RU2007872C1 - Device for correlation processing of wide-band signals - Google Patents

Abstract

FIELD: radio communications. SUBSTANCE: device has first multiplier 1, signal copy generator 2, second multiplier 3, rejection filter 4, band-pass filter 5, attenuator 6, subtraction units 7₁-7_n, first and second delay gates 8 and 9, band-pass filters 10₁-10_n, noise detection units 11₁-11_n, attenuators 12₁-12_n, delay gates 13₁-13_n, amplification, conversion and filtering circuit 14, third multiplier 15, third delay gate 16, band-pass filters 17₁-17_n, attenuators 18₁-18_n, delay gates 19₁-19_n, switches 20₁-20_n, adder 21, phase shifters 22₁-22_n. EFFECT: increased stability to narrow-band noise. 1 dwg

Description

 The invention relates to the field of radio communications and may find application in communication systems with broadband signals.

 The purpose of the invention is to increase the noise immunity to narrowband interference.

 The drawing shows a structural electrical diagram of a device for correlation processing of broadband signals.

The correlation processing device for broadband signals contains a first multiplier 1, a signal copy generator 2, a second multiplier 3, a notch filter 4, a bandpass filter 5, an attenuator 6, subtraction blocks 7 ₁ -7 _n , the first and second delay elements 8 and 9, bandpass filters 10 ₁ -10 _n , blocks 11 ₁ -11 _n interference detection, attenuators 12 ₁ -12 _n , delay elements 13 ₁ -13 _n , amplification, conversion and filtering path 14, third multiplier 15, third delay element 16, band-pass filters 17 ₁ -17 _n, attenuators January ₁₈ -18 _n, delay elements ₁₉ January -19 _{n, 20} January keys -20 _n, with mmator 21, phase shifters ₂₂ January -22 _n.

 Device correlation processing of broadband signals works as follows.

 A mixture of broadband signal (SHPS) and narrowband interference (UE) arrives simultaneously on two branches. In the upper branch, the input mixture enters through the attenuator 6 and the delay element 9 into n partial channels, each of which contains a filter 17 connected in series with a frequency passband Δ F = Δ f / n, where Δf is the BSC band, attenuator 18, delay element 19 the subtractor 7, the key 20 phase shifter 22. The signals from the outputs of the partial channels are summed in the adder 21, the total signal through the path 14 amplification, conversion and filtering is fed to the multiplier 15, where it is multiplied with a reference signal from the output of the signal generator 2 through the delay element 16. The result of the multiplication through the bandpass filter 5, built on the frequency of the minimized signal, is fed to the output of the device.

 In the lower branch, the input mixture is fed to the multiplier 1, where it is multiplied with a reference signal coming from the output of the generator 2 copies of the signal. The result of the multiplication is rejected by the filter 4 tuned to the frequency of the convoluted signal, and then it is repeatedly multiplied with the same reference signal delayed in the delay element 8 by a time equal to the possible delay of the signal in the notch filter 4. Due to the above actions on the input mixture, a useful one is rejected from it signal, and the interference due to double multiplication with the same reference signal is reduced to its original form. Thus, at the output of the multiplier 3, an interference estimate is formed. From the output of the multiplier 3, interference is fed to n partial channels, each of which contains a filter 10 connected in series with a band Δ F = Δ f / n, similar to the filter in the upper branch, attenuator 12, delay element 13. The input mixture from the output of filter 10 is fed to block 11 interference detection, which upon detection of interference generates at its output "1", which locks the key 20 in the upper branch. The interference estimates generated in the lower partial channels from the outputs of the delay elements 13 are fed to the first input of the subtraction unit 7.

 Thus, in those frequency channels where powerful interference is not detected that exceeds a predetermined threshold, a lower level interference is compensated in the interference detection unit. Frequency channels with powerful interference are excluded from processing by locking their output with key 20. (56) USSR author's certificate N 1338078, cl. H 04, 1/10, 1985.

Claims (1)

 DEVICE FOR CORRELATION PROCESSING OF WIDEBAND SIGNALS, containing a bandpass filter, a first multiplier, the first input of which is the input of the device, and the output through a notch filter is connected to the first input of the second multiplier, to the second input of which the generator output is directly connected to the second input of the delay element and to the second input of the first multiplier copies of the signal, characterized in that the attenuator, the second and third delay elements, the third multiplier, the adder, n of the first partial channel are introduced into it c, each of which contains a series-connected band-pass filter, an attenuator, a delay element, a subtraction unit, a key and a phase shifter, n second partial channels, each of which contains a series-connected band-pass filter, an attenuator, and a delay element, as well as n interference detection blocks, when this, the first input of the first multiplier is connected to the input of the attenuator, the output of which through the second delay element is connected to the inputs of the bandpass filters of the first partial channels, the outputs of the phase shifters of which are connected to the inputs of the adder, the output of which through the amplification, conversion and filtering path is connected to the first input of the third multiplier, the second input of which is connected to the output of the signal copy generator through the third delay element, and the output of the third multiplier is connected to the input of the bandpass filter, while the output of the second multiplier is connected to the inputs of the bandpass filters of the second partial channels, and the outputs of the bandpass filters of the second partial channels through the corresponding interference detection units are connected to the second input am partial keys corresponding to the first channel to the second inputs of which are connected the outputs of the subtracting unit delay elements corresponding second partial channels.

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