SU1172062A1 - Coherent receiver of phase-shift keyed signals - Google Patents

Abstract

A COHERENT SIGNAL RECOVER FOR PHASE TELEGRAPHY containing the first controlled generator, successively connected first mixture, delay line and second mixer, sequentially connected phase shifter, third mixer, integrator and threshold unit whose output is connected to the second input of the second mixer j and the output of the first the controlled oscillator is connected to the first input of the first mixer, the second input of which is the input of the receiver, the output of which is the output of the threshold unit, distinguished by o, in order to expand the frequency range, a serially connected frequency detector and a first low pass filter and a serially connected phase detector, a second low pass filter and a second controlled oscillator, whose output is connected to the input of the phase rotator and to the first input of the phase detector, are entered, the second input which is connected to the output of the second mixer and to the input of the chute detector, the output of the first low-pass filter is connected to the terminal of the first controlled oscillator, and the output of the first mixer is Connected to the second input of the third mixer.

Description

1 The invention relates to radio engineering and can be used in communication and control systems. The purpose of the invention is to expand the frequency range. The drawing shows a structural electrical circuit of the device. The coherent receiver of phase telegraphy signals contains the first mixer 1, the delay line 2, the second mixer 3, the first controlled oscillator 4, the phase shifter 5, the third mixer 6, the integrator 7, the threshold unit 8, the frequency detector 9, the phase detector 10, the first filter 11 the low pass, the second low pass filter 12, and the second controlled oscillator 13. The device operates as follows. The received signal is fed to the input of the first mixer 1 and is mixed with the signal of the first controlled oscillator 4, resulting in a signal of a constant intermediate frequency, which the frequency detector 9 is tuned to. This signal is delayed in the delay line 2 for a time equal to the duration of the information signal symbol, and then goes to the input of the second mixer 3, the second input of which is connected, to the output of the threshold unit 8. From the output of the second mixer 3, the harmonic demodulated signal is fed to the input of the frequency component a vector, at the output of which a frequency error signal is generated. This signal is smoothed by the first low pass filter 11 and is applied to input 62. 2 of the first controlled oscillator 4. The harmonic demodulated signal from the output of the second mixer 3 is also fed to the input of the phase detector 10, the reference input of which is connected to the output of the second controlled oscillator 13, to the input of which the smoothing signal is output from the second 12 filter of the lower frequencies phase detector 10. This phase synchronization ring forms a coherent reference signal for extracting information. This signal is fed through the phase shifter 5 to the first input of the third mixer 6, the second input of which is connected to the output of the first mixer 1, from which a signal with information in the form of phase telegraphy and a constant intermediate frequency is supplied regardless of the frequency fluctuations of the signal at the input. From the output of the third mixer 6, the generated video signal is fed to the integrator 7, where voltage is accumulated, which is compared with the threshold in the threshold unit 8, which determines the value of the transmitted bit (1 or 0). Such a construction of the receiver allows to expand its frequency range by increasing the capture band by (K + 1) times, where K is the gain of the frequency tracking ring without decreasing the noise immunity, because in this design the frequency and phase-out tracking channels do not have mutual influence on their dynamic characteristics.

Claims (1)

A coherent phase telephony signal receiver comprising a first controlled oscillator, a first mixer connected in series, a delay line and a second mixer, a phase shifter connected in series, a third mixer, an integrator and a threshold unit, the output of which is connected to the second input of the second mixer, and the output of the first controlled generator is connected to the first input of the first mixer, the second input of which is the input of the receiver, the output of which is the output of the threshold block, characterized in that, with To expand the frequency range, a series-connected frequency detector and a first low-pass filter and a series-connected phase detector, a second low-pass filter and a second controlled generator, the output of which is connected to the input of the phase shifter and to the first input of the phase detector, the second input of which is connected to the output, are introduced Of the second mixer and with the input of the frequency detector, the output of the first low-pass filter is connected to the input of the first controlled generator, and the output of the first mixer is connected to the second input of the third mixer. SU.,. 1172062 t 1 1172062 2