DE861326C - Display method for bearing direction and distance from pulse back beam direction finders and distance measuring devices - Google Patents

Description

Display method for bearing direction and distance from pulse return beam bearing and distance measuring devices For direction finding devices and distance measuring devices that are after the Working the pulse reflection principle, the task is to measure the distance, the Side and elevation bearings displayed on a single Braun tube. If such Equipment used on flight displays is still required of the pilot the correct orientation and the distance at the same time with a single glance can determine. The present invention accomplishes these objectives.

According to the invention, a display method for the bearing direction and Distance measurement of pulse reflection direction finding systems and distance measuring systems, at which line side and altitude bearing through alternating characteristic control is made, proposed, which is characterized in that on a Braunschen Tube by controlling the electrostatic deflection plates depending on the receiving voltage the effective characteristic for height or side a circle is written whose Diameter is changed depending on the distance of the body to be measured.

Two Braun tubes are provided for the display procedure, from one of which is located on the pilot's instrument panel and one of which is the circle for the bearing, the diameter of which depends on the distance changed will. The second Braun tube serves as a viewing device, that is, on one for example The emitted and the reflected pulse are visible on the linear scale. This Pipe can be placed at the observer's place.

The arrangement is now made so that by means of the display device a phase shifter a bright gap of the width of a pulse shifted in this way is that this gap with the impulse from the object to be measured to cover arrives, so that this pulse is recorded very brightly. On the actual The pilot's reading device is the receiving voltage of the individual characteristics corresponding to the elevation and side bearings, one after the other on two at right angles to each other given standing pairs of baffles. In each case the characteristic position of the antenna accordingly, the received pulses are transmitted to the assigned deflector plate equate. The pulses are stored by capacitors or the like, and by this impulse storage results in potential differences between the plates result in an eccentric displacement of the magnetically written circle.

The deviation of the circle from a fixed phase cross results a measure of the bearing direction. The circle diameter is determined by a potentiometer that depending on the distance of the body to be measured, it is set in its Diameter changed according to the distance. The potentiometer is mechanical connected to the phase shifter for shifting the brightness of the viewing device. If the antenna is rigidly connected to the aircraft, when the circle appears The body to be measured is concentric to the axis cross directly in the axial direction of the aircraft lie. If the drawn circle is eccentric to the axis cross, it can be omitted the direction in which the circle mitbelpunkt lies, determine the bearing direction.

In the figures is an exemplary embodiment of the invention shown.

Fig. I shows the display device, and the luminous circle is drawn as follows: that the object to be tracked is at the bottom right; Fig. 2 shows the display device of the vision device, where A is the direct pulse, B is the reflected pulse; in Fig. 3 shows a circuit arrangement.

Ultra high-frequency impulses are sent out by a transmitter, the from a receiver directly and via the reflective object in known Way to be included. The direct impulse and the reflective impulse become a Braun tube that serves as a viewing device. The transmitting or receiving antenna consists of four individual antennas arranged at right angles to each other, each of which two opposite, end antennas line characteristic for side splitting and generate a characteristic for altitude bearing. The characteristics are sequential brought into effect. A changeover takes place with the synchronous characteristic changeover for the baffles of the Braun tube B2, so that each characteristic position leash baffle is assigned. K is the switch for the baffles, the is driven by a motor M, which switches the bearing characteristics at the same time. The potential differences between the baffles caused by pulse storage of Braun's tube B2 produce a deviation of the written circle from Center of the axbox; the deviation is a measure of the corresponding Bearing position.

In order to be able to select a certain object, is on the Braun's tube B1 a gap the width of its momentum through one Phase shifter Ph shifted so that the selected pulse appears particularly bright. Coupled with the phase shifter is a potentiometer that adjusts the diameter of the Circle written on Braun's tube B2 controls.

But the diameter of the circle is also a measure for the distance of the object to be tracked. The phase shifter is used as a motor formed, the phase adjustment takes place by turning the stator magnets.

Claims (2)

PATENT CLAIMS: I. Notification procedure for the Pleilrichtuag and removal of pulse return beam direction finders and distance measuring devices, in which a side and Altitude bearing is carried out by alternating antenna control, characterized in that that on a Braun tube by controlling four standing at right angles to each other Deflection plates as a function of the receiving voltage of the effective antennas for height or page a circle is written, the diameter of which depends on the distance of the body to be measured is changed. 2. Display method according to claim I, characterized in that to select a specific body on a second Braun tube, which is merely serves as a viewing device, the impulse that hits this body is brightly controlled, by using a phase shifter to create a gap the width of a pulse is shifted in such a way that it coincides with the impulse to be measured, and that a potentlometer is coupled to the phase shifter, which controls the diameter of the circle of the actual display device indicating the bearing direction.