RU190823U1 - Antenna of circular polarization of quasi-null "clover" with resonator power - Google Patents

Abstract

The utility model relates to antenna technology. The antenna contains four bent vibrators with linear initial quarter-wave sections located perpendicularly in pairs in mutually orthogonal planes emanating from one common point, which is the first power terminal located on the line of intersection of the planes, extending from the linear segments, comparable in length to the half-wave arc sections located in inclined planes and linear inclined end quarter-wave sections converging to a common point, which is the second power terminal where the points of transition of the arcs to the end linear sections are interconnected crosswise by interconnecting conductors located in the planes of the initial quarter-wave linear sections commuting with each other at their intersection point located on the axis of intersection of the planes connected by the shorting conductor to the second power terminal. In this case, the intersection point of connecting conductors on the axis of intersection of the planes interconnected crosswise to each other is connected by an axial conductor to a common point of outgoing quarter-wave initial sections, which is the first power terminal, and the connecting conductor connecting the intersection point of the connecting conductors connected to the second power terminal is parallel to the axial conductor, forming a shorted, commensurate with a quarter-wave, two-wire line with terminals for connecting the supply feeder. The technical result consists in increasing the frequency selectivity and noise immunity of the antenna with a simplified device for ensuring structural rigidity to increase mechanical reliability. 2 hp f-ly, 3 ill.

Description

The utility model relates to radio engineering and can be used for installation on mobile and stationary objects as omnidirectional circular polarization antennas of increased frequency selectivity for operation in difficult electromagnetic conditions and increased mechanical loads for telecontrol and telecommunications, including FPV systems.

Known antenna array of elliptical polarization, including four identical symmetric vibrator mounted on a mast support and inclined at the same angle relative to a plane perpendicular to the mast support (US Pat. RF 2663800, publ. 03/23/2017). Each symmetrical vibrator passes into the adjacent symmetrical vibrator when it is rotated 90 ° around the axis of the mast support, and each symmetric vibrator contains an emitter, balun and coaxial cable. The emitter is made of two identical coaxial conductors, between which there is a gap. The balancing device is made in the form of a short-circuited two-wire line and includes two identical parallel conductors that are connected on the one hand to the radiator conductors in the gap, and on the other side are connected by a shorting third conductor that is connected to the mast support. The coaxial cable is connected by its external conductor to one of the radiator conductors in the gap, and its internal conductor is connected to the second conductor of the radiator in the gap, with an additional L-shaped conductor, which is located between the parallel conductors of the two-wire line, inserted into each symmetrical vibrator. The long arm of an additional L-shaped conductor is oriented along a two-wire line. There is a gap between one end of the long arm of the additional L-shaped conductor and the shorting conductor of the two-wire line, and the second end of the long shoulder of the additional L-shaped conductor is connected to one of the parallel conductors of the two-wire line with the short shoulder of the additional L-shaped conductor.

The well-known antenna of elliptical polarization has a complex structural device for interfacing the components and reliability during operation with complicated electrical switching.

Closest to the technical nature of the claimed as a utility model of the antenna is the antenna of circular polarization quasi-zero "clover" (US Pat. RF №166256, publ. 04/15/2016). The prototype antenna contains four bent vibrators having linear initial quarter-wave segments located perpendicularly in pairs in mutually orthogonal planes emanating from one common point, which is the first power terminal. It is located on the line of intersection of the planes. Outgoing continuation from linear sections, commensurate in length with a half-wave, arc sections of vibrators located in inclined planes. Linear inclined end-quarter-wave sections of vibrators converging to a common point, which is the second power terminal. The points of transition of the arcs to the end linear sections, which are interconnected crosswise by interconnecting conductors located in the planes of the initial quarter-wave linear sections, commute with each other at the point of their intersection located on the axis of intersection of the planes and are connected by a shorting conductor to the second power terminal.

The disadvantage of the prototype is the relatively wide frequency bandwidth and sophisticated device to ensure the rigidity of skeletal structures.

The technical result of the utility model is to increase the frequency selectivity and noise immunity of the circular polarization antenna with a simplified device for ensuring structural rigidity to increase mechanical reliability.

The technical result of the utility model is achieved by introducing a resonant quarter-wave two-wire line into the electrical circuit, narrowing the frequency bandwidth and using one of the conductors of this line as a reinforcing carrier axis, which increases the reliability of the structure and simplifies the rigidity device.

