RU2660068C1 - Combined shipboard television antenna - Google Patents

Abstract

FIELD: radio engineering and communications.

SUBSTANCE: invention relates to radio engineering and can be used in antenna-feeder devices as isotropic in the horizontal plane of the antenna, when working with horizontal polarization, in transport, mobile and fixed radio communication systems, television and radio navigation. Proposed combined ship TV antenna can also be used as a fastening device for the installation of other antennas. It has increased mechanical reliability and simplified design, simplified electrical power supply and the possibility of combining with additional antenna devices of ship radio systems of river and sea radio frequency bands with deep polarization and inductive isolation.

EFFECT: technical solution of the TV antenna is adapted for installation in cramped conditions on small vessels, while providing a television reception with a simultaneous co-enhanced device for accommodating predominantly whip antenna VHF antennas.

1 cl, 3 dwg

Description

The invention relates to radio engineering and can be used in antenna-feeder devices as an isotropic antenna in the horizontal plane, when working with horizontal polarization, in transport, mobile and stationary radio communications, television and radio navigation systems, namely: for installation in cramped conditions at low vessels, while providing television reception with a simultaneous joint improved device for the placement of, mainly, VHF whip antennas.

In accordance with international rules for ships located exclusively in areas A1, the largest in terms of the availability of watercraft, the availability of VHF radio communications should be sufficient for the requirements for the composition of the radio equipment. At the same time, it is precisely in these areas that terrestrial television can be received, the placement of antennas that meet the conditions of electromagnetic compatibility and unpredictability of the position of the vessel is always problematic. The proposed combined television antenna "Basis" provides for installation on ships joint installation of a whip VHF antenna, at the same time being for it a kind of mechanical foundation and electric counterweight.

Known circular emitter with a double frame in the form of four phase-in-phase in-phase excited half-wave full-sized vibrators with central power supply (Karl Rothammel. Antennas. Volume 2: Translated from German, Danwell. - M .: 2005, p. 127). The width of the radiation pattern in the horizontal plane of each of the double elements corresponds to the width of the diagram of a half-wave vibrator and is equal to 80 °, which in the complex provides approximately circular radiation in the horizontal plane with the width of the diagram in the vertical plane up to 60 °.

The disadvantages of the known antenna, in addition to the directivity pattern in the horizontal plane, closer to a rounded square with recesses of up to 3 dB, include the operating frequency band insufficient to cover the television range and the extremely low antenna gain with increased vertical dimensions, bulkiness and insufficient design reliability that is unacceptable for use in a ship.

Known television antenna with increased gain, recommended for use on ships DT-808C ("Fix Easily" Remote-controlled Rotating Outdoor TV Antenna DT-808C [Electronic resource] access mode: http://www.hisupplier.com/product- 164633-Fix-Easily-Remote-controlled-Rotating-Outdoor-TV-Antenna-DT-808C / - Heading from the screen. - Data correspond to 2017). The antenna includes the use of a director structure of elements with increased input resistances and an integrated antenna amplifier, providing manual angular tracking at the telecentre due to the remotely controlled electromechanical rotary device.

A disadvantage of the known long antenna is the possibility of its use in relation to large-sized vessels and the difficult use of an infrared remote control in ship conditions.

Known for use on ships is the VHF UHF Pacific Aerials PRO P8021 television antenna, 40-890 MHz, 2-22 dB, 450 mm, with mounting accessories (Omnipro. P8021 - VHF / UHF TV ANTENNA AND INSTALLATION KIT [Electronic resource] access mode: http://www.pacificaerials.co.nz/marine/tv/omnipro/p8021/- Heading from the screen. - Data correspond to 2017). An antenna with a central power supply and an antenna amplifier contains two semicircular vibrators with a diameter of 450 millimeters located in a horizontal plane, symmetrically with respect to the center.

The disadvantages of the known antennas include relatively large horizontal dimensions, the lack of an installation site for combination with other antennas in order to reduce the placement of antenna devices and the need for a separate space, taking into account electromagnetic compatibility with active radio equipment of ship equipment.

The closest in technical essence to the antenna claimed as an invention is a combined shipboard “quasi-collinear” antenna of an automatic identification system containing a support tube, on which in-phase vibrators and a GPS antenna are located (US Pat. RF No. 2556421, publ. 07/10/2015).

