RU180099U1 - COAXIAL ANTENNA WITH ADVANCED OPERATING STRIP - Google Patents

Abstract

The utility model relates to antenna technology, and can be used as a transceiver antenna meter and decimeter range. The radiating pin of the antenna is thickened by sealing the braid of the cable running over the radiating pin to the central core in the place of cutting the braid, at a distance of about 0.25 λ from the end of the antenna. The locking circuit is made by winding six turns of cable on a ferrite rod at a distance of about 0.25 λ from the point where the braid is connected to the central core of the cable. The antenna is matched to the 50-ohm supply line using a matching device consisting of a capacitor located at a distance of 1 <0.25 λ from the locking device and connected in series to the central core of the coaxial cable. The technical result consists in ensuring that the antenna operates in a frequency band of more than 20% of the center frequency with a standing wave coefficient of not more than 2, in matching the antenna with a signal source with a wave impedance of 50 Ohms, and in design flexibility. 5 cp f-ly, 4 ill.

Description

The claimed technical solution relates to radio engineering, in particular to antenna technology, and can be used as a transceiver antenna meter and decimeter range.

A coaxial antenna from tubular conductors is known in the prior art (Antennas, Volume 1, edition eleven, revised, Karl Rothammel, 2012, p. 373), which is a half-wave vibrator of metal tubes mounted on a wooden mast and a coaxial antenna from a cable ( Antennas, Volume 2, eleventh edition, revised, Karl Rothammel, 2012, p. 103), which is a VHF version of an antenna with a coaxial screen.

The disadvantages of the analogs are narrowband, lack of coordination with a signal source with a wave impedance of 50 Ohms, and structural rigidity.

The technical result of the claimed technical solution is to ensure that the antenna operates in a frequency band of more than 20% of the center frequency with a standing wave coefficient of not more than 2, matching the antenna with a signal source with a wave impedance of 50 Ohms, and design flexibility.

The specified technical result is achieved due to the fact that the thickness of the emitting pin is increased in a coaxial antenna with an extended working band, a locking device of a special design is implemented and matching with a signal source with a wave impedance of 50 Ohms using a matching device.

In particular, the thickness of the radiating pin is increased by sealing the braid of the cable running over the radiating pin to the central core in the place of cutting the braid, at a distance of about 0.25 λ _cf (where λ _cf is the wavelength of the center frequency of the working frequency range) from the end of the antenna .

In particular, the locking device is made by winding six turns of cable on a ferrite rod at a distance of about 0.25 λ _cf from the point where the braid is connected to the central core of the cable.

от запирающего устройства и включенного последовательно в центральную жилу коаксиального кабеля.In particular, the antenna was matched with a 50-ohm supply line using a matching device consisting of a capacitor located at a certain distance

from a locking device and connected in series to the central core of the coaxial cable.

A brief description of the drawings.

In FIG. 1 shows a general view of an antenna from a coaxial cable with an extended working band.

In FIG. 2 shows an enlarged view of the connection between the braid and the central core cable.

In FIG. Figure 3 shows an enlarged view of a cable winding onto a ferrite core without insulation tape.

In FIG. 4 shows an enlarged view of a matching device without a housing.

The figures indicate: 1 - coaxial cable, 2 - connection of the braid with the central core cable, 3 - external insulation of the coaxial cable, 4 - insulation of the central core of the coaxial cable, 5 - central core of the coaxial cable, 6 - tinned wire, 7 - metallized braid cable, 8 - ferrite core, 9 - insulation tape, 10 - ferrite core with a cable wound around it, 11 - high-frequency connector, 12 - matching device, 13 - printed circuit board 1 mm thick, 14 - conductor on the printed circuit board, 15 - capacitor , 16 - consonant building device.

