WO2018124932A1 - Transmitting radiator - Google Patents

Abstract

The utility model relates to the field of antenna technology and can be used in the design and manufacture of phased antenna arrays. A dipole radiator comprises: a base; two conductors, the longitudinal axes of symmetry of which are parallel to one another, and the end portions of which are coupled to the base and are electrically interconnected; two symmetrical arms in the form of flat elements, each of which is coupled to a corresponding end portion of each of the conductors, opposite the base, such that an acute angle is formed between the inner face of the flat element and the longitudinal axis of each of the conductors; and a means for supplying a high-frequency signal. The base, conductors and arms are made from a single workpiece of sheet metal. Each of the arms has a variable width which decreases in a direction away from the corresponding conductor. The conductors are rectangular elements with a width of (0.029-0.033)λ, and are separated by a gap with a width of (0.008-0.01)λ, where λ is the centre wavelength of the operating range. The utility model provides a dipole radiator which is very easy to manufacture and reproduce, does not require additional tuning, and has a minimal standing-wave ratio when used in a phased array with a 50 degree scanning angle.

Description

 Transmitter

The utility model relates to the field of antenna technology and can be used in the design and manufacture of phased array antennas (PAR).

 A known vibrator emitter containing a base, two conductors, the longitudinal axis of symmetry of which are parallel to each other, and the end parts are connected to the base and are electrically connected to each other, two symmetrical arms made in the form of flat elements, each of which is connected with the corresponding end part of each conductors opposite the base, with the formation of an acute angle between the inner face of the flat element and the longitudinal axis of each of the conductors, and means for summing the high-frequency signal (see RU 2472262 C1, 01/10/2013).

 Known vibrator emitter adopted as the closest analogue to the claimed transmitting module.

 The disadvantages of the known vibrator emitter are the low manufacturability due to its design features, implying the use of welded joints.

 An object of the present invention is to provide a vibrator emitter devoid of these drawbacks.

 The result is a technical result consisting in ensuring high adaptability and repeatability of manufacturing a vibrator emitter, in the absence of the need for additional adjustment, as well as in ensuring a minimum standing wave coefficient (SWR) when using a vibrator emitter in a phased array with a scanning angle of up to 50 degrees .

The specified technical result is achieved by creating a vibrating emitter containing a base, two conductors, the longitudinal axis of symmetry of which are parallel to each other, and the end parts are connected to the base and electrically connected to each other, two symmetrical arms made in the form of flat elements, each of which is connected with the corresponding end part of each of the conductors, opposite the base, with the formation of an acute angle between the inner face of the flat element and the longitudinal axis of each of the wires odnikov, and a means of summing a high-frequency signal. The mentioned base, conductors and shoulders are made of a single billet of sheet metal. Each of the shoulders is made of variable width, decreasing away from corresponding conductor. Conductors are rectangular elements with a width of (0,029-Κ), 033) λ, separated by a gap of width (0,008 + 0,01) λ, where λ is the average wavelength of the operating range.

 In a particular embodiment, said acute angle is 60 degrees.

 In another private embodiment, the angle between the inner and outer faces of the flat element is 12-And 4 degrees.

 In yet another particular embodiment, the emitter has two ends, separated by a gap, each of which is formed by the end of the corresponding conductor and a flat element.

 In FIG. 1 is a front view of a vibrator emitter.

 In FIG. 2 shows a top view of a vibrator emitter.

 In FIG. 3 is a side view of a vibrator emitter.

The vibrator emitter shown in FIG. 1-3, contains a base 1, two conductors 2 and 3, the longitudinal axis of symmetry of which are parallel to each other, and the end parts are connected to the base 1 and are electrically connected to form a two-wire line with a short-circuit loop, two symmetrical arms 4 and 5, made in the form of flat elements, each of which is connected with the corresponding end part of each of the conductors 2 and 3, opposite the base 1, with the formation of an acute (in a specific embodiment, equal to 60 degrees) angle αι between the inner face of the flat element and the longitudinal axis of each of the conductors 2 and 3, and means for supplying a high-frequency signal (coaxial cable) 6.

 Mentioned base 1, conductors 2 and 3 and shoulders 5 and 6 are made of a single billet of sheet metal.

The shoulders 4 and 5 are made of variable width, decreasing away from the conductors 1 and 2, with the formation of an angle a ₂ between the inner and outer faces of the flat element, in a particular embodiment, comprising 12 + 14 degrees.

 Conductors 2 and 3 are rectangular elements with a width of (0.029 0.033) λ, separated by a gap of width (0.008 + 0.01) λ, where λ is the average wavelength of the operating range.

In addition, the conductors 2 and 3 are connected by a dielectric jumper 7, mounted on them with rivets 8. Also, the inventive emitter includes a screen 9, on which the base 1 is fixed with rivets 10. The screen 9 is made in the form of a round plate with holes 1 1 arranged in a circle, providing fastening of the emitter to elements of a phased antenna array (not shown).

 The screen 9 has a hole 12 for accommodating the cable 6 and a handle 13 for ease of installation of the emitter on the elements of the phased antenna array.

 Coaxial cable 6 has a connector 14 and is fixed to conductor 3 by means of a clamp 15. The central conductor of coaxial cable 6 is connected to conductor 2 by means of ferrule 16. The shielding conductor of coaxial cable 6 is connected by conductor 17 to conductor 3.

 The base 1 has a step 18 to increase rigidity.

 The claimed emitter is used as one of the main elements of the PAR.

 In transmission mode, the emitter is excited by a signal supplied to connector 14 via an external feeder line from the transmission equipment.

Claims

Claim

1. A vibrator emitter containing a base, two conductors, the longitudinal axis of symmetry of which are parallel to each other, and the end parts are connected to the base and are electrically connected to each other, two symmetrical arms made in the form of flat elements, each of which connected with the corresponding end part of each of the conductors, opposite the base, with the formation of an acute angle between the inner face of the flat element and the longitudinal axis of each of the conductors, and a means of summing a high-frequency signal, different characterized in that the said base, conductors and shoulders are made of a single blank of sheet metal, with each of the shoulders being made of a variable width, changing away from the corresponding conductor, and the conductors are rectangular elements with a width of (0,029-), 033) λ, separated by a gap of width (0.008 - ^ - 0.01) λ, where λ is the average wavelength of the working range.

 2. The emitter according to claim 1, characterized in that said sharp angle is 60 degrees.

 3. The emitter according to claim 1, characterized in that the angle between the inner and outer faces of the flat element is 12-I 4 degrees.

 4. The emitter according to claims 1 to 3, characterized in that it has two ends separated by a gap, each of which is formed by the end face of the corresponding conductor and a flat element.