RU149863U1 - Antenna-mast device of the radio-beacon of the glide path (AMU RMG) - Google Patents

Abstract

Antenna mast device of a glide path radio beacon (AMU RMG), two-frequency, the coverage area of which is formed by two independent radiation patterns of two channels formed by two carrier frequencies, containing three emitters placed on a vertical mast at heights h, 2h, 3h, characterized in that the height h is selected with the possibility of arranging at an angle of glide path of the first minimum in the interference radiation pattern of the antenna at a height of 2h, the emitters being mounted on holders with the possibility of rotation in Horizontal plane and offset from each other so that the established mast antenna device is directed in the offset direction of the runway (GDP), and their centers placement line represents an arc of radius R in a plane perpendicular to the axis of GDP.

Description

The utility model relates to the field of radio navigation and can be used in instrumental aircraft landing systems. Glide path radio beacon (RMG) is designed to emit electromagnetic signals into space. According to the principle of operation, the RMG is a dual-frequency beacon. The coverage area of the proposed RMG is formed by using two independent radiation patterns (two channels - “narrow” and “wide”) formed by two carrier frequencies.

Known two-frequency radio beacon containing three emitters located on a vertical mast, which emits total signals that determine the course and size, and a means of controlling the emitted signals (US 4599621, G01S 1/16, publ. 08/08/1986). The device provides the elimination of unwanted signal components. This technical solution allows for accurate verification of the correspondence of the clearance signal to the actual size, however, additional control of the course line and course width is necessary. Otherwise, errors may occur during the transmission of signals from the transmitter to the antennas.

The closest analogue of the claimed utility model is the antenna-mast device of a glide path beacon (AMU RMG), a two-frequency one, the coverage area of which is formed by two independent radiation patterns of two channels formed by two carrier frequencies, including three emitters placed on a vertical mast at heights h, 2h, 3h (US 5546095, H01Q 3/30 publ. 08/13/1996). The device provides higher accuracy when tracking an aircraft and preventing distortion of the radiated glide path control signal due to the reflection of signals from the ground under snow conditions. However, this device does not prevent signal distortion that occurs when the terrain is uneven.

The technical result, the achievement of which the creation of the proposed utility model is aimed, is to increase the accuracy of orientation of the aircraft in a vertical plane at the final stage of approach and during landing in difficult terrain.

The technical result is achieved due to the fact that in the antenna mast device of the glide path beacon (AMU RMG), a two-frequency one, the coverage area of which is formed by two independent radiation diagrams of two channels formed by two carrier frequencies, containing three emitters located on a vertical mast at heights h, 2h, 3h, height h is selected with the possibility of arranging at an angle of glide path of the first minimum in the interference radiation pattern of the antenna at a height of 2h, the emitters being fixed on firs pivotable in a horizontal plane and are displaced relative to each other so that the established mast antenna device is directed in the displacement direction of the runway (GDP) line of their centers of their placement is the arc radius R in the plane perpendicular to the axis of GDP.

In FIG. 1 shows a General view of the claimed antenna mast device glide path beacon (AMU RMG); In FIG. Figure 2 shows the mounting of the emitter on the mast.

The antenna-mast device of the glide path beacon (AMU RMG) contains three emitters 1 placed on a vertical mast 2 at heights h, 2h, 3h. A beacon is a two-frequency one, the area of its operation is formed by two independent radiation diagrams of two channels formed by two carrier frequencies. The height b is selected with the possibility of arranging at an angle of glide path the first minimum in the interference pattern of the antenna (emitter) located at a height of 2b. The emitters 1 are mounted on holders 3 with the possibility of rotation in a horizontal plane. The emitters are offset from each other so that in the installed antenna mast device this offset is directed towards the runway (GDP), and the line along which the centers of the emitters is located represents an arc of radius K in a plane perpendicular to the axis of the GDP.

The carrier frequencies of the “narrow” and “wide” channels are symmetrically spaced relative to the nominal frequency selected on the ICAO frequency grid for a given landing direction. Range of working frequencies from 329 to 335 MHz; radiation polarization - horizontal; limits of adjustment of the glide path angle from 2 ° to 4 °.

Coefficient of directional action (KND) - not less than 15.

AMU RMG has three design options corresponding to heights h equal to 17, 19 and 21 m.

At small angles to the horizon, radiation along the “narrow” channel is practically absent, due to which signal re-reflections from uneven terrain that cause glide path curvature are minimized. The “wide” channel provides the necessary coverage of the RMG at small angles, and the “narrow” channel provides the accuracy of the beacon.

Claims (1)

Antenna mast device of a glide path radio beacon (AMU RMG), two-frequency, the coverage area of which is formed by two independent radiation patterns of two channels formed by two carrier frequencies, containing three emitters placed on a vertical mast at heights h, 2h, 3h, characterized in that the height h is selected with the possibility of arranging at an angle of glide path the first minimum in the interference radiation pattern of the antenna at a height of 2h, the emitters being mounted on holders with the possibility of rotation in Horizontal plane and offset from each other so that the established mast antenna device is directed in the displacement direction of the runway (GDP), and their centers placement line represents an arc of radius R in a plane perpendicular to the axis of GDP.

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