The disadvantages of the prototype include a relatively large vertical size and a narrow band of operating frequencies, a complex power system and the lack of opportunities to work with horizontal polarization.

The technical result, to which the claimed invention is directed, consists in minimizing dimensions, improving reliability with simplifying the design and electrical power, compressing the radiation pattern in a vertical plane, expanding the working frequency band and combining it for working together with an antenna VHF radio device.

To achieve the specified technical result in a combined marine television antenna containing a carrier tube with feeder conductors, on which are located in-phase excited vibrators made in the form of a double triangular zigzag structure and spaced from each other by a distance equal to λ / 2 of the average wavelength of the operating frequency range , the carrier pipe is made with a top adapter-mount additional antenna device. With a pipe spacing equal to λ / 4, horizontal polarization vibrators with bases of triangular structures symmetrically located around it are located. Moreover, their bases are rigid arcs of circles with a diameter equal to λ / 2 and a length commensurate with λ / 3, the midpoints of which are rigidly connected by radial conductive elements to the supporting pipe. The sides of the triangular structures of the vibrators, with conductor lengths equal to λ / 4, are located in vertical planes passing through the points of the ends of the base arcs. The in-phase connection of the vibrator power nodes to the antenna power feeder located inside the carrier pipe, in which the coaxial power cable for the additional antenna device is located on the top adapter-mount, is accomplished by symmetrical two-wire connecting lines of equal length.

The technical solution improves reliability and simplifies the design of the antenna due to the combined implementation of triangular zigzag conductor structures of vibrators from rigid arcs, the midpoints of which are rigidly connected by radial conductive elements to the carrier tube, and the conductor sides of triangular structures of vibrators located in vertical planes passing through the points of the ends of the arcs grounds. The in-phase, here parallel, connection of power supply units with high resistance of vibrators by symmetrical two-wire connecting lines of equal length to the antenna power feeder located inside the conductive carrier pipe ensures coordination when directly connected to a television coaxial cable, simplifying the power supply circuit. Spaced vertically, of increased length, due to the arc design, the bases of the double triangular zigzag structure compress the radiation pattern in the vertical plane and smooth, level it to a pie chart, in the horizontal plane.

The distinguishing features of the proposed combined marine television antenna from the above known, closest to it, are the following:

- the vibrators are made by combined arcs, in the form of a double triangular directional zigzag structure of horizontal polarization;

- the bases of the double triangular structure of the vibrators are rigid arcs of circles with a diameter equal to λ / 2 and a length commensurate with λ / 3;

- the middle of the rigid arcs of the bases of the double triangular structure of the vibrators are rigidly connected by radial conductive elements to the supporting pipe;

- the connection of power nodes with a high resistance of the vibrators is carried out by symmetrical two-wire connecting lines of equal length to the power node of the antenna power feeder located inside the conductive carrier pipe;

- the carrier tube is made in the form of a shielding channel for accommodating the antenna power node and laying the antenna power feeder and coaxial power cable for an additional antenna device on the top adapter-mount;

- a supporting pipe with a top adapter-mount is a universal base for placing an additional antenna device;

- the carrier pipe can be made in the form of a shielding channel for placement of the antenna amplifier.

Due to the presence of these features, the proposed combined marine television antenna has improved mechanical reliability and simplified design, simplified electrical power and combination with additional antenna devices of marine radio systems, and, like the prototype, it has a circular radiation pattern in the horizontal plane and a compressed radiation pattern in the vertical plane .

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

In FIG. 1 is a schematic perspective view of an antenna; FIG. 2 is a radiation pattern in horizontal and vertical planes, in FIG. 3 - graph of changes in the SWR.

The antenna (Fig. 1) contains a carrier tube 1 with feeder conductors, on which in-phase vibrators 2 are arranged, made in the form of a double triangular zigzag structure and spaced from each other by a distance λ / 2 of the average wavelength of the operating frequency range. The carrier tube 1 is made with a top adapter-mount 3 of an additional antenna device 4, the combined horizontal vibrators 2 with a base spacing of triangular structures from the pipe equal to λ / 4 are symmetrically located around it, and their bases are rigid arcs of 5 circles with a diameter equal to λ / 2, and a length commensurate with λ / 3, the middle of which is rigidly connected by radial conductive elements 6 to the supporting pipe 1, and the conductor sides 7 of triangular structures with lengths equal to λ / 4, are located in vert ical planes 8 passing through the points of the ends 9, 10 of the arcs 5 of the base, with the in-phase connection of the power supply nodes 11 of the vibrators 2 with symmetrical two-wire connecting lines 12 of equal length to the antenna power feeder located inside the carrier pipe 1, in which the coaxial power cable for the additional antenna devices on the top adapter - mount 3.