The technical solution is ensured by the fact that the circularly polarized antenna of a quasi-null “clover” with resonator powering contains four bent vibrators 1 having linear initial quarter-wave sections 2, located perpendicularly in pairs in mutually orthogonal planes 3 and 4, emanating from one common point 5. Point 5 is the first power terminal "a" and is located on the line 6 of the intersection of the planes 3 and 4. Outgoing continuation from the linear sections 2 of the vibrators 1, commensurate in length with the half-wave, the arc sections 7 of the lozheny in inclined planes. Linear inclined end quarter-wave sections of 8 vibrators 1 converge to a common point 9, which is the second power terminal "b". Point 10, the transition of the arcs 7 to the end linear sections 8 of the vibrators 1, are connected in pairs crosswise by connecting conductors 11 located in planes 3 and 4 of the initial quarter-wave linear sections 2. The conductors 11 are switched between each other at the point 12 of their intersection located on axis 6 the intersection of the planes 3 and 4. Point 12 of the intersection of connecting connecting conductors 11 in pairs crosswise connecting the crosswise planes along the axis 6 is connected by a reinforcing structure axial conductor 13 with a common point 5 outgoing initial quarter quarter-wave sections 2, which is the first power terminal "a". Connecting the point 12 of the intersection of the connecting conductors 11 shorting conductor 14 is connected to the power terminal "b". Conductor 14 is laid parallel to the axial conductor 13 and forms a balancing-matching device made in the form of a short-circuited two-wire line 15, commensurate with a quarter-wavelength, with connecting the supply feeder to the terminals "a" and "b".

The antenna may have a reinforcing axial conductor 13 made tubular for laying the supply coaxial feeder with the output and connecting the shielding conductor at point 2 of the first power terminal "a" and connecting the center conductor to the shorting wire 14, the second power terminal "b".

The antenna may have an axial conductor 13, made tubular, for laying the supply coaxial feeder with the output and connecting the shielding conductor at point 2 of the first power terminal “a”, with the outer gasket of the insulated center conductor in the form of a shorting conductor 14 along the axial reinforcing conductor 13 with connection to the point 12 of the intersection of a pair of cross-connected connecting conductors 11 in pairs.

The novelty in the part of the utility model device is seen in the fact that the hardening design axial conductor connecting the intersection point of the pairwise connected cross to the cross connecting conductors on the axis of intersection of the planes with the common point of the outgoing quarter quarter-wave sections, which is the first power terminal.

The novelty in the part of the device of the utility model is seen in the fact that the introduced reinforcing axial conductor is a structural basis providing the material rigidity of the skeletal openwork device.

The novelty in the part of the device of the utility model is seen in the fact that the introduced reinforcing axial conductor electrically closing the vibrators increases the noise protection.

The novelty in the part of the device of the utility model is seen in the fact that the shorting conductor, laid parallel to the axial conductor, forms a balancing-matching device, made in the form of a short-circuited two-wire line 15, a resonant system.

The novelty in the part of the device of the utility model is seen in the fact that the clover antenna power supply is provided through the terminals "a" and "b" of the resonant system connected to the power feeder and narrowing the operating frequency band of the antenna

The novelty in the part of the utility model device is seen in that the antenna can have an axial reinforcing conductor 13, made tubular, for laying a supply coaxial feeder with an output and direct connection of the shield conductor at the point of the first power terminal “a”, and the center conductor to the second power terminal "B" at the beginning of the shorting conductor 14.

The novelty in the part of the utility model is seen in that the antenna may have an axial conductor made tubular for laying a supply coaxial feeder with an output and direct connection of the shield conductor at the point of the first power terminal “a”, and using an insulated center conductor laying along the axial conductor for the formation of a two-wire line 15, shorted with connection to the point 12 of the intersection of the connecting conductors 11, without the device of the second power terminal.

Due to the listed set of essential features, an increase in the frequency selectivity and noise immunity is provided, as well as an increase in mechanical and electrical reliability with an increase in the rigidity of the structure and simplification of the antenna manufacturing technology.

Industrial applicability of the claimed technical solution is seen in the limit of manufacturability and ease of manufacture, lightweight, replication and operation, use on an industrial basis at a competitive level.

The proposed antenna is illustrated by the drawings shown in FIG. 1-3.

FIG. 1 shows a sketch of a circular polarized antenna with a quasi-null “clover” with resonator power supply; FIG. 2 shows the radiation patterns in the horizontal and vertical planes with the main parameters; in FIG. Figure 3 shows the variation of the matching coefficient in the working frequency range of the circular polarization antenna with a quasi-hunt “clover” with resonator power.

The inventive antenna of circular polarization of a quasi-hunt "clover" with resonator powering works as follows.

