RU2469347C1 - Apparatus for determining coordinates of radio source - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: apparatus has a receiving-direction-finding station with signal correlation processing, lying at a first position. The novelty lies in placing at a second position a directional passive repeater at the receiving-direction-finding station lying at the first position, wherein the sufficiency of the transfer constant of the passive repeater is determined by the relationship:

where E₀₁ is the sensitivity of the receiving device of the receiving-direction-finding station; r₂₃ and r₁₂ denote the distance from the radio source to the passive repeater and from the passive repeater to the receiving-direction-finding station, respectively; λ is the wavelength; E₃₂ is the energy potential of the radio source in the direction of the passive repeater.

EFFECT: eliminating a device unmasking radiation, low power consumption and easier servicing of the receiving station in special application conditions.

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Description

The device relates to passive radar and can be used to determine the coordinates of the source of radio emission when it is necessary to hide the radio emission of the device, and it is also difficult to locate the receiving point on the ground, its power supply and maintenance.

The device implements a goniometric-differential-ranging method for determining the coordinates of a radio emission source, as the point of intersection of two position lines: a bearing on a radio emission source (α) and a hyperbola (Δτ), while the distance to the radio emission source is determined (Fig. 1):

where b is the distance between two positions (base);

α is the angle between the directions to the source of radio emission and the passive repeater (conditional bearing);

Δτ is the time delay between the moments of arrival of the direct and relayed signals at the receiving-direction finding station, measured during correlation signal processing;

C is the propagation velocity of the signal of the source of radio emission.

The closest in technical essence and the achieved technical result to the proposed device is a device that implements a goniometric-differential-range measuring method for determining the coordinates of a radio emission source, including a receiving-direction-finding station with correlation signal processing, placed in the first position, and a receiving station, placed in the second position between which a radio link is established (Theoretical Foundations of Radar, under the editorship of Ya.D. Shirman, M., Sov. Radio, 1970, pp. 494 ... 510).

The disadvantages of this device are the unmasking radiation of the radio link between the positions, the need for power supply and maintenance of the reception center, located in the second position.

The technical result of the invention is to eliminate the unmasking radiation of the device, as well as to reduce power consumption and maintenance of the receiving point in special conditions of use.

The technical result is achieved by the fact that in the known device for determining the coordinates of a radio emission source, including a receiving-direction-finding station with correlation signal processing, placed in the first position, a passive repeater of directional action to a receiving-direction-finding station is introduced into the second position, while the transmission coefficient of the passive repeater is sufficient determined by the ratio:

where E ₀₁ - the sensitivity of the receiving device of the receiving-bearing station;

r ₂₃ and r ₁₂ are the distances from the source of radio emission to the passive repeater and from the passive relay to the receiving-direction finding station, respectively;

λ is the wavelength;

E ₃₂ - the energy potential of the source of radio emission in the direction of the passive repeater.

A comparative analysis of the claimed solution and the prototype shows that the proposed device is different from the known one, which allowed to use the advantages of the prototype and eliminate its disadvantages.

Search results for known technical solutions in this and related fields of technology in order to identify features that match the distinguishing features of the invention showed that there is no information in public sources.

The prior art also does not confirm the popularity of the influence of the distinctive features of the claimed invention on the technical result indicated by the applicant. Therefore, the invention meets the condition of "inventive step".

The proposed device is industrially applicable, since the set of characteristics characterizing it provides the possibility of its existence, performance and reproducibility, and for the implementation of the device passive repeaters of directional action described in the known technical literature can be used.

Figure 1 shows a diagram of the implementation of the device, figure 2 is a structural diagram of a device, figure 3 shows a sketch of a passive repeater type "wave channel" with log-periodic structure of the antenna sheet and its radiation pattern.

The implementation diagram of the device (Fig. 1) contains two positions 1, 2, spaced apart by a distance r ₁₂ = b and a radio emission source 3 located within the working area, limited by the error in determining the range σ _r . The device for determining the coordinates of the source of radio emission (figure 2) contains a receiving-bearing station 4, located at the first position 1, and a passive repeater directional action 5, located at the second position 2.

The essence of the proposed device is to replace the receiving point located at the second position 2, and the radio link between the receiving and receiving-bearing 4 points to a passive repeater directional 5 when the transmission coefficient of the passive repeater is sufficient.

The device operates as follows (figure 1, 2).

The signal of the radio emission source 3 is received by the receiving-direction finding point 4, located at the first position 1, with a delay of r ₁₃ / s, where the conditional bearing (α) to the radio emission source is determined.

