SU42166A1 - Device for synchronous reception - Google Patents

Description

In some cases, it is necessary to simultaneously receive the same station at two or more receivers more or less distant from each other. To enable fast tuning of the receiver wave, their control should be concentrated in any one point. This can be accomplished by conventional methods of synchronous rotation at a distance.

In this case, all controlled receivers must have exactly the same graduations, which causes obvious practical difficulties. The device proposed here is designed to avoid these difficulties. The principle of its operation consists in using receivers operating according to the frequency conversion method (super or infraredine), and the auxiliary frequency oscillations necessary for such conversion are fed to all receivers from one common source, which ensures an absolutely exact coincidence of the intermediate frequency occurring in all receivers. If the intermediate frequency amplifiers in all receivers are tuned to the same frequency, the exact implementation of which is not difficult, the reception of the same station is ensured. When taking on the method of lowering

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frequency (superheterodyne), it is necessary to ensure the adjustment of high-frequency circuits, which can be carried out using conventional methods of synchronous rotation at a distance, taking into account the small setting of the high-frequency amplifier. It is preferable, however, to apply the method of increasing the frequency (infra dine), since in this case the high frequency tuning may be completely absent.

As for the channeling of the auxiliary frequency oscillations, either a special construction with low attenuation for high frequencies over a wire or cable can be applied here, or a radio transmission. In the latter case, it is rational to broadcast in a different frequency range, modulating it with the required auxiliary frequency. To reduce interference to other receivers, this broadcast can occur on ultra-short waves with a limited range and using directional emitting systems.

In the case of transmission by wire or cable or radio transmission on ultra-short waves, it may be necessary to include repeater stations to cover the required distance between receivers.

The accompanying drawing is a block diagram explaining the essence of the invention.

Reception is conducted at receivers / and 5 that are remote for significant distances, equipped with antennas AI and A. Antennas, of course, can be replaced with frames. Each receiver contains an aperiodic detector, an intermediate frequency amplifier, a low frequency amplifier, and a telephone. The intermediate frequency amplifier is assumed to be tuned to a frequency higher than the highest frequency received. This makes it possible to have a satisfactory selectivity with an aperiodic detector.

For the generated oscillations of the auxiliary frequency, a local oscillator 2 is provided, which directly supplies the receiver / and, on the other hand, the amplifier 5 and the modulator. The latter modulates the oscillations of the generator 5, radiating with the help of the antenna A.. In the second reception, the item, the oscillations emitted by the antenna A ,, are perceived at antenna A. The connected receiver receives a transmission bandwidth transmission determined by the auxiliary frequency of the local oscillator. After detecting

At the output of the receiver, the auxiliary frequency of the local oscillator is amplified by amplifier 7. The amplifier 7 must (without tuning) amplify the entire frequency range of the local oscillator. With infrared reception, this is facilitated by the fact that the frequency range of the local oscillator is very small. The amplified oscillations of the auxiliary frequency, acting on the detector of the receiver 8, create (when x with the station) the same intermediate frequency as in the receiver /. All control of both receivers is reduced to controlling one local oscillator 2 tuning knob.

In order to use the same transmitter for the purpose of communication between both points, it is possible to modulate the same audio frequency generator from microphone M via amplifier 5 and at the second point amplifier 10 and telephone T,

The subject matter of the invention.

A device for simultaneous reception at receivers remote from each other, characterized by the use of superheterodyne receivers with a common local oscillator for all receivers.