RU223759U1 - Antenna amplifier of circular polarization with orthogonal polarization inclined vibrators - Google Patents

Abstract

The utility model relates to devices for changing the shape of the radiation pattern of waves emitted by antennas, and can be used as an improvement to systems of standard omnidirectional antennas that implement circular polarization of wireless radios, mainly in radio channels for supporting multicopter flights. The problem solved by the utility model is to improve the technical and operational characteristics of the antenna system. To solve the problem and achieve the specified technical result, a circularly polarized antenna amplifier with inclined vibrators orthogonal in polarization contains a system of passive vibrators, which are at least three directors located on a rotatable mounting crossbeam installed on the active vibrator. At a minimum, with passive directors, two active vibrators with a phase shift of 90 degrees along the power connection are spaced apart and located symmetrically at an angle to the antenna directivity axis. Directors located in the planes of active vibrators oriented towards the direction of the antenna, in which, starting from the director installed perpendicular to the directional axis of the antenna towards the direction of the antenna, the lengths of the directors are commensurate with λ/4. Directors located towards the active vibrator, within the boundaries of the lines of projection onto the active vibrator of the endings of the directors located towards the direction of the antenna, at transition angles to the angle of inclination of the active vibrator, have director lengths within λ/4-λ/2. Moreover, the distance between the ends of the directors on the side of the shortest length of the vibrator blade is commensurate with λ/8.

Description

The technical solution relates to devices for changing the shape of the radiation pattern of waves emitted by antennas, and can be used as an improvement to systems of standard omnidirectional antennas that implement circular polarization of wireless radios, mainly in radio channels for multicopter flights.

The intensification of the development of wireless technologies leads to the continuous improvement of all its constituent elements, of which antennas play one of the primary functions. The introduction of wireless local network technologies into everyday life has necessitated the development of improved antenna devices for use in an increasingly complex electromagnetic environment.

The “WiFiLADDER” antenna is known, designed to increase the coverage area of a Wi-Fi network in a given direction (https://ladder.remo-zavod.ru/ (date of access: 01/08/2023). The antenna is made in the form of a passive director structure, which is installed on standard active vibrators of Wi-Fi routers and access points and provide signal amplification in one direction and suppression of interfering signals and interference in the other due to the formation of a radiation pattern.

The disadvantage of the known antenna is that it is not suitable for use with inclined active vibrators.

The introduction of unmanned aerial vehicles in the areas of industrial and military development, commerce and sports determines the requirements for increasing the range of receiving large amounts of information from them, provided by the operation of radio channels in the SHF range.

Known 5.8 GHz Yagi antenna signal amplifier for DJI Mavic 3/Air 2/2S/2 Gray https://www.ozon.ru/product/usilitel-signala-antenny-yagi-5-8-ggts-dlya-dji -mavic-3-air-2-2s-2-grey-686642571/?sh=xrrBEWpNaQ#section-description--offset-140 (accessed 01/08/2023). The well-known antenna signal amplifier is made identical to the “WiFiLADDER” antenna with transformation into the SHF range at a frequency of 5.8 GHz and is intended for use in control panels and receiving information from multicopters to vertical vibrators. In turn, the most optimal and promising systems for controlling multicopters are FPV glasses/FPV helmets (https://dronomania.ru/top/top-fpv-ochkov-shlemov.html?utm_refen-er=https%3A%2F%2Fwww Google antennas. The applied tilt and spacing of active vibrators at reception, with polarization compatibility of the radio channel transceiver devices, in addition to increasing the reliability of operation in the unpredictable spatial position of the controlled multicopter and the multicopter pilot, the effects of linearly polarized interference in the environment of radio wave propagation, provide up to one and a half times increase in the efficiency of radio channels. .

A disadvantage of the known antenna system is that its use with inclined active linear vibrators is unsuitable for the use of classical signal amplifiers.

The closest technical solution to the proposed one is the Wi-Fi antenna adapter (RU patent No. 116277 dated May 20, 2012). The antenna adapter contains a system of vertical passive vibrators, which are a reflector and at least two directors, a horizontal traverse, where the reflector is installed on a separate traverse, the directors are also installed on a separate traverse, and each traverse is equipped at one end with a ring with the ability to rotate them around the axis of the active vibrator .

