RU2657091C1 - Flat broadband vibrator - Google Patents

Abstract

FIELD: radio engineering and communications.

SUBSTANCE: invention relates to radio engineering, in particular to antennas. Flat broadband vibrator comprises balancer configured as a U-bend connected to the arms of the vibrator by means of connecting lines. Arms of the vibrator are made in the form of a trapezoid, in which the sides are of different lengths, and the bases are parallel to the conductors of the connecting line. Long side faces the U-bend. Connecting line has direct galvanic contact with the vibrator shoulder over the entire length of the short trapezoid base. End of the conductor of the connecting line lies on one straight line with the short side of the trapezium, the plane of the conductors of the connecting line lies in the same plane with the plane of the arms of the vibrators.

EFFECT: increase in the range of operating frequencies while maintaining small mass-dimensions and high processability.

1 cl, 1 dwg

Description

The invention relates to techniques for superhigh frequencies (microwave), in particular to antennas, and can be used in broadband transceiver devices, communication equipment, radar devices, in television, in measuring equipment.

When creating various devices (communication, radar, television), the problem arises of creating linearly polarized antennas operating in a wide frequency range. The antenna should have small dimensions and light weight, low cost and high adaptability. Vibrator antennas have these properties.

Various types of antennas are known having a wide range of operating frequencies, for example, spiral and log-periodic. Spiral antennas are weakly and mid-directional broadband antennas of elliptical polarization (OA Yurtsev, AV Runov, AN Kazarin. Spiral antennas, M., Sov. Radio, 1974, p. 4). To obtain linear polarization, double-wound helical antennas are used (OA Yurtsev, AV Runov, AN Kazarin. Spiral antennas, M., Sov. Radio, 1974, p. 8). Double-wound spiral antennas have a complex structure, increased dimensions and weight. Log-periodic antennas also have a complex structure, increased dimensions and weight. This is due to the fact that “at the same time (on a given wave) only part of the antenna is involved in the work (A.L. Drapkin, V.L. Zuzenko, A.G. Kislov. Antenna-feeder devices, M. Sov. Radio, 1974, p. 171).

Vibrator antennas are small in size and light in weight, low cost and high adaptability.

A known antenna, taken as a distant analogue of the claimed invention, made in the form of a symmetrical half-wave vibrator containing shoulders in the form of plates and a rigid coaxial line, in the outer conductor of which there are two symmetrical quarter-wave slots, the end of one of the parts of the external conductor of the hard coaxial line being formed and its inner conductor connected to the first plate, and the end of the other part to the second plate, a metal board mounted on the second plate made with a semicircular cut, covering the inner conductor of the hard coaxial line (ed. St. USSR No. 1163395 IPC H01Q 9/04, 9/16, publ. 23.06.85).

This device has small dimensions and light weight.

However, this device has a complex structure, therefore, low processability and high cost. In addition, this vibrator has a small range of operating frequencies. This is because the vibrators have a strong frequency dependence of the input impedance (increasing with decreasing antenna size), which makes it difficult to match them in a wide frequency band. As a result, the lower limit of the passband of the short antenna is uniquely determined by the lower limit of the matching band. The bandwidth above is limited, as a rule, by distortion in the shape of the radiation pattern. When using an electric dipole, this happens if its dimensions become larger than 1.25 wavelengths (A.L. Drapkin, V.L. Zuzenko, A.G. Kislov. Antenna-feeder devices, M. Sov. Radio, 1974, pp. . 149).

To expand the operating frequency range, “thick” vibrators are used. In this case, it is possible to achieve good agreement between the feeder and the vibrator in a wider frequency range (M.S. Zhuk, Yu.B. Molochkov. Designing antenna-feeder devices, publishing house "Energy" M.-L. 1966. p. 112- 115). However, the operating frequency range of such vibrators, i.e. the range of frequencies in which the vibrator can work without reconfiguration remains small (A.L. Drapkin, V.L. Zuzenko, A.G. Kislov. Antenna-feeder devices, M. Sov. Radio, 1974, p. 148).

A closer analogue selected as a prototype due to the similarity of the technical task being performed is an antenna made in the form of a flat vibrator containing a balancing device attached to the shoulders of the vibrator, and the vibrator shoulders are made in the form of isosceles triangles (VHF antennas, G.Z. Eisenberg, V.G. Yampolsky, and O.N. Tereshin, part 1, M. Svyaz, 1977. P. 185). The balancing device for such an antenna can have different designs, for example, in the form of a U-elbow (Antennas, G.T. Markov, D.M. Sazonov, M., "Energy", 1975, p. 338).

This device has small dimensions and light weight, simple design and, as a result, low cost and high adaptability.

However, this device has a small range of operating frequencies. During the experiment, it was possible to obtain a bandwidth of 34% with an VSWR of not more than 1.5.

The technical result of the proposed technical solution is to increase the range of operating frequencies while maintaining small weight and size indicators and high adaptability.

