RU2695026C1 - Antenna device with switched beam pattern based on passive elements with variable characteristics - Google Patents

Abstract

FIELD: antenna equipment.

SUBSTANCE: invention relates to the field of antenna equipment, in particular to antennas with switched directional pattern. Antenna comprises radiation source, which is constantly connected to power line electric vibrator, surrounded by uniformly located switched passive vibrators, at that control of DP is performed by switching on/off of induced currents, as a result of which passive vibrator can either play the role of reflector for excitation source or be invisible for it. Distance between excitation source and passive vibrators is of order of 0.25 λ. Number of passive vibrators N is selected depending on the requirements for the propeller and the angle of its turn (N=2, 3, ...). Passive vibrator is a dipole consisting of two parallel conductors, one of which has a gap in the middle, at the ends of which there are switching elements.

EFFECT: enabling switching of the beam pattern, reduction of current load on switching elements and reduction of the number of elements to be coordinated with the supply line.

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Description

The proposed device relates to the field of antenna technology and can be used, for example, in corporate, mobile communication systems, as well as special-purpose communication systems.

Providing communication with correspondents located in different directions in the azimuthal plane, requires, depending on the tasks to be solved, different directivity patterns (DN) of the used antenna devices.

With sufficient energy reserves, you can use a antenna with a circular pattern.

With an insufficient supply of energy, as well as in difficult conditions of reception or for reasons of electromagnetic compatibility requires the use of directional antennas with the ability to rotate the direction of radiation.

For these purposes, various methods can be applied: mechanical scanning, frequency control of the beam, phased arrays, SMART antennas, or solutions based on the use of arrays of emitters with switching power supply, which allows you to create a certain DN or to turn it.

A number of antenna devices of this kind are known.

Antenna device with a controlled radiation pattern and a planar directional antenna [1] includes planar directional antennas, each of which is made in the form of a dielectric plate on which an active antenna element is mounted. The surface of the plate facing the active element is metallized and serves as an antenna reflector. The plates are connected along the edges so that they form the side faces of the hollow body of the device. The end face is made in the form of a dielectric plate with a metallized external surface and may also have an active antenna element. An antenna switch located on the inner surface of the end face of the case is connected to the switch control unit and connected to the active elements of the antennas. The active element is fixed with the help of pins made from the body of the active element by cutting it out and then bending it.

In [2], a six-element ring antenna array (CAR) was implemented for a Wi-Fi data transmission system with a controlled radiation pattern based on a flat-screen planar radiators, the emission of each element of which overlaps a certain angular sector. Due to the switching elements of the antenna provides work in all azimuth directions with the required gain (KU).

The Super Scanner M-119 Electronic Sector-Phased Omni-beam antenna [3] of The antenna Specialist, Ltd. consists of three dipoles mounted vertically on the same mast in different sectors of space and switched remotely by a switching device on an RF relay. During operation, the dipoles are turned on in such a way that one excitation source and two reflectors are obtained. Thus, a switchable radiation pattern can be obtained in three directions.

The closest analogue to the technical nature of the proposed device is a "Vibrator antenna with switchable radiation patterns" [4], adopted for the prototype.

FIG. 1 a ) is a diagram of a prototype antenna; FIG. 1 b) - top view, FIG. 1 c) - side view), where indicated:

1.1, 1.2, 1.3 - “thin” shoulders of vibrators;

7 - cylindrical screen;

8 - microstrip line (MPL);

Antenna prototype (Fig 1 a.) - plan view, and FIG. 1 b) - side view) contains a cylindrical screen 7, which is one shoulder of the vibrator. The second arm is connected with the help of switching elements - controlled sluggers “thin” shoulders of vibrators 1.1, 1.2, 1.3. The power circuit is built on the basis of the microstrip line (MPL) 8 and controlled contactors (jumpers) on pin diodes (not shown in Fig. 1).

The cylindrical screen 7 has a length of about a quarter of the wavelength λ and a diameter such that the distances between the arms of the vibrators 1.1, 1.2, 1.3 are about 0.3 λ. The electrical distance along the MPL 8 from the center of the power supply circuit to the power supply points of the vibrator arms 1.1, 1.2, 1.3 in which the controlled contactors are included is 0.25 λ.

If at a given moment of time two contactors are in the “closed” state, then at the inputs of the corresponding segments of the MPL 8, the idle mode is implemented: the entire signal is transmitted to the connection point of one active arm of the vibrator. The vibrator's active arm radiates an electromagnetic wave that propagates in all directions. Since the distances to the currently passive vibrator arms and their lengths are chosen in a certain way, the waves re-radiated by these vibrator arms add up to ~ 120 ° with one main beam in the direction of the active shoulder in space with the primary wave. By making the remaining shoulders active alternately, the main beam can be directed to two other positions.

The radiation pattern in the H-plane is presented in figure 1).

With the ability to control NAM, the antenna prototype, as well as the above analogue antennas, however, have drawbacks.

Rotation of the beam pattern in the prototype antenna is performed by switching the supply currents in the radiating elements. For transmitting antennas at high power transmitting devices, the supply currents have a noticeable magnitude, which leads to increased requirements for switching elements. In addition, since the rotation of the DN alternately active are all elements of the antenna array, they all require coordination with the supply line.

The task is to reduce the current load on the switching elements, reducing the number of elements to be coordinated with the supply line.

The proposed device is illustrated graphic materials.

