SU1415289A1 - Receiver phase array - Google Patents

Abstract

The invention relates to radio engineering and allows to increase the noise immunity. The receive phased antenna array contains heterodyne phasing channels (GCF) 1, local oscillator 7, control unit 8 and adder 10. In each GCF 1, the microwave signal is received by antenna element 2, converted into converters 3, 4 signal frequencies using local oscillators 7, 9 and the converter 6 of the heterodyne frequency, and then through the controlled phase shifter 5 enters the adder 10. The control unit B sets the required phase shift in the controlled phase shifters 5 to provide the desired angle of the scanning pattern and. Due to the introduction of converters 4, 6 and local oscillator 9 into each GKF 1, the first intermediate and heterodyne frequencies that are unequal and non-multiple among themselves at the same second intermediate frequencies can be selected in different GKF 1s. This makes it possible to attenuate and filter out the combination parasitic components from the reradiation of heterodyne frequencies by the antenna elements 2. 1 sludge. (L

Description

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The invention relates to radio engineering and, in particular, can be used in radio communication and radiolocation systems.

The aim of the invention is to increase noise interference.

The drawing shows a structural diagram of a receiving phased array antenna (PPAR).

PPAR contains heterodyne channels 1 of phasing, each of which consists of antenna element 2, first 3 and second 4 signal frequency converters, controlled phase shifter 5 and heterodyne frequency converter 6, first local oscillator 7 control unit 8, second local oscillator 9 and adder 10,

PPAR works as follows.

The external microwave signal is received by the antenna element 2 in each heterodyne channel 1 of the phasing, then converted in the first 3 and second 4 frequency converters of the signal using the first 7 and second 9 heterodyne and heterodyne frequency converter 6 and through a controlled phase shifter 5 is fed to the inputs of the adder 10, the required scanning angle by the directivity pattern (NF) of the PPAR is achieved by appropriately setting the phase shift in the controlled phase shifters 5 using a block

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Each heterodyne phasing channel has a second local oscillator 9, and the first heterodyne frequencies for the first converter 3 frequency signals are obtained using heterodyne frequency converters 6, where the frequencies of the first 7 and second

9 heterodyne. Such formation of heterodyne frequencies allows choosing the first intermediate frequencies and the first heterodyne frequencies in different channels of the heterodyne phasing.

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frequencies unequal and non-multiple among themselves with the same second intermediate frequencies. This leads to an increase in the interference immunity of the PPAR, since the combination parasitic components of the reception in the phasing channels from re-emitting heterodyne frequencies by the antenna elements 2 are significantly weakened and filtered.

Claims (1)

Formula invented and A receive phased antenna array containing heterodyne phasing channels, each of which consists of a serially connected antenna element and a first frequency converter of the signal, a controlled phase shifter and an adder, whose inputs are connected to the outputs of controlled phase shifters, a first local oscillator and a control unit of the directivity pattern, the outputs of which connected to the control inputs of the controlled phase shifters, characterized in that, in order to increase the noise immunity, to each channel of phasors An second signal frequency converter is inserted, which is connected between the output of the first frequency converter of the signal and the input of the controlled phase shifter, the second local oscillator and the heterodyne frequency converter, whose inputs are connected to the output of the first local oscillator and the output of the second local oscillator, and its output is connected to the input of the first frequency converter signal , while the output of the second heterodyne is connected to the heterodyne input of the second frequency converter, the first intermediate frequencies and the first heterodyne hours The notes are chosen and nonmultiple unequal to each other.