RU1840938C - Active jamming compensation device - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: device comprises a multichannel automatic compensator having a main input and N compensation inputs and an output which is the output of the device, and an attenuator. The device also comprises N automatic compensators, each having a main input and N compensation inputs, each connected to a corresponding input of the multichannel automatic compensator, wherein the compensation inputs are combined and connected through the attenuator to the output of the device.

EFFECT: high accuracy of compensation.

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Description

The present invention relates to the field of radar. It can be used in radar receivers to protect against interference.

Known multi-channel auto-compensator (1, p. 352-363), containing the adder, the main channel and N compensation channels, covered by chains of correlation feedbacks.

The operation of such a device is based on automatic mutual subtraction (compensation) in the adder of the main channel interference coming from the side lobes of the directivity characteristics of the main antenna and the interference from the compensation channels correlated with them coming from the compensation antennas. Interference compensation is provided by adaptive regulation of the complex transfer characteristics of the compensation channels by correlation feedback chains.

The known device has a drawback: due to the presence of the directivity characteristics of the compensation antennas of the side lobes, not only interference but also a useful signal are received at the compensation inputs of a multi-channel automatic compensator. This leads to compensation or distortion of the output useful signal of the device and such a deterioration of the detection and measurement characteristics of the radar station (radar) that the use of an automatic compensator may not be practical (2).

Known multi-channel automatic compensator containing the main channel, adder, N compensation channels, phase shifter, attenuator and N two-input adders.

In such a device, it is possible to maintain the level of the output useful signal when it affects the inputs of the compensation channels of a multi-channel automatic compensator. This is achieved by the fact that in the compensation channels, the inputs of which the useful signal is supplied, a useful signal from the main channel is supplied through the phase shifter and attenuator. With a certain setting of the attenuator and the phase shifter, mutual subtraction of the useful signals entering the compensation channels of the multi-channel automatic compensator is provided, and thereby eliminating the possibility of compensating the useful signal of the main channel of the automatic compensator.

However, the known device has a drawback: the indicated mutual subtraction of useful signals is possible only with identical amplitude and phase characteristics of the transmission paths of the useful signal from the target to the inputs of two-input adders, which is practically impossible. This leads to low efficiency of the real device in the conditions of use, and therefore to distortion of the output useful signal.

Of the known devices, the closest to the claimed device is a multi-channel auto-compensator containing the main channel and N auxiliary channels, and a subtractor and an attenuator are connected to each auxiliary channel.

In such a device, it is possible to separately configure all the transmission paths of the useful signal to the compensation channels. However, a necessary condition for the operability of such a device is the high amplitude and phase stability of its paths. Ensuring such stability is a difficult technical task, and in multi-frequency radars or in radars with electronic scanning it is practically impossible. This leads to low efficiency of the known device and the distortion of its output useful signal in the presence of a useful signal in the compensation channels, which degrades the detection and measurement of radar.

Thus, a disadvantage of the known device is the distortion of its output useful signal.

The aim of the invention is to reduce the distortion of the output useful signal of the device for the compensation of active interference.

This goal is achieved by the fact that in the device for suppressing active interference, containing a multi-channel automatic compensator having a main input connected to the output of the main channel of the receiver, N compensation inputs and an output that is the output of the device, and an attenuator, N automatic compensators are introduced, each of which has the main and compensation inputs and output, with their main inputs connected to the outputs of the compensation channels of the receiver, the outputs connected to the compensation inputs of a multi-channel machine of the compensator, and the compensation inputs are combined and connected through the attenuator to the output of the device.

The introduced automatic compensators are designed to automatically control the amplitudes and phases of the useful signals of the main and compensation channels of the receiver and their mutual compensation.

The attenuator is connected in such a way as to equalize the levels of the useful signal at the inputs of the introduced automatic compensators and to reduce the levels of the output uncompensated residual noise at their compensation inputs.

Together, all the nodes of the proposed device provide compensation of the useful signal at the compensation inputs of a multi-channel automatic compensator and, thus, reducing the distortion of the output useful signal.

The set of distinctive features proposed in this technical solution is not known to the authors.

The drawing shows a functional diagram of the proposed device.

The active interference suppression device comprises a multi-channel automatic compensator 1, N automatic compensators 2 ₁ ... 2 _N and an attenuator 3.

Automatic compensators 2 can be performed according to one of the known schemes (1, p. 354, 356, 358; 2 p. 20; 5).

