SU130543A1 - Method of simultaneous reception with double frequency conversion - Google Patents

Description

Known methods of synchronous reception with double frequency conversion and separation of the carrier frequency of the useful signal using narrowband filters.

The disadvantages of such methods are the presence of additional reception channels, which reduces the noise immunity of the receiving device and creates difficulties for stable narrowband allocation of the carrier frequency.

In the described method, these disadvantages are eliminated by converting the received signal in the first converters to low-frequency signals extracted by the filters and converted to a low intermediate frequency at which the carrier frequency of the signal and detection is extracted.

To clarify the described method, a block diagram of a synchronous receiver is shown.

The received signal from the output of preselector 1 is fed to the first transducers 2 and 5, which are supplied with voltage from the first local oscillator 4, and the phase supplied to the transducer 3 is shifted by means of the phase shifter 5 by 90 °. The received signals are converted by means of converters 2 and 3 into low-frequency signals, which are extracted with low-pass filters 5 and 7, providing the required selectivity at the neighboring station. The signals allocated by the filters with the help of balanced modulators 8 and 9, which are fed with a signal from the second local oscillator 10 and the adder 11, are converted into a low intermediate frequency.

Similar to what occurred during the first conversion, the signal supplied to the balanced modulator 9 is shifted by 90 ° using the phase shifter 12. The signal received after the second conversion is amplified by the intermediate frequency amplifier 13 and fed to the synchronous detector 14.

Carrier frequency isolation for a synchronous detector 14 is produced by a narrowband intermediate frequency amplifier 15. A low frequency voltage obtained from a synchronous detector 14 operating at a low intermediate frequency is amplified by an amplifier 16 and fed to an output of a receiving device.

To save the tuning of the carrier frequency of the signal when it is allocated by the narrowband amplifier V5 and to reduce the bandwidth of the filters B and 7, the receiver can use a frequency auto-tuning system 1 consisting of a sverh local oscillator 17 and a discriminator 18, the input of which is fed to the carrier frequency of the useful signal with amplifier 15,

The receiver provides high signal selectivity even with ordinary detection, since low-pass filters 6 and 7 can have a high slope of frequency response.

The use of synchronous detection allows the amplitude modulation of a signal from a partially suppressed signal to be used: it and get a gain from an energy point of view.

Subject invention

A dual frequency conversion synchronous reception method. Characterized in that, in order to eliminate additional reception channels and provide a stable narrowband carrier allocation, the received signal is converted in the first converters into low frequency signals that are separated by low pass filters and converted into a low intermediate one. the frequency at which carrier selection is made for the synchronous detector and the synchronous detection itself.