A combined marine television antenna works as follows.

Induced in the EMF vibrators 2, made in the form of a double triangular zigzag structure, the principle of operation of which is well known, from the power supply nodes of 11 vibrators 2 with two-wire symmetric lines of equal length 12 is transmitted to the antenna power feeder and summed when connected in phase. The design of the vibrators 2 in the form of a zigzag structure provides from each elongated eight-dimensional radiation pattern in the horizontal plane. Vibrators 2 symmetrically located around the supporting pipe 1 turn out to be shifted relative to each other around the axis by an angle π / 2 and in total provide a circular radiation pattern close to a rounded square with recesses, as noted in the description of the first analogue. Being the bases of the double triangular zigzag structure of the arc of 5 circles, with a diameter equal to λ / 2, and a length comparable with λ / 3, due to the curved aperture and increased dimensions relative to the well-known double triangular zigzag antennas, they compress the radiation pattern in the vertical plane and expand each of the vibrators, and in the total smooth, level to a circular diagram of the antenna in the horizontal plane. The conductor sides 7 of triangular structures, with lengths equal to λ / 4, located in vertical planes 8 passing through the points of the ends 9, 10 of the arcs 5 of the base, reduce the spacing of triangular structures from the carrier pipe 1, expanding the operating frequency range to the high-frequency part, making the antenna more broadband. The midpoints of the bases of the double triangular zigzag structure of the vibrators 2, arcs 5, which are points of zero potential, are connected by radial conductive elements 6 to the supporting tube 1, providing mechanical strength and electrical symmetry of each of the vibrators 2. The supporting tube 1, made in the form of a shielding channel to accommodate the node antenna power and laying the antenna power feeder and coaxial power cable, and can also accommodate the antenna amplifier, it is also intended to install additional antenna device on the top adapter-mount 3. The spatial radiation pattern of the combined ship’s horizontal television polarized antenna antenna in the form of a torus for electromagnetic compatibility ensures the placement on the top adapter-mount of 3 pin antennas 4 of vertical polarization of the river and sea ranges of VHF radio frequencies with deep polarization and inductive isolation. An additional positive effect is the improvement in the operation of VHF pin antennas with a decrease in the standing wave coefficient and an increase in gain due to the influence of a lower skeletal structure imitating an electrical counterweight.

The results of electronic modeling fully confirm the analysis of the combined ship’s television antenna, as can be seen from the radiation patterns in the horizontal plane and the vertical plane (Fig. 2), with a low standing wave coefficient in the operating frequency range (Fig. 3). The graph shown in FIG. 3, indicates an excellent quality of coordination, which, in turn, indicates the efficient use of energy.

A working model of the antenna claimed as an invention was created, which, during practical tests, fully confirmed the results of electronic modeling.

Claims (2)

1. Combined marine television antenna containing a carrier tube with feeder conductors, on which are in-phase excited vibrators made in the form of a double triangular zigzag structure and spaced from each other by a distance equal to λ / 2 of the average wavelength of the operating frequency range, characterized in that the carrier tube is made with a top adapter-mount for an additional antenna device, combined horizontal polarization vibrators, with a base spacing of triangular structures from the pipe equal to λ / 4 are symmetrically arranged around it, their bases being rigid arcs of circles with a diameter equal to λ / 2 and a length comparable with λ / 3, the midpoints of which are rigidly connected by radial conductive elements to the supporting pipe, and the conductor the sides of the triangular structures, with lengths equal to λ / 4, are located in vertical planes passing through the points of termination of the base arcs, with the in-phase connection of the vibrator power units with symmetrical two-wire connecting lines of equal length to the power feeder I antenna located inside the carrier tube, in which is placed a coaxial power cable for the additional antenna apparatus based on the top-mount adapter. 2. The antenna according to claim 1, characterized in that the in-phase connection of the vibrator power nodes with symmetrical two-wire connecting lines of equal length is made to the antenna power feeder through the antenna amplifier located inside the carrier pipe.

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