SU596114A1 - Non-coherent follow-up filter for processing pseudorandom signal with suppressed carrier, with phase manipulated by the law of binary pseudorandom train - Google Patents

Claims (1)

Rockband amplifier 3 intermediate frequency loop 1 frequency auto podsg ™. The switches are connected to the inputs of the phase cement of mountains 4 and 5 of circuit 2 with delayed synchronization, and the output of the nth trigger 6 of the shift register 7 is connected to one of the inputs of phase demodulator 8 included in the frequency-locked loop 1 between again and wideband introduced narrowband 9 intermediate frequency frequency drivers. In addition, the incoherent c ed filter contains amplifiers 10 and 11, amplitude detectors 12 and 13, adder 14, low pass filter 15 and oscillator 16. The incoherent tracking filter works as follows. A broadband signal with phase shift keying according to the binary pseudo-random sequence is fed to the input of the incoherent tracking filter. At the output of the phase demodulator 8, a harmonic signal is formed, which is monitored by circuit 1. In phase demodulators 4 and 5, the broadband signal is multiplied by two modulating functions, shifted in time relative to each other. The resulting signals are filtered by amplifiers 10 and 11 in two parallel channels, detected by amplitude detectors 12 and 13, and fed to an adder 14 with different signs. From the output of the latter, April is fed to a filter of 15 of these frequencies and a controlled clock generator 16. Footer deceleration is removed from the first trigger 6 of the shift register 7, fed to the circuit of circuit 1 along the phase demodule of the mountain 8 with a compression circuit of a wideband signal. Claims of Invention An incoherent tracking filter for processing a pseudo-random signal with a suppressed carrier, the phase of which is manipulated according to the binary pseudo-spurious sequence containing; a frequency control loop and a delayed synchronization circuit, which is limited to the fact that, in order to speed up the acquisition of the signal / ia in frequency and delay, as well as to improve the frequency loop quality of the tuning loop, the output of the wideband intermediate amplifier the frequency of the frequency-controlled loop is connected to the inputs of the phase demodulators of the delayed synchronization circuit, and the output of the nth trigger of the shift register of the latter is connected to one of the inputs of the phase demodulator included in the frequency-controlled loop There is a cable between the broadband AND newly introduced narrowband amplifiers of the interme- diate frequency. I