SU940180A1 - Correlator for broad-band signals - Google Patents

Description

(54) CORRELATOR FOR BROADBAND SIGNALS

Claims (2)

The invention relates to computing and is used for radio communications and radar systems. In receivers of broadband signals, a known erelator is used, containing either amplitude detector or phase detection. The closest technically to the tfedlagadomeyu is a xc repeater, containing successively included first signal multiplier, band-pass filter, phase detector, second signal multiplier, and integrator, 1 second. The second inputs of both multipliers are connected to the pseudo-radiation sequence generator, and The second input of the phase detector is connected to the first input of the multiplying bodies (2}. The main disadvantage of the known device is the presence of a large number of successive stages of signal conversion, which szhozhdaets povpiennymi instrumental lossy object of the invention -. u1d) oshchenilas correlator ui} and while increasing the accuracy of his work. The goal is achieved by the fact that in the x1 selector for R1f (bandwidth signals containing a multiplication unit whose first input is a correlator input, the second is connected to the output of a pseudo-random sequence generator, the output of the multiplication unit is connected to the input of the bandwidth filter, and the output is connected with the first input of the phase detector, the output of which is connected to the input of the integrator, the second input of the phase detector is connected to the output of the shredder. The Kqprelo tor circuit for the Bioscable signals is represented on the circuit contains a sequential multiplication unit 1, the input of which is connected to a pseudo-random sequence generator 2, a band-pass filter 3, an impulse detector, an 11th detector 4, the second input of which is connected to the output multiplex 1 of the signal multiplication, and an integrator 5 whose output is a vertical correlator in general. The correlator works as follows. The input wideband signal from the receiver to block 1 of the smart pair communicates with the Bbrpa6aTb BaeN-No. iM generator with a pseudo-random sequence generator (PSD) according to and with the modulation law of the carrier on transmission. In the mode of maintaining synchronism on the carrier and clock frequencies and on the temporal position of the received signal relative to the SRP generated in the receiver, at the output of block 1, hidden in the noise segments of harmonic oscillations equal in duration to the SRP used. These segments are further filtered by band-pass filter 3, which increases the signal-to-noise ratio from negative values typical of broadband systems to small positive values. Simultaneously with noise filtering, the bandpass filter delays the output signal relative to the input, and decorrels thereby the noise component at the output of the filter relative to the input. From the output of block 1, the carrier frequency oscillates directly, in a noisy form, and through the band-pass filter 3, cleaned and delayed relative to the input, to the two inputs of the phase detector 4. Under the condition that the phases of both oscillations coincide, which is carried out by adjusting the phase shifter into the circuit of the phase detector, at the output of the latter, direct current pulses equal to the length of the memory bandwidth are measured. These pulses are further processed by an optimal filter, produced in the form of an integrator 5. From the scheme of the proposed correlator, it can be seen that its ability to select the useful signal to interference is determined primarily by the degree of interference dextroma introduced by the bandpass filter 3, which noc is based on two branches to the phase detector 4. In the absence of a band-pass filter, this scheme, obviously, will not be able to distinguish the signal from the noise. In this case, the band-pass filter in the prototype performs the same decorration function, arriving in two branches to the phase detector. Indeed, if we exclude a bandpass filter in the prototype circuit by connecting the output of the first multiplier directly to the input of the phase detector, then in the absence of a useful signal at the receiver input, the same detector will be fed to the phase detector: directly through the other input reference bandwidth generated by a local generator. As a result, the output of the phase detector, regardless of the nature of the signal at the receiver input, will always be supported by the SRP, which, in the Second multiplier, interacts with the same SRP received at the second input from the local oscillator, will result in a signal at the output of the circuit . Thus, in the prototype, as well as in the proposed correlator, the ability to pick up the useful signal from interference is equally determined by the parameters of the bandpass filter (bandwidth and delay time) and therefore both devices have potentially identical electrical characteristics. The efficiency of the device to be installed is to use a smaller number of stages of formation of the signal, as compared with the prototype, which simplifies the device, simplifies its setting and ensures accurate work. Claims of the invention: A correlator for broadband signals containing a multiplication unit, the first input of which is the care of the correlator, the second is connected to the output of a pseudo-random sequence generator, the output of the multiplication unit is connected to the input of a bandpass filter, the output of which is connected to the first input of the phase detector, the output of which is connected to the integrator input, it is distinguished by the fact that, in order to simplify the correlator while increasing the accuracy, the second input of the phase detector in it is connected to the output of the unit multiply. Sources of information taken into account in the examination 1. Noise-like signals in information transmission systems, Moscow, Soviet radio. 1973, p. 193-194. 2. USSR Author's Certificate for Application No. 2863010 / 18-04,, cl. H O4 B 1 / O6, 1980 (prototype). Exit