SU1022313A1 - Device for suppressing narrow-band noise - Google Patents

Abstract

Canceler narrowband interference, comprising: a first multiplier connected successively synchronized generators and second peremnozhital, the point of the compound entrance snihronizatsii synchronous generator and the first input of the first multiplier is an input device, characterized in that, in order to increase noise immunity, between the output of the first multiplier and the other input of the second multiplier, the output of which is the output of the device, is turned on, in series with a band-pass filter and less frequently An interfering filter, between the output of the synchronized generator and the second input of the first multiplier, is connected in series with the third multiplier, whose other input is the input of the heterodyne frequency signal, and the band-pass filter of the total frequency.

Description

The invention relates to radio engineering and can be used as part of receiving devices that receive broadband signals against the background of narrowband interference.

A known interference suppression device containing two mixers between KOTO1Zh1MI includes a notch filter, a generator and a subtractor.

However, this device allows you to suppress broadband interference at a pre-broadband useful signal of a known frequency and does not solve the problem of protecting against narrowband interference with a wideband useful signal.

The closest in technical essence to the proposed technical solution is a narrowband interference suppression device comprising a first multiplier, a synchronized generator and a second multiplier connected in series, the synchronization input of the synchronized generator and the first input of the first multiplier is the input of the device 23.

However, the known device has insufficient noise immunity, which is due to the relatively low accuracy of the amplitude estimate of the interference due to the error of the phase synchronization circuit. The purpose of the invention is to improve the noise immunity.

The goal is achieved by the fact that in a narrowband interference suppression device containing a first multiplier, a serially connected synchronized generator and a second multiplier, the connection point of the synchronization input of the synchronized generator and the first input of the first multiplier is the device input, between the output of the first multiplier and another input of the second multiplier, the output of which is the output of the device is connected in series with a bandpass signal filter and a notch interference filter, between output synchronous generator and a second input of the first multiplier are connected in series the third multiplier, the other input of which is input .geterodinnoy frequency signal, and a bandpass filter overall frequency.

The drawing shows a block diagram of the proposed device.

The narrowband interference suppression device comprises a synchronized oscillator 1, the first multiplier 2, the second multiplier 3, the band-pass filter 4 of the signal, the notch filter 5 of the disturbance, the third multiplier b, and the band-pass filter 7 of the total frequency.

The device works as follows.

Suppose that the device’s input is received by ri (t) of the useful signal Sgg Ct) S (t) -costWst- -t-tpCt) and concentrated interference) A; cosLWit + a- (t), then

rj (t S (t) coslpgt) +); t + o6- (t) J,

The synchronized oscillator 1 captures and monitors the interference to the phase. At its output we will have an estimate of the phase

interference, t L (t). The third multiplier 6 shifts the spectrum of the output signal of the synchronized generator 1 by the value of CO0. The bandpass filter 7 selects

 total frequency CsOD COV) t «tll (t). At the output of the first multiplier 2, the difference component of the signals at the inputs of the first multiplier 2 is separated by a band-pass filter 4. Then the noise at the output of the band-pass filter 4 is reduced to a fixed frequency (JQ. At the output of the band-pass filter 4, noise is rejected; filter 5. configured

WQ start rate.

The useful signal at the output of the bandpass filter 4 will have an instantaneous phase, equal to (OOO -tOs) t + 06 (t) cp (t). Notch filter

5 will suppress the spectral components of the transformed useful signal in the part of the spectrum affected by the noise. However, this does not lead to significant distortion.

the desired signal, since the band of the notch filter 5 is selected to be 1-2 times longer than the width of the signal spectrum. Therefore, it is possible in the first approximation to assume that the useful signal

notch filter 5 passes without claim.

Thus, one input of the second multiplier 3 receives a signal from the output of synchronized generator 1, which has an instantaneous phase 5- (t), and its other input receives a signal with an instantaneous phase (Cx), + (Oo-Ws) t +06 ( t) - Cf (t). The difference component of these signals will have an instantaneous

phase equal to (Wg - UQ) + (p (t).

We note that the phase structure of this signal coincides with the phase structure of the input useful signal, except that it turns out to be shifted down in frequency by the amount t oo t that n® is significant.

In the proposed device, the interference is rejected at a fixed frequency. If in the prototype device

can actually be achieved by EE 1022313, "

Harmonic interference pressure rvl7 dB The degree of interference suppression In the proposed device is suppressed, the degree of interference suppression can be a significant fixed-noise signal. In the laboratory layout of the proposed frequency notch filter

The desired device has been received. Making notch filter

71 dB interference suppression. Ras-5 at a fixed frequency. Consideration of the work of the proposed installation is complicated by technical assistance, which shows that in fact.

Claims (1)

DEVICE FOR SUPPRESSING NARROWBAND INTERFERENCE, comprising a first multiplier, connected in series to a synchronized generator and a second multiplier, the connection point of the synchronization input of the synchronized generator and the first input of the first multiplier is the input of the device, characterized in that, in order to increase noise immunity, between the output of the first multiplier and the other input the second multiplier, the output of which is the output of the device, included, sequentially a band-pass filter of the signal and a noise filter, between the output of the synchronized generator and the second input of the first multiplier, a third multiplier is connected in series, the other input of which is the input of the local oscillator frequency signal, and a band pass filter of the total frequency. and 1022313 1022313 I