SU1160572A1 - Device for compensating narrow-band interference - Google Patents

Abstract

) DEVICE COMPENSATION OF NARROBAND PSHS on av.st. No. 1019648, characterized in that, in order to prevent the useful pulse signal from being suppressed and to reduce the distortion of its leading edge, a second additional subtractor, the input of which is connected to the output of the device, an additional amplitude normalizer, an additional quadrature filter, is added; and the second reference inputs of which are connected to the corresponding outputs of a neIP embedded frequency generator, and an additional controlled attenuator, the output of which is connected to another input of the second additional subtractor, connected in series an additional amplitude detector, whose input is connected to the output of the additional quadrature filter, the third additional subtractor the other input is the input of the additional reference voltage, and the first additional integrator, the output of which is connected to the control input of the additional controlled attenuator, two-fourths of additional subtractors are inserted into the quadrature filter, and the output CO of each phase detector of the quadrature filter is connected to the input quadrature integrator through the corresponding fourth subtractor, the other input of which is connected to the output of the corresponding phase detector; adr Saturn filter.

Description

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The invention relates to the field of radionavigation and is intended for automatic suppression of narrowband interference in receivers of pulse-phase radionavigation systems (IFRNS).

According to the main auth. No. 1019648, a narrowband interference compensation device is known, comprising a subtractor whose input is an input, up to 11, and an output is a device output, a frequency tunable generator and a quadrature filter, the first and second reference inputs of which are connected to the corresponding outputs of a frequency tunable generator, between the output of the subtractor and the signal input of the quadrature filter are connected to the amplitude normalizer, a controlled attenuator is connected between the output of the quadrature filter and another input of the subtractor, between the output of kVA A string V filter and a control input of the controlled attenuator are connected in series with an amplitude detector, an additional subtractor, the other input of which is a constant voltage input and an integrator (jlj.

However, the known device distorts the leading edge of the signal pulses. If the amplitude of the interference significantly exceeds the amplitude of the signal pulses, which is characteristic of a heavy interference situation, with equal frequency of interference to the carrier frequency of the signal, the rate of change of the envelope of the compensating signal is greater than the rate of change of the envelope of the signal i-spools, and therefore the useful signal is not only greatly distorted, he may be completely depressed. I

The purpose of the invention is to prevent the suppression of a useful pulse signal and reduce the distortion of its leading edge.

The goal is achieved by the fact that a narrow-band interference compensation device, containing a reader, whose input is an input, and an output is an output of a device, a tunable generator and a quadrature filter, the first and second reference inputs of which are connected to the corresponding outputs of a tunable frequency generator, between the output of the subtractor

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and the amplitude normalizer is turned on by the signal input of the quadrature filter, a control attenuator is connected between the output of the quadrature filter and the other input of the calculator, an amplitude detector is connected in series between the output of the quadrature filter and the control input of the controlled attenuator the reference voltage and the integrator;

5 subtractor, the input of which is connected to the output of the device, additional amplitude normalizer, additional quadrature filter, the first and second reference inputs of which

0 is connected to the corresponding outputs of a tunable frequency generator and an additional controlled attenuator, the output of which is connected to another input of the second additional subtractor, connected in series an additional amplitude detector, the input of which is connected to the output of the additional quadrature filter, the third additional amplifier, the other input of which input of the additional reference voltage, and the first additional integrator, the output of which I o is connected to the control input of the additional tional controlled attenuator, a filter kva.draturny two fourth additional subtractor introduced, wherein the output of each quadrature phase detector connected to the input filter of the integrator of the quadrature filter through the corresponding chetvertsh subtractor, the other input of which is connected to the output of the respective quadrature phase detector further filter.

The drawing shows a structural electrical circuit of the proposed device.

0 The narrowband interference compensation device contains a generator t, a normalizer of 2 amplitudes, an additional normalizer of 3 amplitudes, a subtractor 4, a second additional reader, 5, a quadrature filter 6, an additional quadrature filter

7, the first complementary integrator,

8, third additional subtractor I 9, phase detectors 10 quadrature filters, fourth additional subtractors 11, integrators 12 quadrature filters, multipliers 13 quadrature filters, adder 14 quadrature filters, control attenuator 15, amplitude detector 16, additional subtractors 17, integrator 18 , phase detectors 19 additional quad filter, integrators 20 additional quadrature filter multipliers 21 additional quadrature filter, adder 22 additional quadrature f An additional controlled attenuator 23, an additional amplitude detector 24. A narrowband interference compensation device operates as follows: A narrowband interference compensation device is formed by two auto-sensors: the main and auxiliary ones. The main autocompensator contains a subtractor 4, the amplitude normalizer 2, a quadrature filter 6, controlled by an attenuator 15, the transmission coefficient of which is controlled by the amplitude detector 16, an additional subtractor 17, and an integrator 18. Compensation is made by the main autocompensator. Auxiliary autocompensator contains an additional quadrature filter 7, an additional controlled attenuator 23, which is controlled by an additional amplitude detector 24, a third additional subtractor 9 and a first additional integrator 8, a second additional subtractor 5 and an additional normalizer 3 of amplitude. When a signal radio pulse appears at the input of the device at the outputs of phase detectors 10 and phase detectors 19, the reference inputs of which are fed to the generator 1, centric voltages are generated, regardless of the signal level. From the occurrence of a signal pulse in a quadrature filter 6, the output voltage of the phase detectors 10 is compensated for by identical voltages of the phase detectors 19 on the fourth additional subtractors It. Consequently, the compensating voltage in the main autocompensator remains unchanged while the voltages of its phase detectors 10, i.e. there is a delay in the formation of the response, which compensates for the voltage of the main autocompensator, to the signal radio pulse, due to which the leading edge of the latter remains undistorted, regardless of the signal level. The delay time is set by an additional base voltage applied to the third additional subtractor 9. Thus, in the proposed device, the suppression of the useful pulse signal is prevented and the distortion of its leading edge is reduced.

Claims (1)

DEVICE FOR COMPENSATION OF A NARROWBAND INTERFERENCE by ed. 'sv. No. 1019648, characterized in that, in order to prevent suppression of a useful pulse signal and reduce distortion of its leading edge, a second additional subtractor is connected in series, the input of which is connected to the output of the device, an additional amplitude normalizer, an additional quadrature filter, the first _; and the second reference inputs of which are connected to the corresponding outputs of the frequency-tunable generator, and an additional controlled attenuator, the output of which is connected to another input of the second additional subtractor, an additional amplitude detector connected in series, the input of which is connected to the output of the additional quadrature filter, the third additional subtractor, another the input of which is the input of an additional reference voltage, and the first additional integrator, the output of which is connected with the control input of the additional controlled attenuator, two fourth additional subtractors are introduced into the quadrature filter, the output of each phase detector of the quadrature filter is connected to the input of the integrator of the quadrature filter through the corresponding fourth subtractor, the other input of which is connected to the output of the corresponding phase detector of the additional quadrature filter. SU ... 1160572 1 1160572