way is perfect because the two fed to the plates of the cathode ray oscilloscope Voltages are the same voltage source, namely the radiation field of the directional target Transmitter removed.

The natural frequency of the oscillator 3 can be close to the pulse repetition frequency lie or it can be in a subharmonic relationship to it. Around this synchronization device better against atmospheric and other disturbances To protect it, it is also advisable to use the low-frequency amplifier stage of the receiver to build in 6 tone-frequency resonance circuits, which are based on the pulse repetition frequency of the station are matched.

In order to be able to easily coordinate both receivers in synchronism it is designed as an overlay receiver. In both receivers will be the received voltages are first amplified in one or more matched pre-stages and then in a known manner with the help of a common oscillator on the same Intermediate frequencies transposed. This arrangement allows the use of highly selective Recipients, without difficulties in synchronizing the coordination of both recipients appear. It is sufficient if the greater part of the selection is in each of the two recipients is relocated to the intermediate frequency stages. The preliminary stages don't need that to be highly selective.

Claims (1)

PATENT CLAIM: Method for pulse bearing. where the duration of the pulses emitted by the pulse transmitter is greater than that between the direct Signal and the echo existing interval and at the receiving end a directional antenna so set while observing the oscillographically recorded pulse images becomes that the beginning of the oscillogram is strongest at a certain point of interest is extinguished, characterized in that the transmitted pulses are on the receiving side apart from the directional receiver, they can also be picked up by a broadcast receiver, with both receivers preferably as heterodyne receivers with a common oscillator are formed, and that the received pulses of the broadcast receiver via a phase control device act to synchronize the generator for the time base voltage.