SU45325A1 - Radio - Google Patents

Description

The entire receiving device, designed to eliminate the harmful effects of atmospheric noise, must in one form or another use any distinction that exists between the useful signal and the disturbance. In the proposed radio receiver, two such phenomena are used at once. D} The first is that the frequency spectrum of the telegraph signal is concentrated in a very narrow frequency interval, whereas the atmospheric disturbance has a frequency spectrum that is not limited in width.

The second difference is the fact that the duration of the radiotelegraph point, even at high speeds, is longer than the duration of the effect of atmospheric interference.

In the electrical circuit of the proposed radio receiver shown in the drawing, numeral 7 denotes a high-frequency amplifier, 2 liters 17 — intermediate-frequency amplifiers, which are somewhat upset with each other; 3 and 18 are two rectifiers operating in anode detection mode. Lamps 7 and 2 / are telegraphic pulse voltage amplifiers, with the grid bias voltage being zero. The lamp 10 has a grid bias consisting of a negative voltage of the battery 28 and a positive voltage of the anode thread

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lamps 25. The voltage of the battery 26 is such that normally the lamp 25 is locked and, therefore, the bias voltage on the lamp 10 will be the result of the negative voltage of the battery 28 and all the positive anode voltage. applied to the resistance 27. The voltage of the battery 28 needs to be taken from the more anode voltage of the lamp 25 so that the lamp 10 is locked. The anode circuit of the lamp 10 includes a resistor 12, which is bridged by a capacitor 11. Next, there is a conventional output stage 75 with a zero voltage across the grid and a relay connected to the anode circuit.

When the proposed radio receiver is operating, to receive only the desired signal (without the presence of interference), the first channel must be tuned, consisting of the high-frequency amplifier 7 and the intermediate-frequency amplifier 2, to the frequency of the received signal.

The second channel, consisting of amplifiers 7 and 77, must be upset about the frequency of the received signal so that the voltage generated by the signal at the output of this channel is practically zero. During reception of the signal from the rectifier 3 to the grid of the lamp 7, a negative offset will be applied, which, if sufficiently large, will be blocked.

ampu 7. This will cause an increase in the power of the lamp grid W, and therefore its unlocking. The latter in turn will cause a negative voltage on the grid of the lamp 75 and the operation of relay 16. The effect of atmospheric interference only (in the absence of a signal) proceeds as follows. Interference, “the consequence of its spectral fuzziness, will cause voltages at the output of both channels. Negative voltage will be applied to the grid of the lamp 21, and a positive to the grid of the lamp 25, which will lead to unlocking it and a sharp decrease in the voltage between the anode and the thread (resistance 27 is high). This will lead to a sharp increase.

negative voltage on the grid of an already locked lamp 10,

Thus, despite the fact that the first channel applies a positive voltage to the grid-thread of the lamp 10, it still remains locked due to a sharp increase in the negative voltage across it. Consequently, the effect of interference on the relay is zero. The voltage of the bias battery 26 must be such that a disturbance less than a certain value does not unlock the lamp 25.

If atmospheric disturbance occurs

during the action of the signal, the lamp 10 should be sharply locked and, consequently, the signal split up during the interference. To destroy this crushing, the resistance / 2 is shunted by a capacitor 11, the capacity of which is such that when the lamp 10 is locked, the voltage on it drops not instantaneously, but over a period of slightly longer duration of atmospheric noise (4. s). Consequently, despite the fact that the interference during the signal will close the lamp 10 for a short period of time, the relay 16 cannot feel this because of the inertia of the system included in the anode circuit of the lamp 10. The capacitor capacitance / 7 and the resistance value 72 should be so that the charge of the capacitor when the lamp 10 is unlocked occurs very quickly (for example, 1.10 sec.), and the discharge when the lamp 10 is locked is rather slow (several milliseconds), looking at the duration of atmospheric noise .;

Thus, under the influence of atmospheric noise, the duration of which is shorter than the duration of the radio telegraph point, the relay should work normally, but only the dots and dashes will be somewhat lengthened. The bandwidth of the frequencies of both channels should not be less than some values, so as not to increase the time of presence of oscillations caused by interference at the output of the channels .;

The advantage of this system, for example, over the auto-parametric filter trom is that atmospheric interference, regardless of their strength and speed following each other, will not cause unnecessary marks on the tape, while splitting the signal is destroyed by a special device.

The subject matter of the invention.

A radio receiver, characterized by the use of a second channel for the purpose of the first pirani during the action of not mechs, followed by switching on a device that destroys the fragmentation of a signal using a capacitor 77 and resistance 12 connected to the anode circuit.