DE962901C - Radio location system for the detection of dispersed people - Google Patents

Description

ISSUED MAY 2, 1957

U 2079VIIIa, / 2i a * LIBRARY

DES DSUT & CHE «

\ PATEBTABTBS J

is taken into account

The invention relates to a known one System of Funkoirtung, by means of which dispersed persons, z. B. Sdhiffbrüchilge, 'fast and safe by a Suohfaihrzeug, z. B. an airplane or a surface ship are to be determined. The scattered Person carries a radio transmitter with him, the Suehfakrzeug carries a receiver that a targeting allowed.

It is known to design the display on the receiving end so that a recording of the received signal takes place on the screen of a cathode ray tube in such a way that that a control movement of the cathode ray corresponding to the time base takes place along an axis. The reception of a signal is then achieved by deflecting the beam from the time base line displayed. With such a system, however, there are also constant displays that refer to atmospheric Interference and tube noise. But it is necessary that each received signal is so clearly visible that it appears more strongly than this interference indicator. It is also desirable that the display can be evaluated as simply as possible so that no special aids are required and to recognize with certainty which station is being received.

This is taken into account according to the invention in that the transmitter sends periodic pulse groups of two pulses each with a pulse spacing characteristic of the individual transmitter and that the time base circuit of the receiver is controlled by the received signal in such a way that the first pulse received in each case triggers the time deflection and on and the same point on the screen of the cathode ray tube appears, but the following second pulse is recorded at a characteristic distance therefrom on the time line. Such a screen image stands out better from the interference level and can be reliably evaluated by determining the distance between the second pulse series and a fixed point defined by the first pulse display. The oscillographic display of periodic pulse pairs is already known in the case of nocturnal pulse tracking; However, the pulse pairs only come about on the way from the transmitter to the receiver by double-path propagation and are not recorded in such a way that the first pulse always appears in the same place on the screen.
In the drawing shows

Fig. Ι the individual parts of a beacon representing Device according to one embodiment of the invention,

2 shows a circuit diagram of a beacon in connection with a signaling device,

3 shows a circuit diagram of the receiving arrangement on the search vehicle.

According to FIG. 1, 1 is a high frequency device shown, which contains an oscillator, and with 2 a signaling device. The high frequency part 1 is provided with a collapsible antenna 3 which, when not in use, is in its is held in the folded state by a bracket 4. With the bracket 4 are a Loop 5 and a (not shown) main switch connected, which switches on the beacon when the clamp 4 is removed. A battery 6 serves as the power source for the beacon, either low-voltage and contains high voltage parts or a low voltage part with a breaker. The different parts are connected to each other in the orphan that they are, for example, in a inflatable life jacket can be accommodated, with all individual parts waterproof are executed.

When starting up, the loop 5 is pulled, whereby the clamp 4 is removed and thereby an extension of the collapsible antenna 3 and the activation of the beacon is permitted. If the signaling device 2 is connected, needs no further action to be taken by the person carrying the beacon.

In Fig. 2, which shows the circuit of the beacon in connection with "a Siignalfeiereinriditung", V ₁ denotes the oscillation tube of a pendulum circuit, the frequency of which is determined by a resistor R ₁ and a capacitance C _1. Each pendulum is divided into two Two pulses belonging to a group are subdivided by a circuit which contains the self-induction L ₂ , the resistance R ₂ and the capacitance C _2. The main components of the signaling device therefore consist of the parts R ₁ , C ₁ , R ₂ , C ₂ and L _2. The number of pulse groups transmitted per second can be between about 100 and 1000, the time interval between successive pulse groups being long compared to the duration of each pulse group.

All the impulses that arrive in the receiver are able to be shown on the screen of the display tube To appear, however, the diversity of the groups allowed by each broadcaster sent out so that each pulse group can be easily distinguished from the others, since the second impulses from the different transmitters appear at different points on the screen, so that the time interval between the first and second pulse of a group is a characteristic Differentiator for each transmitter is.

The receiver arrangement according to the invention can, as shown in FIG. 3, consist of a heterodyne receiver α known per se, at the output of which on the one hand a time base tilting circuit b is connected in series with a time base deflection means c and on the other hand with the deflection means of the other Axis of the cathode ray tube is connected, on the screen of which the reception display can be read. The deflection time of the time base circle is dimensioned so that it is only slightly longer than the duration of the longest pulse group of one of the transmitters.

When a pulse group arrives at the receiver, the time base cycle is triggered, whereby the first pulse of the group appears at the beginning of the time base track on the screen and the second on a point that is a bit away from this track at. a distance from the beginning, the depends on the time interval between the pulses. As stated above, the Sampling time of the time base circle is slightly longer than the duration of a group. As a result, the Time base circle to display another group shortly after a group is displayed on the screen.

You can see that the first display on the screen corresponds to the first impulses of all transmitters no correct, whose signals are to be received, with these first pulses at the beginning of the time base track are pressed, and the second pulses of each of these transmitters at different distances from the impressed first 'impulses appear. A movable one can be used to make reading easier Slider can be provided, which consists of a slotted aperture or preferably can consist of electrical means in order to generate a certain · pulse for a bright glow bring while the others are weakened.

The indication of the direction of a transmitter relative to the receiver can be achieved in the usual way by using two antennas e _v e _s which are arranged on the search vehicle and their axes to each other in the horizontal

Level are inclined. Automatically operated, interconnected switches f _v f ₂ connect the heterodyne receiver alternately to each antenna, and synchronously with this, the display on the screen is switched from one side of the time base line to the other, with the relative lengths of the two signals then the relative direction of the transmitter Show.

Claims (2)

PATENT CLAIMS: i. Radio location system for the detection of displaced persons by means of a search vehicle, consisting of a transmitter carried by the displaced person and one carried by the search vehicle worn receiver that has a cathode ray tube contains, characterized in that the transmitter includes periodic pulse groups of two pulses each for the individual transmitter characteristic pulse spacing and that the time base circle of the receiver through the received signal is controlled in such a way that the respective first pulse received is the time deflection triggers and at one and the same point on the screen of the cathode ray tube appears, but the following second impulse is at a characteristic distance from it on the time line is recorded. 2. Radio location system according to claim i, in which the receiving arrangement contains a heterodyne receiver whose output both with the time base tilting circle as well as directly with the means of deflection for one Axis of the cathode ray tube is connected, characterized in that the deflection time of the? ', Time base circle is dimensioned so that it is only slightly longer than the duration of the longest Impulse group of one of the transmitters to be received. Considered publications:
German Patent Nos. 684 804, 705 190; Swiss patent specification No. 236 134. 1 sheet of drawings © 609 706/279 10.55 (609873 4.57)