RU1841363C - Wideband frequency meter - Google Patents

Abstract

FIELD: radio interference.

SUBSTANCE: invention relates to the field of radio interference and can be used in centimeter-range radio interference stations to create response noise interference to enemy radar stations. The claimed broadband frequency meter contains a series-connected first frequency measurement unit, a first directional coupler and an intermediate frequency amplifier, a detector and a threshold unit, as well as a second directional coupler and a second frequency measurement unit. A narrowband filter, a heterodyne and a series-connected clock generator, a control unit and a notch filter are additionally introduced into the claimed device.

EFFECT: technical result is to increase the sensitivity of a broadband frequency meter by eliminating a continuous signal from the frequency measurement path.

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Description

The invention relates to the field of radio countermeasures and can be used in centimeter range RPD stations such as "Lilac", "Geran" to create counter-noise interference to enemy radar stations.

Broadband frequency meters are known that contain a multi-channel device with sequential cascade refinement of the frequency of received signals.

Of the known broadband frequency meters, the closest in its technical essence is the wideband frequency meter of the matrix receiver of the Geran station, built on the principle of a multi-channel device with subsequent cascade refinement of the frequency of the understood signals, consisting of several frequency measurement stages, the circuit of which consists of a frequency-selective splitter of the first frequency measurement stage, each channel of which is connected to a series-connected mixer and directional coupler. The output of each directional coupler is connected to one of the adder channels, and a local oscillator is connected to each of the mixers. The output of the adder is connected to the input of an intermediate frequency amplifier, the output of which is connected in series to a second frequency detection stage, consisting of a frequency-selective splitter, to the output of each channel of which a detector device and a video amplifier are connected in series.

The frequency meter works as follows.

The pulse signal of the radar station, received by the receiving antenna, is amplified in the amplifier and enters one of the channels of the frequency-selective splitter; with a mixer located in this channel, the high-frequency signal is converted into an intermediate frequency signal and, through a directional coupler, enters one of the channels of the frequency-selective splitter , the output of which is fed to an intermediate frequency amplifier to amplify and limit the dynamic range of the intermediate frequency signal.

Then this signal enters the second stage of the frequency meter, where it is more accurately determined, then the signal is detected by a detector device and, through a video amplifier, is fed to a response noise generator.

When continuous and pulsed signals simultaneously pass through the amplifier, the continuous pulse signal is suppressed in the intermediate frequency amplifier.

In the absence of a continuous signal, the frequency meter of the Geranium station is capable of simultaneously processing two pulse signals in a given frequency range. The sensitivity of the device is no less than 65 dB/W. If there is a continuous signal with Рв _хн ≥-60 dB/W at the input of the frequency meter, the sensitivity of the matrix receiver drops by 18÷20 dB. With such a decrease in the device's sensitivity to a pulse signal, it becomes unable to process pulse signals over the entire frequency range.

The purpose of the present invention is to increase the sensitivity of a wideband frequency meter by eliminating the continuous signal from the frequency measurement path.

This goal is achieved by connecting an electrically tunable notch filter to the input of a broadband frequency meter. The proposed device is illustrated by a drawing that shows a block diagram of a broadband frequency meter.

A wideband frequency meter contains a first cascade - 1 frequency meter and a second cascade - 2 frequency meters, sequentially connected to each other via a relay path - 3. At the input of the cascade - 1 frequency meter there is an electrically tunable notch filter - 4, and between cascades 1, 2 emitters frequency in the relay path - 3, an intermediate frequency amplifier - 5 is installed. At the input and output of the amplifier - 5, directional couplers 6, 7 are included. At the control input of the reflex filter - 4, a control device - 8 is installed, connected to a clock generator - 9. In this case, the clock generator - 9 is connected through a local oscillator - 10 with a directional coupler - 6, a detector head - 11, a narrow-band filter - 12 and a threshold device - 13, connected to a control device - 8, are connected in series to the directional coupler - 7.

In the absence of a continuous signal, the frequency response of the notch filter - 4 is outside the operating frequency range of the broadband frequency meter. From the output of clock generator II - 9, video pulses are received for amplitude modulation of the local oscillator - 10 from the output of the local oscillator - 10 test pulses through the directional coupler - 6 are sent to the power amplifier - 5, amplified and through the directional coupler - 7 are sent to the detector device 11, and are not received in cascade - 2 frequency meters because the carrier frequency of the test pulses is selected 40÷50 MHz below the limiting frequency of the operating frequency range of the second stage - 2 frequency meters, then the carrier frequency of the test pulses is selected by a narrow-band filter - 2 through a threshold control device - 8 to which clock pulses are also supplied from the clock generator - 9 If there is a continuous signal from a radar station at the input of a wideband instantaneous frequency meter in the intermediate frequency amplifier - 5, the test pulses are suppressed; their amplitude after being isolated by a narrow-band filter - 12 is insufficient to pass the threshold device - 13, thus only clock pulses are supplied to the control device - 8 pulses and the control device - 8 issues a signal to adjust the notch filter - 4.

The adjustment is carried out until the frequency response of the filter coincides with the carrier frequency of the continuous signal, and the amplitude of the test pulses on the threshold device is restored. The threshold device issues a signal to stop the filter. Next, the presence of a continuous signal at the device input is checked periodically every 3÷5 seconds.

Reorganization of the notch filter over the range is carried out discretely. The discretes correspond to the filter rejection band at the level of 10 dB and correspond to 20÷30 MHz.

The presence of a notch filter at the input of the broadband frequency meter favorably distinguishes the proposed device from the specified prototype, since the elimination of a continuous signal from the device path makes it possible to restore the sensitivity of the broadband frequency meter using a pulsed signal.

Claims (1)

A broadband frequency meter containing a series-connected first frequency measurement unit, a first directional coupler and an intermediate frequency amplifier, a detector and a threshold unit, as well as a second directional coupler and a second frequency measurement unit, characterized in that, in order to increase sensitivity when exposed to continuous narrowband interference , a narrow-band filter, a local oscillator and a series-connected clock generator, a control unit and a notch filter are introduced, while the output of the notch filter is connected to the input of the first frequency measurement unit, the local oscillator input is connected to the second output of the clock generator, and the output is connected to the second input of the first directional coupler, the input of the second directional coupler is connected to the output of the intermediate frequency amplifier, the first output is connected to the input of the second frequency measurement block, and the second output is connected through a narrow-band filter to the input of the detector, and the output of the threshold block is connected to the second input of the control block.

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