Utility Model Implementation

In one embodiment of a coaxial antenna with an expanded working strip on cable 1, at a distance of about 0.25 X ^ p from the edge of the antenna, the joint of the braid with the central core cable 2 is marked. At this point, the outer insulation of the coaxial cable 3. is cut off. In the middle of the cut section the insulation of the central core of cable 4 is removed. A bandage of tinned wire 6 is wound on the bare section of the central core of cable 5 and soldered. A braid of the coaxial cable 7 from the side of the end of the antenna is put on this soldered section, wrapped with tinned wire 6 and soldered together with the central core of cable 5. Section 2 can be protected by a heat-shrink tube, insulating tape or dielectric body.

At a distance of about 0.25 λ _cf from section 2, cable 1 is wound with six turns on the ferrite core 8. When winding, the cable is fixed with insulating tape 9, or with glue. The ferrite core with cable 10 wound thereon can be placed in a dielectric housing.

от ферритового сердечника с намотанным на него кабелем 10 в сторону высокочастотного разъема 11 делается согласующее устройство 12. Оно представляет из себя печатную плату 13 из материала FR4 толщиной 1 мм. С одной стороны платы находятся два проводника 14 шириной 1,8 мм. К проводникам припаиваются центральные жилы 5 коаксиального кабеля 1 с двух сторон. Между проводниками 14 устанавливается чип-конденсатор 15.On distance

From the ferrite core with the cable 10 wound around it, towards the high-frequency connector 11, a matching device 12 is made. It is a printed circuit board 13 made of FR4 material 1 mm thick. On one side of the board are two conductors 14 of a width of 1.8 mm. Central conductors 5 of coaxial cable 1 are soldered to the conductors on both sides. Between the conductors 14, a chip capacitor 15 is installed.

On the other side of the printed circuit board 13, solid metallization is applied.

The printed circuit board 13 is placed in a dielectric housing of arbitrary shape 16.

At the end of the antenna is a high-frequency connector 11 of any kind.

The dielectric housing 16 provides protection of the capacitor and the board from external influences.

The insulating tape 9, or glue holds the winding of the cable 1 on the ferrite rod 8.

For operation, an antenna from a coaxial cable with an expanded working strip is prepared as follows: the emitting pin from the end of the antenna to the cable winding on the ferrite core is placed in a direction perpendicular to the communication line. The design of the developed antenna allows, if necessary, to bend the radiating part to reduce the linear size.

The technical result provided by the given set of features is the extension of the working frequency band, reduction in linear dimensions, and matching of the antenna with a power source with a wave impedance of 50 Ohms is achieved due to the fact that in a coaxial antenna with an extended working band are implemented: thickening of the emitting pin due to the connection braids to the central core of the cable, a filtering device, by winding the cable onto a ferrite core, and a matching device.

An antenna with a coaxial cable with an extended working band works as follows:

A radiating pin in the form of a braiding of a coaxial cable to the central core forms a half-wave vibrator.

The locking circuit blocks the flow of a surface wave in the outer conductor of the coaxial cable and prevents the emission of a transmission line leading the signal to the antenna.

A matching device matches the complex impedance of the antenna with a 50-ohm supply line in the operating frequency band.

EFFECT: operation of the antenna in a frequency band of more than 20% of the average frequency with a standing wave coefficient of not more than 2 is achieved due to the fact that a matching device is added to the coaxial antenna with an extended working band and the vibrator is thickened.

Claims (6)

1. Coaxial antenna with an extended working band, characterized in that it consists of a flexible thickened radiating pin made by attaching a cable braid to the central core; a locking device made by winding a cable onto a ferrite core; matching device. 2. The antenna according to claim 1, characterized in that the length of the thickened radiating pin is approximately 0.25 λ _cf. 3. The antenna according to claim 2, characterized in that the place of attachment of the cable sheath to the central core is reinforced by winding and soldering several turns of tinned wire onto the central core of the coaxial cable. 4. The antenna according to claim 3, characterized in that the locking device is located at a distance of about 0.25 λ _cf from the radiating pin. 5. The antenna according to claim 4, characterized in that the matching device consists of a capacitor soldered to a printed circuit board. 6. The antenna according to claim 5, characterized in that the matching device is located at a distance

from the locking device.

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