FIG. 1 a ) - prototype antenna, FIG. 1 b) - side view, FIG. 1 c) - the radiation pattern of the prototype antenna. FIG. 2 a ) —the proposed antenna device; FIG. 2 b) - passive vibrator with jumpers; in fig. 3 - dependence of the radiation pattern for the antenna structure of one active vibrator and one controlled passive (Fig. 3 a )) with closed (Fig. 3 b)) and open (Fig. 3 c)) jumpers; 4 a ) - 4 g) radiation patterns for 4 passive elements are shown.

According to the invention, for the solution of the problem in an antenna device with switchable radiation pattern containing passive and active electric vibrators and switching elements, the active vibrator is constantly connected to the power line and surrounded evenly spaced at a distance of 0.25 λ from it N (N = 2 , 3, ...) commutated passive vibrators with a length of 0.5 λ, consisting of two conductors parallel to each other, one of which has a gap in the middle, at the ends which are located the switching elements that control the antenna pattern of the antenna device by imparting to the passive vibrators either the reflector property or the invisibility property for the active vibrator.

FIG. 2 a ) shows the proposed antenna device, where indicated:

1 - active vibrator;

2, 3, 4, 5 - controlled passive vibrators;

6 - switching elements (jumpers).

FIG. 2 b) shows a passive vibrator, which is a structure of two parallel-arranged conductors 0.5 λ long, one of which has a gap in the middle of the order of 0.04 λ, located at a distance of about 0.005 λ from each other. At the ends of the conductors there are switching elements 6 (high-frequency relays, reed switches, pin diodes), hereinafter referred to as "jumper". With the closure of jumpers passive vibrator turns into a loop vibrator with closely spaced conductors.

The operation of the proposed device is as follows.

If the jumpers 6 are open, then for an incident wave the electrical properties of this passive vibrator, due to the small distance between the conductors, are identical to a single conductor, and the passive vibrator becomes a reflector for the active vibrator 1.

With closed jumpers 6, the total current induced in the conductors of a passive vibrator has a distribution that is different from the current distribution in a single conductor, and the intrinsic excitation frequency of the passive vibrator falls outside the operating range. Such a passive vibrator ceases to play the role of a reflector for an active vibrator and becomes “invisible” to it at a given frequency.

Since the currents induced in the passive vibrators have a much smaller value of the supply currents in the active vibrator 1 — the excitation source — the switching of the radiation pattern can be made while the transmitting device is running, including at significant powers. Only one active vibrator 1 is subject to coordination with the supply line with such a structure of the antenna array.

For illustration, the dependence of the radiation pattern for the antenna structure of one active vibrator and one controllable passive (Fig. 3 a )) with closed (Fig. 3 b)) and open (Fig. 3 c)) jumpers is shown.

As an example, figure 4 a ) - 4 g) shows the radiation pattern for 4 passive elements, evenly arranged in a circle at a distance of 0.25 λ from the excitation source, with a different state of jumpers.

The diagrams for this antenna structure will be as follows:

a) All jumpers are closed - circular diagram with КУ = 2.55 dB, FIG. 4 a ).

b) On one element, the jumpers are open - directional diagram, KU = 5.19 dB, FIG. 4 b).

c) On two adjacent elements, the jumpers are open - directional diagram, KU = 6.93 dB, FIG. 4 c).

d) On two opposite elements, the jumpers are open - directional diagram, KU = 4.16 dB, FIG. 4 g).

Thus, the use of the structure of the antenna device, in which the excitation source is an electric vibrator 1 permanently connected to the power line, surrounded by evenly spaced switched passive vibrators 2, 3, 4, 5, allows controlling the on-off pattern of currents induced in them, resulting which the passive vibrator can either play the role of a reflector for the excitation source, or be invisible to it. The distance between the excitation source and passive vibrators is about 0.25 λ. The number of passive vibrators N is selected depending on the requirements for the bottom pattern and its angle of rotation (N = 2, 3, ...).

Therefore, in comparison with the prototype, the proposed antenna device allows to reduce the current load on the switching elements, to reduce the number of vibrators to be coordinated with the power line.

Information sources.

1. Abramov O.Yu., Kashkarov AG, Nagaev FI, Antenna device with a controlled radiation pattern and planar directional antenna, patent 223017, H01Q 1/00 application date 02.12.2002, publication date 20.07.2004 .

2. Kostikov G.A., Terentyeva P.V. Antenna array with switchable radiation pattern for mobile communication systems // Izv. universities of Russia. Radio electronics. 2017. №1. Pp. 29-35.

3. http://radiochief.ru/antennv/antenna-pereklyuchaemoj-diagrammoj-napravlennosti/.

4. Slezkin V.G., Evenko V.V. Vibrator antenna with switchable radiation patterns. In: 13th Intern. conf. KryMiKo, 2003. Materials conf. - Sevastopol: “Weber”, 2003 - p. 404-405.

Claims (1)

Antenna device with switchable radiation pattern, containing passive and active electric vibrators and switching elements, characterized in that the excitation source is an active vibrator constantly connected to the power line, surrounded by N evenly spaced 0.25 λ from it (N = 2, 3, ... ) commutated passive vibrators with a length of 0.5 λ, consisting of two parallel-arranged conductors, one of which has a gap in the middle, at the ends of which there are commuting elements, control The radiation pattern of the antenna device is obtained by imparting to the passive vibrators either a reflector property or a stealth property for an active vibrator.

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