The specified technical result is achieved by the fact that in an antenna having the form of a flat broadband vibrator containing the shoulders of the vibrator and a balancing device such as a U-elbow connected to the shoulders of the vibrator using a connecting line consisting of two parallel conductors, the vibrator shoulders are made in the form of a trapezoid, of which the sides are of different lengths, the bases are parallel to the conductors of the connecting line, the long side is facing the U-elbow, the conductor of the connecting line has a direct vanichesky contact with the shoulder of the vibrator along the whole length shorter base of the trapezoid, wherein the connecting end of the conductor line is aligned with the short side of the trapezoid plane conductors connecting line lies in one plane with the plane shoulder vibrators.

Comparison of the claimed device with the known shows that the claimed device has the following distinctive features:

- the shape of the shoulders of the vibrator (the shoulders of the vibrator are made in the form of a trapezoid, in which the sides have different lengths);

- the location of the shoulders of the vibrator (long side facing the U-elbow);

- the location and shape of the connecting line (the connecting line has direct galvanic contact with the vibrator arm along the entire length of the short base of the trapezoid, with the end of the connecting line conductor lying on a straight line with the short side of the trapezoid).

All this allows us to conclude that the claimed invention meets the patentability criterion of "inventive step".

The invention will be more clear from the above description and the accompanying drawing, which shows the following:

In the drawing and in the text, the following notation:

1. - a balancing device;

2. - the shoulders of the vibrator;

3. - connecting lines;

4. - end of the conductor of the connecting line.

The flat broadband vibrator comprises a U-elbow type balancing device 1 connected to the shoulders of the vibrator 2 via a connecting line 3 consisting of two parallel conductors. The shoulders of the vibrator 2 are made in the form of a trapezoid, in which the sides are of different lengths, the long side is facing the U-elbow, and the bases are parallel to the conductors of the connecting line 3. The connecting line 3 has direct galvanic contact with the shoulder of the vibrator 2 along the entire length of the short base of the trapezoid moreover, the end of the conductor 4 of the connecting line 3 lies on a straight line with the short lateral side of the trapezoid. The plane of the conductors of the connecting line 3 lies in the same plane with the plane of the shoulders of the vibrators 2.

Flat broadband vibrator operates as follows. The microwave signal is supplied to the balancing device 1 and is divided into two equal parts, which are delivered in antiphase along the conductors of the connecting line 3 to the shoulders of the vibrator 2. In this case, the shoulders of the vibrator 2 are excited in-phase by currents of the same amplitude. The implementation of the shoulders of the vibrator 2 in the form of a trapezoid, in which the sides are of different lengths, the long side faces the U-elbow, and the bases are parallel to the conductors of the connecting line 3, and also the execution of the connecting line 3 so that the end of the conductor 4 lies on one straight line with the short lateral side of the trapezoid, they give rise to a complex picture of currents forming an electromagnetic field, which provides the necessary degree of coordination in a wide band of operating frequencies.

Using the shoulders of the vibrator in the form of a flat trapezoid and the conductors of the connecting line in the form of flat conductors, the plane of which lies in the same plane as the plane of the shoulders of the vibrators, allows you to get a wide range of operating frequencies while maintaining small mass and dimensional parameters and high adaptability.

At the filing date, a mock broadband vibrator was created to operate in the decimeter wavelength range. The vibrator shoulders are made in the form of a flat trapezoid (the thickness of the material is 0.5 mm), the ratio of the lengths of the sides of the trapezoid is 0.88, the ratio of the lengths of the bases is 0.12, the width of the conductor of the connecting line is 3 mm. The balancing device is made using a symmetrical line, the thickness of the inner conductor of the line is 0.5 mm. The dimensions of the vibrator together with the balancing device in a sealed design are 165 × 145 × 10 mm.

The layout of the broadband vibrator has a working frequency band in terms of VSWR = 1.5 of the order of 47% of the average frequency (according to the level of VSWR = 2 of the order of 53% of the average frequency).

A broadband vibrator can be made on the basis of a high-quality line (Volman V.I. Guidelines for the calculation and design of microwave strip devices, 1982, Moscow, Radio and Communication, p. 103) using chemical etching technology, which further reduces the cost and improves manufacturability.

The use of this invention will increase the range of operating frequencies while maintaining small mass-dimensional indicators and high adaptability.

Claims (1)

Flat broadband vibrator containing the shoulders of the vibrator, a symmetric device such as a U-elbow connected to the shoulders of the vibrator using a connecting line consisting of two parallel conductors, characterized in that the vibrator shoulders are made in the form of a trapezoid, in which the sides have different lengths, bases parallel to the connecting line conductors, the long side facing the U-elbow, the connecting line conductor has direct galvanic contact with the vibrator arm along the entire length of the cable one base of the trapezoid, wherein the connecting end of the conductor line is aligned with the short side of the trapezoid plane conductors connecting line lies in one plane with the plane shoulder vibrators.

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