SU862090A1 - Device for wide-band radio pulse processing - Google Patents

Description

(54) DEVICE FOR PROCESSING OF BROADBAND RADIO IMPULSES

Claims (2)

The invention relates to radio engineering and can be used in radar stations for compressing broadband radio pulses with linear frequency modulation. A device for processing broadband radio pulses is known, which contains a sum mater and N channels, each of which contains a series-connected mixer, a band-pass filter, a linsho delay and a dispersion filter, and the first inputs of all mixers are interconnected to the outputs of the dispersion filters of all channels connected to corresponding inputs of the adder. However, the known device creates large distortions of compressed radio pulses due to the lack of phasing of the reference voltages of the mixers and the inability to compensate for the Doppler shift of the often received radio pulses. The purpose of the invention is to reduce the distortion of compressed radio pulses. To do this, a broadband radio pulse processing device containing an adder and N channels, the second of which contains a series-connected mixer, band-pass filter, delay delay and dispersion filter, with the first inputs of all mixers interconnected, and the outputs of the dispersion filters of all channels are connected to the corresponding the inputs of the adder, entered, a block of coherent frequencies, N outputs of which are connected to the second inputs of the corresponding mixers. The coherent frequency BiOK contains a generator and a series-connected controlled generator, a balanced mixer, a frequency multiplier in a phase modulator, the output of which is connected to the inputs of N channels, each of which contains a filter that is connected in series and a phase shifter. In this case, the generator output is connected to the second inputs of the balanced mixer and the phase modulator, and the input and N outputs of the coherent frequency block correspond to BL5Pot the input of the controlled generator and the outputs of the phase shifters. On, 1 shows the structural electrical circuit of the proposed device; in fig. 2 - diagrams explaining the operation of the device. The processing device for broadband radio pulses contains an adder 1, M channels 2, each of which contains a mixer 3, a band-pass filter 4, a line 5 of the shuffle, a dispersion filter 6. The coherent frequency block 7 contains a generator 8, a controlled oscillator 9, a balanced mixer 1O, a frequency multiplier 11, a phase modulator 12, N channels 13, each of which contains a filter 14 and a phase shifter 15, the device operates as follows. Harmonic oscillations SKB (generator 8 (Fig. 26) with frequency Rc and controlled generator 9 (Fig. 2a) are fed to the inputs of the balanced mixer 10. As a result, the output signal of the balanced mixer 10 is a reference signal (Fig. 2c), whose frequency, taking into account the Aoppler frequency correction U.Pg, entered by target indication by changing the oscillation frequency P of the controlled oscillator 9, about m- This oscillation is fed to the input of frequency multiplier 11c by a multiplication factor K. The oscillation frequency at the output of the multiplier b sl These vibrations are served on the first oscillation with a fixed frequency t headf f - transparency band of the band-pass filter 4; e4p - deviation of the frequency of the partial radio pulse with linear frequency modulation (chirp) as a result of the influence on the inputs The phase modulator 12 of these oscillations at its output has a phase-induced 6f tf oscillation) (Fig. 2d, whose spectrum is a coherent frequency grid, the number of which is determined by the phase modulation index t, and can be sufficient but great. The distribution, selection and control of the phase of coherent, oscillations 5it, ({), 5f.n (f) Srj () with frequencies fr T, (Fig. 2e, f, g.), Are performed using N channels 13 each of which contains series-connected filter 14 with a band (VChF Ru /) and a phase shifter 15. The use of phase shifters in the supply circuits of heterodyne oscillations provides rigid mutual phasing of processing channels. The input chirp spectrum of a radio pulse Ug and a frequency deviation fc- (Fig. 2h), after being converted to mixers 3 (Fig. 2i) and selected in band-pass filters, is divided into N adjacent subspectra. At the output of each bandpass filter, a chirp oscillation takes place (Fig. 2k, l, m), corresponding to an exhausted voice filter. Since, for an input chirp pulse, a certain time interval corresponds to each subspectrum, the chirp oscillations at the output of the bandpass filters 4 are shifted in time. These time shifts are aligned with delay lines 5j by dispersive filters 6, the length of the LFM is compressed with this subspectrum (Fig. 2H), and the addition of the shortened partial widths of the subspectra is performed in adder 1 (Fig. Zo). The proposed device allows the compression of wideband chirped radio pulses with minimal distortion, even in the presence of a Doppler frequency shift in the received radio pulse. Formula Fig.; E shadow 1. A device for processing broadband radio pulses containing an adder and N channels, each of which contains a series-connected mixer, band-pass filter, delay line and dispersion filter, the first inputs of all mixers are interconnected, and the outputs of dispersion filters all channels are connected to the corresponding inputs of the adder, characterized in that, in order to reduce the distortion of the compressed radio pulses, a block of coherent frequencies is inserted, the N output of which is connected to the second inputs appropriate mixers. 2. A device according to claim 1, characterized in that the coherent frequency block comprises a generator and a post-chemically included controlled generator, a balanced mixer, a frequency multiplier and a phase oscillator, the output of which is connected to the inputs of N channels, each of which contains a series-connected filter and The phase shifter, whereby the generator output is connected to the second inputs of the balanced mixer and phase modulator, and the input and N outputs of the coherent frequency unit, respectively, are the input of the controlled generator n schateley. Information sources taken into account during the examination 1. Top. Pulse squeezing technique with a large product of the duration and width of the spectrum. Radio electronics abroad, No. 12, 1963, p. 37, fig. 7 (prototype). Ф && /