RU2552761C2 - Antenna array - Google Patents

Abstract

FIELD: physics, communications.

SUBSTANCE: invention relates to antenna engineering and is intended to construct phased antenna arrays from antenna devices of radio communication systems or radar devices. The antenna array consists of eight radiators mounted on a rectangular flat metal reflector, the radiators being arranged in two lines of four each and the centres of the radiators in the upper line being offset from the centres of the radiators in the lower line by half the distance between the radiators. The reflector has eight holes, the centres of which coincide with the centres of the radiators. The holes are intended for connecting the inner conductor of each radiator to an external feeder liner for signal transmission. The left and right lateral edges of the reflector are tapered at an angle to the lower edge of the reflector. A recess is made on the surface along the periphery of the reflector.

EFFECT: designing antenna devices with a large number of radiators by mounting multiple copies of an antenna array next to each other, wider field of use owing to independent adjustment of amplitude-phase ratios in the circuit of each radiator and high vibration resistance of the structure.

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Description

The invention relates to antenna technology and is intended to build phased antenna arrays from the composition of the antenna devices of radio communication systems and radar devices.

Known antenna array [1 - RF Patent 2296400 from 2007], made in the form of a series of vibrator emitters, placed with a step equal to half the wavelength, on the housing of the distribution system, made on a rigid coaxial line, characterized in that to the distribution points of the distribution of the system, the segments of the hard coaxial line connected to the middle vibrator emitters connected to it, forming together with quarter-wave transformers connecting the total input connected to the middle of the distribution system the indicated vibratory emitters, a ring bridge to which the differential input is connected at a quarter wavelength from one of the indicated vibrator emitters and three quarters of the wavelength from the other, and antiphase excitation of the halves of the linear antenna array and, accordingly, the formation of the differential radiation pattern is provided by the difference in paths from this differential input to the points of connection of the ring bridge to the distribution system, which is half the wavelength.

The disadvantage of this antenna array is the inability to change the phase relationships in the circuit of each emitter.

The closest in essence to the invention is an antenna [2 - RF Patent 2225663 of 2004], taken as a prototype, including at least one emitter with a supply coaxial cable having an external conductor and an internal conductor, a connector for receiving and transmitting apparatus and a reflector, wherein the emitter comprises a first half-wave dipole vibrator and a second half-wave dipole vibrator, which are detuned from one another in frequency and mounted on opposite surfaces of the dielectric substrate, made of fiberglass, the first half-wave dipole vibrator is made in the form of two flat metal elements having the same rectangular shoulders, each of which is connected by a tapered trapezoidal section with a cable of different lengths for each element, determined from the conditions for ensuring the matching of the supply cable, and the external conductor of the supply cable is connected to one of these elements, which has a long loop, and the inner conductor of the specified cable is connected to the element with a short loop, W The swarm half-wave dipole vibrator is made in the form of two metal flat elements forming rectangular shoulders, the length and width of which are equal to the length and width of the rectangular shoulders of the first half-wave dipole vibrator, and the rectangular shoulder of the second half-wave dipole vibrator, opposite the flat metal element with a long train of the first half-wave dipole vibrator made with a lower bevel facing the short side of the other rectangular shoulder of the second half-wave dipole wave Rathore, the thickness of the dielectric substrate is selected from the condition providing capacitive coupling between the said vibrators and the same shoulder of said vibrators are connected by metal webs arranged along the length of the shoulders to provide inductive coupling between said vibrators.

The reflector is made flat, and one or more emitters are perpendicular to it, the planes of the emitters are located along the longitudinal axis of the antenna.

The antenna is equipped with an adder divider connected to a connector for receiving and transmitting equipment and each of the supply coaxial cables of the emitters.

The disadvantages of the prototype include:

- the inability to install multiple instances next to each other to build large antenna devices. The bearing base in the prototype is a flat reflector on which the emitters are mounted, it is obvious that it cannot provide mechanical strength of the structure with an increase in the number of emitters over a certain value. When constructing an antenna device containing, for example, a hundred emitters, it is necessary to install several identical antenna arrays on a common supporting structure with a small number of emitters in each next to each other. However, the design of the prototype does not provide elements that ensure the docking of several identical instances and fastening to the supporting structures of the antenna device when building an antenna device with a large number of emitters;

