SU1394289A2 - Direction-selective aerial device for receiving radiosignal - Google Patents

Abstract

The invention relates to communication technology and increases the signal-to-interference ratio. The device contains antenna arrays 1 and 2, subtractive cascade 3 with output 4, electro-phase 5 antiphase control with control input 6, amplitude corrector 7 PD. Each of elements 1 and 2 is designed as a non-symmetrical vibrator. Introduced cilindrich. a screen connected in series to the corresponding matching circuit and installed coaxially with one of the vibrators. A slit is made along its forming line, its length is equal to the height of the vibrator, and its width is less than the radius of the screen. Achieving gain in the signal / interference ratio is greater, the smaller the el. the length of the El-1 and 2. 3 Il. with S cl

Description

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The invention relates to a communication technique when electrically small pin antennas are used for spatial selection of received radio signals and is an improvement of the invention according to the author. No. 1252841.

The purpose of the invention is to increase the signal / interference ratio,

1 shows a structural diagram of a directional selective antenna device for receiving radio signals; FIG. 2 is a structural diagram of a separate antenna path selective in the direction of the antenna device for receiving radio signals; FIG. Fig., 3 - antenna elements, top view.

The direction-selective antenna for receiving radio signals contains antenna elements 1 and 2, made in the form of asymmetrical vibrators, subtracting stage 3 with OUTPUT 4, anti-phase control element 5 with control input 6, amplitude equalizer 7 of the radiation pattern (LE) in the form of a cylindrical screen 8-1 (8-2), matching circuit 9, phase-shifting circuit 10.

The directional selective antenna device for receiving radio signals works as follows.

First, spatial selection of the useful signal is performed. To do this, set the control knob, element a 5 to the neutral position, unambiguously determine the setting of matching circuits to the center frequency f ,,. Then, the amplitude equalizer 7 of the DD is positioned between the source of the useful signal and the antenna element 1,.

The presence of an amplitude equalizer 7 BOT leads to the fact that a narrow sector B appears in the direction of the source of the useful signal in the BD of the antenna element 1, in which reception is absent or strongly weakened, while the BOM of the antenna element 2 remains circular, received by the antenna elements 1 and 2, the signal enters the subtractive cascade 3, which forms the difference between these signals. Since the DNs of antenna elements 1 and 2 in the direction of the signal source are significantly different, the fields they take are

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five

Signals are also different in magnitude, and this difference is determined only by the presence of a narrow sector.

At a fixed position of the amplitude corrector 7 of the DN with respect to the antenna element 1, orientation to the source of the useful signal is performed by rotating the entire device in a horizontal plane around its axis. It is possible only to rotate the amplitude corrector 7 around the antenna element 1 or to rotate the antenna element 1 itself with the amplitude corrector 7 around the axis. This is where the spatial selection of the source of the useful signal ends and does not change later.

Next, proceed to the spatial selection of the source of interference. For this, not changing the position of the azimuth of the maximum of the DN, change the azimuth of the sector ci by displacing the control knob of the antiphase control element 5 from the neutral position to one of the sides in exact accordance with the operation of the known device in the same mode. In practice, the change in oi is completed at the moment when the output of the radio receiver to which the device is connected provides the maximum signal-to-noise ratio by hearing, by the indicator of the phrosal error, and so on.

The gain achieved in the signal-to-interference ratio is the greater, the shorter the electrical length of the antenna elements 1 and 2.

Formula of Invention

Selective in direction an antenna device for receiving radio signals by auth.St. No. 1252841, about the fact that, in order to increase the signal-to-noise ratio, each of the antenna elements is designed as an asymmetric vibrator, a cylindrical screen is inserted, connected with it in series to the corresponding matching circuit and installed coaxially with one from asymmetrical vibrators, while in the cylindrical screen along its generator a slit is made, the length of which is equal to the height of the asymmetrical vibrator, and the width is less than the radius of the cylindrical screen.

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Claims (1)

Selective directional antenna device for receiving radio signals by auto No. 1252841, which requires that, in order to increase the signal-to-noise ratio, each of the antenna elements is made in the form of an asymmetric vibrator, a cylindrical screen is introduced, connected with it in series with the corresponding matching circuit and installed coaxially with one of the asymmetric vibrators while a slit is made in the cylindrical screen along its generatrix, the length of which is equal to the height of the asymmetric vibrator, and the width is less than the radius of the cylindrical screen.