The proposed device for the suppression of active interference is as follows.

The input of the main channel of the multi-channel automatic compensator 1 from the output of the main channel of the receiver 4 and the main inputs of the automatic compensators 2 ₁ ... 2 _N from the outputs of the compensation channels of the receiver 5 ₁ ... 5 _N receive useful signals and interference. Their levels depend on the directivity characteristics of the main and compensation antennas and the mutual spatial position of the target and sources of active interference.

Typically, the level of the side lobes of the directivity of the main antenna is - (15 ... 25) dB from the level of the main lobe, and the level of the directivity of the compensation antennas in the directions of the likely effects of active interference is approximately equal to the level of the side lobes of the directivity of the main antenna (1, p. 355).

Thus, the levels of interference received at the main input of the multi-channel automatic compensator 1 along the side lobes of the directivity characteristics of the main antenna and the interference received at the main inputs of the automatic compensators 2 ₁ ... 2 _N through the compensation antennas are approximately equal. Through the main channels of the automatic compensators 2 ₁ ... 2 _{N, the} interference is transmitted to the compensation inputs of the multi-channel automatic compensator 1 and compensates for the interference of the main channel in it, as in the well-known multi-channel compensators.

From the output of the device uncompensated residual noise and the output useful signal through the attenuator 3 are fed to the compensation inputs of the introduced automatic compensators 2 ₁ ... 2 _N.

Such automatic compensators containing an adder, main and compensation channels, and a correlation feedback circuit work as follows (1, p. 356-360). The correlation feedback circuit of the automatic compensator, using the input voltage of the compensation channel as a reference, thus regulates the complex transfer characteristic of the compensation channel so that the voltage correlated with the input voltage of the compensation channel is eliminated from the mixture of input voltages of the main channel. It is only necessary that the reference voltage at the input of the compensation channel of the automatic compensator be equal to or greater than the compensated voltage at the input of the main channel of the automatic compensator, and the phase relations between them can be any.

Thus, the supply of a useful signal to the compensation inputs of the newly introduced automatic compensators 2 ₁ ... 2 _N allows you to compensate for the useful signal supplied to their main inputs and exclude it from the input voltages of the compensation channels of the multi-channel auto-compensator 1. This eliminates the possibility of compensation or distortion of the useful signal in multi-channel automatic compensator 1, including for various instabilities or errors in the characteristics of the device paths.

The attenuator 3 serves both to bring the level of the output useful signal of the device at the compensation inputs of the compensators 2 ₁ ... 2 _N to the level of the useful signals at the outputs of the compensation paths of the receiver 5 ₁ ... 5 _N (for a single transmission coefficient of the main channel of the multi-channel automatic compensator 1, these levels may differ by specified 15 ... 25 dB), and to reduce the transmission of output interference of the device. Then, at low interference levels at the inputs of the compensation channels of the compensators 2 ₁ ... 2 _{N, the} possibility of compensating for the input interference transmitted through their main channels of the multi-channel automatic compensator 1 is excluded.

Thus, in the proposed device provides an effective suppression of active noise without distortion of the useful signal with low requirements for stability and accuracy of the parameters of the radar paths.

The technical efficiency of the proposed device is to reduce the distortion of the output useful signal of the active interference compensation device under the usual requirements for the characteristics of the radar paths in the application. This allows you to maintain high radar detection and measurement performance, including when exposed to active interference.

The economic efficiency of the proposed device is that to achieve the same characteristics of radar detection and measurement under the influence of active interference, for example, by increasing the transmitter power, much higher costs are required.

LITERATURE

1. Ya.D. Shirman, V.N. Manjos. "Theory and technique of processing radar information against the background of interference", M., "Radio and communications", 1981

2. Guryanov G.G. Assessment of the influence of factors that reduce the effectiveness of a two-channel interference canceller. "Proceedings of the NIIR" - No. 2, 1984, pp. 20-26.

3. US patent No. 3881177. 1975 Publication, Volume 933, No. 5.

Claims (1)

An active interference compensation device comprising a multi-channel automatic compensator having a main input and N compensation inputs and an output being an output of the device and an attenuator, characterized in that, in order to increase the accuracy of compensation, N automatic compensators are introduced into it, each of which has a main and N compensation inputs and output, each of which is connected to the corresponding input of a multi-channel automatic compensator, and the compensation inputs are combined and connected through the attenuator to Exit devices.

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