SU794732A2 - Radio receiving device for receiving signals with floating carrier frequency - Google Patents

Description

one

This invention relates to radio and may be used when receiving signals with a "floating carrier frequency."

According to the main author. St. No. 571916, a radio receiving device for receiving signals with a "floating carrier frequency", comprising a broadband amplifier connected in series, a messenger, a narrowband intermediate frequency amplifier, a detector and a synchronization unit, as well as a floating frequency controlled local oscillator, the output of which is connected to the second mixer input , and the frequency control input - with the output of the synchronization unit, an additional narrowband frequency amplifier, connected via a delay line with an additional amplitude a detector whose output is connected to the gain control input of a narrowband adjustable intermediate frequency amplifier; the input of an additional narrow-band frequency amplifier is connected to the output of mixer 1.

However, the known device has low noise immunity when receiving signals with one sideband.

The purpose of the invention is to increase the noise immunity when receiving signals with one sideband.

For this purpose, in a radio receiver for receiving signals with a "floating carrier frequency", comprising a broadband amplifier connected in series, a mixer, a narrowband adjustable intermediate frequency amplifier, a detector and a synchronization unit, and a floating frequency controlled local oscillator, the output of which is connected to the second input of the mixer and the frequency control input is with the output of the synchronization unit, an additional narrow-band intermediate frequency amplifier connected via a delay line with an additional A secondary detector, the output of which is connected to the gain control input of a narrowband adjustable intermediate frequency amplifier, the input of an additional narrowband intermediate frequency amplifier is connected to the output of the mixer, another carrier generator is connected to another detector input, between the output of the narrowband adjustable intermediate frequency amplifier and the additional terminal of the controlled heterodyne with "A floating frequency included in series is a reference signal filter, a reference signal amplifier, an additional mixer, to another input of which a reference generator is connected, a second additional mixer, another input of which is connected to the output of a carrier oscillator, a frequency detector, a low-pass filter and a frequency regulator.

The drawing shows a structural electrical circuit of the proposed device.

Radio receiver device for iriem signals c. The “floating carrier frequency” contains a wideband amplifier 1, a mixer 2, a narrowband adjustable amplifier 3 at an intermediate frequency, a detector 4, a synchronization unit 5, a floating frequency controlled oscillator 6, a pre-amp narrowband intermediate frequency amplifier 7, a delay line 8, an additional amplitude detector 9 , carrier carrier 10, filter-11 reference signal, reference signal amplifier 12, nerve additional mixer 13, reference generator 14, second additional mixer 15, frequency detector 16, 17 n filter other frequencies, frequency controller 18 and decoding unit 19.

The device works as follows.

Managed local oscillator 6 with mixer

2 compresses the useful signal over the spectrum and transfers it in frequency to the passband of the narrowband adjustable amplifier 3, the tuning frequency of which is higher than the tuning frequency of the additional narrowband amplifier 7. The tuning frequency of the amplifier 7 is chosen so that the compressed signal

did not fall into the passband.

The time constant of the delay line 8 is determined by the frequency difference between the tuning of the narrowband adjustable amplifier 3 and the additional narrowband amplifier 7, as well as the rate of change of the carrier from the additional modulation.

The protection against frequency-focused interference in the device is as follows.

Spectrum-centered interference to the output of a narrow-band adjustable amplifier 3 and an additional narrow-band amplifier 7 will be pulsed in synchronous operation of a receiving device with a useful signal. Initially, such an obstacle is coupled at the output of the additional narrowband amplifier 7, then it is delayed by a delay line 8 and fed to an amplitude detector 9.

The voltage envelope of this interference from the output of the amplitude detector 9 enters the control circuit of the transmission coefficient of the narrowband adjustable amplifier

3 intermediate frequency at the moment when

the bandwidth of this amplifier falls concentrated on the spectrum interference. Meanwhile, the transmission coefficient of the narrowband variable amplifier 3 decreases dramatically. Thus, the amplifier 3 intermediate frequency, providing

The main amplification of the desired signal is protected from concentrated interference at precisely the time when it has the most disturbing effect, i.e., it coincides with the instantaneous spectrum of the useful signal and falls into the passband of the receiver.

The introduction of the additional nodes listed above makes it possible to increase the noise immunity of the circuit with respect to the fluctuating noise and significantly improve the use of transmitter power. The latter circumstance is achieved due to the possibility of such a device receiving signals with a "floating carrier with one sideband of amplitude modulation information message.

With amplitude modulation of the "floating carrier information signal and one sideband from this modulation in synchronous operation mode of the receiving device with a blank signal (the synchronous mode is specified by synchronization unit 5) at the output of mixer 2, the useful signal will be an amplitude modulated signal with one sidebar. This signal is amplified by a narrowband adjustable amplifier 3. A filter And connected to the output of this amplifier selects a reference signal, which is either the remainder of the suppressed carrier or a special nilot signal.

The selected reference signal through the amplifier 12 is fed to the first additional mixer 13, to another input of which a signal is received from the reference generator 14. The voltage from the output of the first additional mixer 13 together with the voltage of the carrier generator 10 is fed to the second additional mixer 15. The voltage from the output This mixer is fed to a frequency detector 16, which produces a control voltage. From the output of the Frequency Detector 16, the control voltage flows through a low-pass filter 17, which serves to smooth the ripple of this voltage, to frequency control 18. Frequency control 18 adjusts the average frequency of the controlled local oscillator 6. The frequency of the reference oscillator 14 should be chosen relatively low, since it is possible to achieve a very high accuracy of tuning the frequency detector 16 and more: the values of the slope of its characteristics.

Claims (1)

1. USSR author's certificate No. 571916, cl. H 04B 1/10, 1975 (prototype).