The disadvantage of the prototype, with increased capabilities for changing the antenna structure of the wave channel type, is the inability to use it with inclined active vibrators.

The problem solved by the utility model is to improve the technical and operational characteristics of the antenna system.

The technical result to be achieved by the claimed utility model is to increase the gain of the antenna system while ensuring operation with circular polarization.

To solve the problem and achieve the specified technical result, a circularly polarized antenna amplifier with inclined vibrators orthogonal in polarization contains a system of passive vibrators, which are at least three directors located on a rotatable mounting crossbeam installed on the active vibrator. At a minimum, with passive directors, two active vibrators, with a phase shift of 90 degrees along the power connection, are spaced apart and located symmetrically at an angle to the antenna directivity axis. Directors located in the planes of active vibrators oriented towards the direction of the antenna, in which, starting from the director installed perpendicular to the directional axis of the antenna, towards the direction of the antenna, the lengths of the directors are commensurate with λ/4. Directors located towards the active vibrator, within the boundaries of the lines of projection onto the active vibrator of the endings of the directors located towards the direction of the antenna, at transition angles to the angle of inclination of the active vibrator, have director lengths within λ/4-λ/2. Moreover, the distance between the ends of the directors on the side of the shortest length of the vibrator blade is commensurate with λ/8.

A circularly polarized antenna amplifier can be made of at least three, with passive directors, active vibrators, with an alternating phase shift of 90 degrees along the power connection. The vibrators are spaced apart when positioned symmetrically at an angle of 45 degrees to the antenna directivity axis, and the directors located in the planes of the active vibrators, between the active vibrator and the third director installed perpendicular to the antenna directivity axis, are installed at transition angles of 60 degrees for the first and 75 degrees for the second extended directors.

The utility model is illustrated by the drawings shown in Fig. 1-6.

In fig. Figure 1 shows a fragment of a circularly polarized antenna amplifier with an active vibrator and five directors on the traverse.

In fig. Figure 2 shows a computer model of four single orthogonal polarization with a cross phase shift of 90 degrees inclined active vibrators in free space and radiation patterns in the vertical and horizontal planes with the main operating characteristics.

In fig. Figure 3 shows a computer model of a circularly polarized antenna amplifier with two orthogonal polarization inclined vibrators with five directors, in free space, and radiation patterns in the vertical and horizontal planes with the main operating characteristics.

In fig. Figure 4 shows a computer model of a circularly polarized antenna amplifier with four orthogonal polarization inclined vibrators with five directors, in free space and radiation patterns in the vertical and horizontal planes with the main operating characteristics.

In fig. Figure 5 shows a computer model of a circularly polarized antenna amplifier with four orthogonal polarization inclined vibrators with five directors 1.5 meters above the ground and radiation patterns in the vertical and horizontal planes with the main operating characteristics.

Figure 6 shows a working layout of a circularly polarized antenna amplifier with four inclined vibrators orthogonal in polarization as part of an FPV helmet.

A circular polarization antenna amplifier with inclined vibrators orthogonal in polarization contains a system of passive vibrators, which consists of at least three directors located on a mounting crossbeam 1 with the ability to rotate, mounted on an active vibrator 2. To work with circular polarization, at least two active directors are used with passive directors vibrator, with a phase shift of 90 degrees along the power connection, which are spaced apart and located symmetrically at an angle α to the antenna directivity axis. Directors located in the planes of active vibrators 4, oriented towards the directivity of the antenna 5, in which, starting from the director installed perpendicular to the directional axis of the antenna 6, towards the directionality of the antenna 5, have lengths of directors 7 commensurate with λ/4. Directors located in the direction of the active vibrator 2, within the boundaries of the projection lines 8, 9, onto the active vibrator 2 of the ends of the directors 6, 7, located in the direction of the antenna 5, at transition angles β ₁ , β ₂ to the inclination angle α of the active vibrator 2, 10 directors have lengths in the range λ/4-λ/2. Moreover, the distance 1 between the ends of the directors on the side of the shortest length of the vibrator blade 8 is commensurate with λ/8.