At the same time, the signal of the radio emission source 3 is received and relayed with a transmission coefficient (K ₂₁ ) of a directional passive repeater 5, located at the second position 2, to the receiving-direction finding station 4, located at the first position 1, with a delay (r ₂₃ + b) / s . As a result of the correlation processing of the signals received by the direction finding and receiving channels 4, the time delay (Δτ) between the moments of the arrival of the direct and relayed signals to the receiving and direction finding point 4 is determined. The coordinates of the radio emission source 3 by the device are determined by the conditional bearing to the radio emission source (α) and the range to the radiation source (r) calculated in accordance with the expression (1).

The transmission coefficient of the passive repeater 5 is equal to the ratio of the field strength (E ₂₁ ) of the relay signal of the radio source 3 at the first position 1 to the field strength (E ₃₂ ) of the signal of the radio source 3 at the second position (Passive wave-channel repeaters for VHF FM broadcasting, Antennas, issue 9 (76), 2003, pp. 45 ... 48):

The main condition for the implementation of the device is the sufficient transmission coefficient of the passive repeater 5 to create a field strength (E ₂₁ ) at the first position 1, at the location of the receiving-bearing station 4, exceeding the sensitivity (E ₀₁ ) of its receiving device:

For the case of propagation of radio waves in free space, without taking into account the attenuation of the atmosphere and the influence of the earth's surface, the field strength created by the passive repeater 5 in the first position 1 is equal to (Reference on the Theoretical Foundations of Radio Electronics, edited by B.Kh. Krivitsky, V.N.Dulin Volume 1. - M., "Energy", 1977, p. 274 ... 276):

where D ₂₃ is the gain of the receiving antenna of the passive repeater 5 in the direction of the radiation source 3;

D ₂₁ - gain of the transmitting antenna of the passive repeater 5 in the direction of the receiving-direction finding point 4.

From the expression (5) it follows that structurally the transmission coefficient of the passive repeater 5 is determined by the amplifying properties of its transmitting and receiving antennas:

In the well-known technical literature, a lot of options for passive directional repeaters that satisfy condition (6) are considered. In the simplest case, a passive directional repeater (Fig. 3) represents a combination of two highly directional antennas: a receiving one oriented to a radio emission source 3 located within the working area, and a transmitting one directed to a receiving and direction finding station 4. It follows from the device implementation diagram that a receiving antenna with a gain (D ₂₃ ) should have a beam width equal to the sector of the working area of the device (σ _r ), and a transmitting antenna with a gain (D ₂₁ ) should have a maximum th sharpness while maintaining the desired gear ratio. The overshot direction of the transmitting antenna requires rigid fixation of the design of the passive repeater on the support.

In the meter and decimeter wavelength ranges, the most acceptable are passive wave-channel transponders (Passive wave-channel transponders for VHF FM broadcasting, Antennas, issue 9 (76), 2003, pp. 45 ... 48).

The design of the passive repeater type "wave channel" is a decelerating structure of vertical (horizontal) passive vibrators placed on an axis curved in the horizontal plane in an arc at the angle of the relay (figure 2). To expand the operating range of the device, the length of the passive vibrators, their location on the axis can have a log-periodic structure (figure 2).

In the centimeter wavelength range, it is advisable to use mirror-type passive repeaters (Y. I. Nafikov. Directional properties of mirror-type passive repeaters. -M., “Electrosvyaz”, No. 3, 1983, p. 13 ... 18).

At shorter waves, it is possible to use the Eaton-Lipman reflex lens weathered in the form of a cylinder or a ball (EG Zelkin, R. A. Petrov. Lens antennas. - M., Sov. Radio, 1974, p. 191 ... 194).

Thus, in special conditions of application of the device for determining the coordinates of the source of radio emission, when it is necessary to hide the radio emission of the device, it is also difficult to locate the receiving point on the ground, its power supply and maintenance, the use of passive repeaters of directional action instead of the receiving point with a radio line allows you to solve the purpose.

Claims (1)

A device for determining the coordinates of a source of radio emission, containing a receiving-direction-finding station with correlation signal processing, located at the first position, characterized in that the second position has a passive directional relay at the receiving-direction-finding station, located at the first position, while the passive transmission coefficient is sufficient the repeater is determined by the ratio:

where E ₀₁ - the sensitivity of the receiving device of the receiving-bearing station;
r ₂₃ and r ₁₂ are the distances from the source of radio emission to the passive repeater and from the passive repeater to the receiving-direction finding station, respectively;
λ is the wavelength;
E ₃₂ - the energy potential of the source of radio emission in the direction of the passive repeater.

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