- all emitters are connected to a passive adder-divider, in the reception mode, the connector of the adder-divider is the antenna output, and the phase relations when summing the received signals are fixed and are determined by the length of the segments of the connecting cables (loops). The situation is similar in transmission mode, only the antenna input is the same connector of the adder-divider, which works as a signal divider. This significantly narrows the scope of the prototype. So, the prototype cannot be used in active phased array antennas (AFAR) with adjustable amplitude-phase relationships in each channel, that is, in the circuit of each emitter. Recently, AFAR with digital beamforming (DF) has become more widespread, in which the signals from the outputs of the emitters are converted to digital samples, the amplitude-phase relationships in each channel are regulated by digital processing, the summation of the signals from the outputs of the processing channels is carried out in a digital adder . Thus, the prototype cannot be used in modern antenna arrays;

- the construction of emitters in the form of elements etched on fiberglass, perpendicular to the reflector of the antenna array, the emitters are interconnected by narrow metal strips, which does not provide mechanical rigidity of the antenna, therefore it cannot be used in shaking conditions, for example, as an antenna on a movable carrier.

The aim of the invention is to provide the possibility of building on its basis antenna devices with a large number of emitters by installing several instances of the antenna array next to each other, expanding the scope by ensuring the independence of the adjustment of the amplitude-phase relationships in the circuit of each emitter and increasing the vibration resistance of the structure.

To achieve this goal, an antenna array is proposed, including a reflector and several emitters, each of which contains a symmetric vibrator made in the form of two flat metal elements having the same rectangular shoulders, an external and internal conductor for connecting a symmetric vibrator to an external signal transmission line, while emitters are located perpendicular to a flat metal reflector, the planes of the emitters are located along the axis of the antenna array.

According to the invention, the vibrator connecting conductors are made in the form of a flat air three-wire transmission line containing two external conductors on which the arms of the symmetrical vibrator and the inner conductor located between them are attached, the emitters are located on the reflector in two lines of four emitters each, and the centers of the emitters the upper ruler is offset relative to the centers of the emitters in the lower ruler by half the distance between the emitters, the reflector has eight rectangular holes, the center which coincide with the centers of the emitters, designed to connect the inner conductor of each vibrator of the emitter with the external signal transmission line, the left and right side edges of the reflector are beveled at an angle to the lower edge of the reflector, along the perimeter of the reflector, the surface is diminished, on which the groove for installing the conductive strip while the placement of the lines of emitters on the reflector ensures the preservation of the pitch of the emitters in adjacent antenna arrays when installing any lichestva antenna arrays next to one bearing structure to each other.

A comparative analysis of the claimed device and prototype shows that the claimed device is characterized in that:

- the reflector in the prototype has a rectangular shape, in contrast, in the proposed device, the reflector has a beveled left and right side edges that provide the installation of antenna arrays next to each other, while maintaining the same distance between the emitters at the boundaries of the antenna arrays when building antenna systems with a large number of emitters. In addition, along the perimeter of the reflector, the surface is lowered, on which the groove for installing the conductive strip is located, which provides reliable electrical contact with the supporting structure to which the reflector is attached;

- the prototype uses flat emitters, which are symmetrical vibrators made by etching foil fiberglass, installed perpendicular to the reflector, to connect the vibrator to an external signal transmission line, external and internal conductors are used. In contrast, the proposed device uses all-metal symmetrical vibrators, while the vibrator arms are mounted on the external conductors of the three-wire overhead transmission line, the inner conductor is located between the external conductors of the transmission line, the vibrators are made by milling or casting, which ensures vibration resistance of the structure;

- in the prototype, the outputs of the emitters are connected to the adder-divider, the output of the prototype in the reception mode is the connector of the adder-divider, in the transmission mode the input of the prototype is the same connector. In contrast, in the proposed device, each emitter has its own output, which provides an extension of the scope of the device and the possibility of its use in the AFAR with the adjustment of phase relations in the circuit of each emitter;

- in the prototype emitters are installed in one line along the reflector. In contrast, the proposed device has two lines of four emitters each, and the emitters are located in nodes of a triangular grid, that is, the location of the centers of the emitters in one line is offset relative to the other line by half the distance between the emitters, which gives 15% savings in the number of emitters the same area of the reflector [3 - Microwave devices and antennas. Designing phased array antennas. Ed. DI. Voskresensky, M., "Radio Engineering", 2003 - p. 65].

The combination of distinguishing features and properties of the proposed antenna array is not known from the literature, therefore, it meets the criteria of novelty and inventive step.

Figure 1 shows the appearance of the proposed antenna array.

Figure 2 shows the appearance of the antenna device of four antenna arrays mounted next to each other.

The antenna array (Fig. 1) consists of eight emitters 1 mounted on a flat metal reflector 2, emitters 1 are arranged in two lines of four pieces each, the centers of the emitters 1 in the upper line are offset from the centers of the radiators in the lower line by half the distance between the radiators 1 to the right.

