SU558584A1 - Direction finder - Google Patents

Description

one

The invention relates to a passive location and can be used in the direction finding technique for sources of electromagnetic energy.

A direction finder is known, which contains four sets of directional antennas, four amplifiers, four phase shifters, logic circuits, an octant-quadrant switch, a display board, an electron-beam tube (CRT), each antenna unit is connected to a corresponding amplifier, and the outputs of amplifiers are connected to phase shifters , the corresponding outputs of which are connected to the corresponding inputs of logic circuits and CRT l.

The direction finder is known, which contains three receiving channels, a phase-sensitive detector unit and a recorder, the first and second receiving channels contain a directional antenna connected to the amplifier, the third receiving channel contains a non-directional antenna connected to the amplifier, and the outputs of the amplifiers of all receiving channels are connected to the corresponding inputs of the unit phase sensitive detectors 2.

However, the well-known direction finders do not automate the process of obtaining the value of bearings in all directions simultaneously.

In order to automate the process of obtaining the values of the bearings simultaneously in all directions, the proposed direction finder additionally introduced a linear amplitude detector in each receiving channel, a block of threshold elements in the first and second receiving kangsha and digital logic device, with linear amplitude detectors connected to the outputs of all amplifiers, output the linear amplitude detector of the third receiving channel is connected to the control inputs of all amplifiers, and the output of the linear amplitude detectors of the first and the second receiving channels are connected to the inputs of blocks of threshold elements, the outputs of the latter, as well as the outputs of the block of phase-sensitive detectors are connected to the corresponding inputs of the digital logic device, the outputs of which are connected to the corresponding inputs of the recorder.

The drawing shows the structural electrical scheme of the proposed direction finder.

Claims (2)

The direction finder contains three receiving channels 1-3, a block of 4 phase-sensitive detectors and a recorder 5, with the first and second receiving channels 1, 2 containing an unmounted antenna 6, connected to the amplifier 7, the third receiving channel 3 contains omnidirectional antenna b connected to its amplifier 7, and the outputs of the amplifiers 7 of all receiving channels 1-3 are connected to the corresponding input gangs of unit 4. Each receiving channel 1-3 is contained by a linear amplitude detector 9, the first and second receiving channels 1.2 are blocks 10 threshold elements, and the linear amplitude The detectors 9 are connected to the outputs of all amplifiers 7, the linear amplitude detector’s 9th third of its receiving channel 3 is connected to the control inputs of all the amplifiers 7, and the linear amplitude outputs, detectors 9 of the first and second receiving channels 1, 2 - to the inputs of blocks 10 threshold elements, the outputs of which, as well as the outputs of block 4, are connected to the corresponding inputs of the digital logic device 11, the outputs of the latter are connected to the corresponding inputs of the recorder 5. The direction finder works as follows. The signal received by antennas 6 and b is amplified by amplifiers 7, and then fed to linear amplitude detectors 9 k to the inputs of block 4 of photo-sensitive detectors. The control signal from the output of the linear amplitude detector 9 of the receiving kangsha 3 is fed to the control inputs of the amplifiers, with the gain of the amplifier 7 of the Caial 3 changing in such a way that as the level of its input signal changes, the output signal level remains almost constant. The signal level at the outputs of amplifiers 7 of channel 2 depends only on the direction of the signal received by antennas 6. Signals from the outputs of linear amplitude detectors 9 in channels 1, 2 are fed to blocks of 10 threshold elements. When the amplitude of the signal exceeds the threshold level at the output of block 10, a pulse of standard duration and amplitude is generated. The pulses from the outputs of the blocks 10 are fed to the corresponding inputs of the digital logic device II. Block 4 serves to eliminate ambiguity in determining bearing. Depending on the direction of arrival, a pulse of standard duration and amplitude is generated at one of its outputs, arriving at the corresponding input of a digital logic device AND, which, when a certain combination of digital signals arrives at its inputs, generates a digital signal at one of the outputs corresponding to the bearing area. Digital signals from the outputs of the digital logic device 11 are fed to the corresponding inputs of the recorder 5. The use of the proposed direction finder automates the process of obtaining the values of the bearings on the sources of radiation of electromagnetic energy at the same time directions, which allows its use in automated systems for determining the direction to sources of radiation of electromagnetic energy. The invention includes a direction finder containing three receiving channels, a phase-sensitive detector unit and a recorder, the first and second receiving channels contain a directional antenna connected to the amplifier, the third receiving channel contains an omnidirectional antenna connected to the amplifier, and the outputs of the amplifiers of all receiving channels are connected with the corresponding inputs of the unit of the phaeosensitive detectors, which distinguishes between, and with the fact that, in order to automate the process of obtaining the values of the bearing, simultaneously in all directions, it additionally introduces a linear amplitude detector in each receiving channel, a block of threshold elements in the first and second receiving channels and a digital logic device, the linear amplitude detectors connected to the outputs of all amplifiers, the output of the linear amplitude detector of the third receiving channel is connected to the control inputs of all amplifiers, and the outputs of the linear amplitude detectors of the first and second receiving channels are connected to the inputs of blocks of threshold elements, the outputs of which, as well as the outputs of the phase ity detectors connected to respective :: odes in digital logic devices, the outputs of which are connected to respective inputs of the registrar. Sources of information taken into account in the examination: 1. US Patent About 3490024, cl. 343-113, 1970. 2.Kashirovsky V.E. Determination of the location of thunderstorms electronic methods. M., Science, 1966, p. 171. one R I. . J eleven P Yu iO Yu d J ± r n I eleven It L GTT