The circular polarization antenna amplifier can be in a version with at least three, with passive directors, active vibrators, with an alternating phase shift of 90 degrees along the power connection, which can be spaced apart and located symmetrically at an angle α = 45 degrees to the antenna directivity axis. The directors located in the planes of the active vibrators, between the active vibrator and the third director installed perpendicular to the antenna directivity axis, can be located at transition angles β ₁ =60 degrees for the first and β ₂ =75 degrees for the second elongated directors (fragment of the version in Fig. 1).

The implementation of a circular polarization antenna amplifier with inclined vibrators orthogonal in polarization is carried out by installing on active vibrators - standard inclined antennas, for example, FPV glasses/FPV helmets, the proposed systems of passive vibrators, with a turn towards the direction of the antenna.

An antenna amplifier of circular polarization with single inclined vibrators orthogonal in polarization, when considering the work on energy radiation, creates in space an electromagnetic wave of circular polarization with the side of rotation depending on the phase shift in the active vibrators. Its operation is also obvious with directed amplification, due to the directorial structure, which is disclosed in numerous sources of technical information. The classic director structure of the “wave channel” type is formed from a half-wave active vibrator, an enlarged reflector and reduced directors, relative to the working half-wave, located perpendicular to the antenna axis. In the considered antenna amplifier of circular polarization with inclined vibrators orthogonal in polarization, a non-standard technical solution is proposed, associated with the need for “deformation of the wave channel path,” which is ensured by the use of transition directors 10 from the extreme position of the active vibrator 2 to the direction of the antenna along axis 5. Taking into account the angular The positions of the half-wave active vibrators 2, the lengths of the directors 6, 7, 10, commensurate with the half-wave, turn into reflectors for the half-wave active vibrators 2 and therefore in the proposed resonant antenna system they are reduced by half relative to the lengths of the directors in the classical structures of “wave channels”. In turn, located at an angle to the wave front, with “non-simultaneity” of excitation along the re-emitter sections of the conductor, it turned out to be necessary to increase the lengths of the directors 10 depending on the angle of inclination β ₁ , β ₂ , but within the boundaries of the projection lines 8, 9 onto the active vibrator 2 the ends of 3 directors 6, 7, located in the direction of the antenna 5, which is new in the practice and theory of director antennas.

The optimal dimensions of circular polarization antenna amplifier structures with inclined vibrators orthogonal in polarization for a specific version were calculated and refined during electronic modeling in the MMANA program. The obtained parameters shown in Fig. 2-5, confirm the effectiveness of use in increasing the range of electromagnetic accessibility of radio channels, including for ensuring the operation of multicopters.

The claimed technical solution meets the criterion of “Industrial applicability”, since it can be manufactured using known technical means, which is confirmed by the successful result of the pilot production of its version and performance testing using a working prototype of the claimed device, shown in Fig. 6.

Claims (2)

1. An antenna amplifier of circular polarization with inclined vibrators orthogonal in polarization, containing at least two fragments, each of which is a traverse located on the active vibrator with the possibility of rotation, on which at least three passive directors are located, characterized in that the active vibrators of the fragments are located with phase shift of 90 degrees when the power is turned on, spaced apart and located symmetrically at an angle to the antenna directivity axis, in which, starting from the director installed perpendicular to the axis towards the antenna directivity, the lengths of the directors are commensurate with λ/4, and towards the active vibrator, within lines of projection onto the active vibrator of the ends of the directors located in the direction of the antenna, at transitional angles to the angle of inclination of the active vibrator, the lengths of the directors lie in the range λ/4-λ/2, and the distances between the ends of the directors on the side of the shortest length of the vibrator canvas are commensurate with λ /8. 2. The circular polarization antenna amplifier according to claim 1, characterized in that the active vibrators of the fragments are spaced apart and located at an angle of 45 degrees to the antenna directivity axis, and the passive directors are located in the planes of the active vibrators between the active vibrator and the third director installed perpendicular to the directivity axis antennas are located at transition angles of 60 degrees for the first and 75 degrees for the second elongated directors.