The reflector 2 has eight rectangular holes 3, the centers of which coincide with the projections of the centers of the emitters 1 on the reflector 2, designed to connect the inner conductor of each vibrator of the emitter with an external signal transmission line (not shown in Fig. 1).

The left and right side edges of the reflector 2 are beveled at an angle to the lower edge of the reflector 2. Along the perimeter of the reflector 2, the surface 4 is reduced to maintain the plane of the antenna sheet when attaching the antenna array to the supporting structure (not shown in Fig. 1). Along the perimeter of the reflector 2, a groove 5 is made for installing a conductive strip (not shown in FIG. 1).

The placement of the lines of emitters on the reflector (figure 2) ensures the preservation of the pitch of the emitters in adjacent antenna arrays when installing any number of antenna arrays next to each other on the same supporting structure (not shown in figure 2).

The emitter 1 is a symmetric vibrator with elements of its attachment to the reflector 2, while the vibrator arms are mounted on the outer conductors of a flat three-wire overhead transmission line, the inner conductor is located between the outer conductors of the transmission line and is used to connect to an external feeder signal transmission line (in Fig. 1) through hole 3. The shape of the vibrator is similar to the symmetrical vibrators in [3 - p. 222, Fig. 2.6.1a - 2.6.1c].

The emitters 1 are made of duralumin by casting or milling and represent a single design, which ensures their high vibration resistance.

The reflector 2 is made of duralumin by casting or milling.

The emitters in the proposed antenna array have separate outputs, which makes it possible to build multi-element AFARs with adjustable amplitude-phase relationships in each channel and allows generating calculated field distribution values with high accuracy in the AFAR aperture. In the prototype, all emitters are connected to the adder-divider, and the phase and amplitude relationships between the signals in the emitters are determined by the length of the lengths of the connecting cables between the emitters and the adder-divider and are fixed.

The distance d between the centers of the emitters 1 is determined by the maximum deflection angle θ ₀ in the beam scanning sector along the corresponding plane - azimuthal or elevation when using the antenna array in the AFAR in accordance with the ratio [3 - p. 34]:

d / λ≤1 / (1 + sinθ ₀ ),

where λ is the wavelength of the signal used.

The proposed antenna array provides the construction on its basis of antenna devices with a large number of emitters by installing any number of instances of the antenna array next to each other, while maintaining the estimated distance between the emitters, and performed along the perimeter of the reflector 2 surface undercut and a conductive strip installed in the groove 5 provide reliable electrical contact with the supporting structure to which the reflectors are attached.

The antenna array can be used in two operating modes, depending on the operating mode of the system in which it is used:

- in the transmission mode, each emitter is excited by a signal supplied to its input via an external feeder line from the transmission equipment. The antenna array provides the formation of a radiation pattern, the shape and direction of the maximum of which are determined by the amplitude and phase ratios of the signals supplied to the emitters [3 - p.29];

- in the reception mode, each emitter is excited by a signal supplied to it from the ether, then this signal is transmitted via an external feeder line for further processing to the reception equipment. In this mode, the antenna array provides the formation of a radiation pattern, the shape and direction of the maximum of which are determined by the amplitude and phase relationships established in the channels of the receiving equipment.

According to the proposed technical solution, an AFAR mock-up with digital formation of the beam pattern was made; experimentally measured characteristics confirm the calculated data.

Claims (1)

An antenna array including a reflector and emitters, each of which contains a symmetric vibrator made in the form of two flat metal elements having the same rectangular shoulders, an external and internal conductors for connecting a symmetric vibrator to an external signal transmission line, while the emitters are perpendicular to the flat metal the reflector, the plane of the emitters are located along the axis of the antenna array, characterized in that the conductors connecting the vibrator are made in the form of a flat an air-conditioned three-wire transmission line containing two external conductors on which the arms of the symmetrical vibrator and the inner conductor located between them are attached, the emitters are located on the reflector in two lines of four emitters in each, and the centers of the emitters in the upper line are offset from the centers of the emitters in the lower line by half the distance between the emitters, the reflector has eight rectangular holes, the centers of which coincide with the projections of the centers of the emitters on the reflector, designed To connect the inner conductor of each vibrator of the emitter with the external signal transmission line, the left and right side edges of the reflector are beveled at an angle to the lower edge of the reflector, along the perimeter of the reflector, the surface is diminished, on which there is a groove for installing a conductive strip, while placing emitter lines on the reflector ensures the preservation of the spacing of the emitters in adjacent antenna arrays when installing any number of antenna arrays next to each other for one pinched design.

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