Curved vibrators 1, consisting of linear initial quarter-wave sections 2, extending continuation from linear sections of arc sections 7, commensurate in length with half-wave, and linear inclined final quarter-wave sections 8, with a total perimeter of conductors commensurate with the length of the working wave are connected in parallel to the power terminals “ a "and" b ". With this design, placed evenly around axis 6, inclined vibrators 1, with common-mode switching, provide isotropic radiation of radio waves of elliptical polarization in the horizontal plane, as is widely known, from the descriptions of the operation of clover and clover quasi-antenna antennas. The point 12 of the intersection of the connecting conductors 11 on the axis 6 of the intersection of the planes 3 and 4, which are pairwise connected crosswise to the cross, is additionally connected by the reinforcing axial conductor 13 to the common point 5 of the outgoing quarter-wave initial sections 2. On one side, the axial reinforcing conductor 13, located along axis 6, is the axis symmetry of the antenna originating from the point of zero potential, and on the other hand through the point 12 of the intersection of the connecting conductors 11 is electrically connected in parallel to all the linear inclined ends The quarter-wave terminal sections 8 through equipotential points 10. Such inclusion, with an increased total length of parallel connected halves of the lengths of the conductors 11 and the common axial conductor 13, does not disrupt the operation of the antenna device. Introduction to the resonant quarter-wave two-wire line circuitry narrows the frequency bandwidth of the antenna. To implement the narrowing of the operating frequency band, a shorting conductor 14 is additionally introduced into the antenna, which with the axial conductor 13 forms a two-wire line 15, comparable in length to a quarter of the working wavelength, providing increased frequency selectivity and noise immunity. The axial reinforcing conductor 13 of this line as a carrier axis increases the reliability of the structure with the simplification of the rigidity assurance device.

The axial reinforcing conductor 13 according to the second version is tubular for laying the supply coaxial feeder with the output and connecting the shielding conductor at point 5 of the first power terminal “a” and connecting the center conductor to the shorting wire 14 of the second power terminal “b”. Due to the fact that the reinforcing conductor is located along the axis of symmetry, replacing the tubular conductor of the monolithic conductor 13, practically does not affect the electrical characteristics of the antenna, but increases reliability, facilitates manufacture and operation.

The axial reinforcing conductor 13 according to the third version is tubular for laying the supply coaxial feeder with the output and connecting the shielding conductor at point 5 of the first power terminal "a" and the outer strip of the insulated central conductor along the axial reinforcing conductor 13. Connecting the center conductor of the coaxial cable laid insulated without the shielding conductor to the point 12 of the intersection of the interconnecting conductors 11 crosswise connected in pairs, further simplifies otovlenie and operation of the antenna, removing the background to the use of insulating elements, and expanding the possibility of replacing coaxial cable feeding the antenna.

A computer model of a circular polarization antenna with a quasi-null “clover” with resonator power was repeatedly tested in the course of electronic simulation in the MMANA program at a frequency of 300 MHz, with overlapping of the working frequency range of 250-350 MHz. Computer simulation results are shown in FIG. 2 and in FIG. 3, which fully confirm the theoretical background, and full-scale studies on the manufactured current layout confirmed the parameters of the electronic simulation results. The bandwidth at the resonator switching on the clover antenna tapers up to 1.5 times relative to the classic power connections.

The proposed utility model is promising both in terms of electrical characteristics, and in terms of reliability and economic indicators.

Claims (3)

1. Antenna of circular polarization of a quasi-null “clover” with resonator power, containing four bent vibrators with linear initial quarter-wave segments located perpendicularly in pairs in mutually orthogonal planes emanating from one common point, which is the first power terminal located on the intersection line of the planes, extending continuation from linear segments, arc-length segments comparable in length with half-wave, located in inclined planes and linear inclined finite quarter-waves new areas converging to a common point, which is the second power terminal, where the points of transition of the arcs to the end linear sections are interconnected crosswise by interconnecting conductors located in the planes of the initial quarter-wave linear sections that commute with each other at their intersection point located on the axis of intersection of the planes connected by a shorting conductor with a second power terminal, characterized in that the intersection point of the connecting conductors on the OS the intersection of the planes is connected by an axial conductor with a common point of outgoing quarter-wave initial sections, which is the first power terminal, and the shorting conductor connected to the second power terminal connecting the intersection point of the connecting conductors is parallel to the axial conductor, forming a short-circuited, commensurate with quarter-wave, two-wire line with the connection terminals feed feeder. 2. The antenna according to claim 1, characterized in that the axial conductor is tubular for laying a feeding coaxial feeder with an output and connecting the shield conductor at the point of the first power terminal and connecting the center conductor to the shorting conductor of the second power terminal. 3. The antenna according to claim 1, characterized in that the axial conductor is tubular for laying a supplying coaxial feeder with an output and connecting the shielding conductor at the point of the first power terminal, with an outer gasket of the insulated center conductor along the axial conductor with a cross connected to the crossing point on the cross connecting leads.

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