SU61875A1 - Frequency Modulated Oscillation Detector - Google Patents

Description

Existing frequency detector circuits require a prior amplitude limitation, since a frequency detector (for example, a discriminator assembled on a 6x6 lamp) responds to changes in amplitude. By virtue of this, a limiter is introduced into the receiver of the frequency-modulated oscillations, which is an additional stage, which complicates the receiver circuitry.

The proposed frequency-modulated oscillation detector eliminates this drawback and makes it possible to combine the functions of the frequency-modulated oscillation detector and the limiter of the amplitude of these oscillations in one stage.

Two loads are included in the anode circuit of the limiter: one is intended for high-frequency oscillations and depends on (m on the frequency of these oscillations, and the other, from which the rectified voltage is relieved, for oscillations of the modulation frequency.

FIG. 1 and 4 depict the print circuits of the proposed detector, FIG. 2 and 3-explanatory diagrams.

The lamp L is loaded with two resistances g, n g, (fig.). Oscillations are supplied to the input of the lamp L through the LiC circuit, from the output of the previous stage, which is the amplifier of the intermediate frequency of the AMF radio frequency frequency modulated oscillator.

In order to put the lamp J in the grid-limiting mode, a resistance R and a capacitor C are included in the grid circuit. One of the resistances included in the anode circuit of a lamp L. For example, / ,. is the resistance for high frequency, and Zo-resistance for audio frequency. The magnitude of the resistance Z, from the frequency of the input oscillations.

When leading to the detector input frequency-modulated high-frequency oscillations with voltage, and there is a certain threshold, the voltage increases (-high frequency at resistance / i

No. 61875-2 -

ceases n here an amplitude limit is observed. If the frequency of the input oscillations varies within certain limits, then, by virtue of the fact that the value of the opposed Z depends on the frequency, the ionization will also change.

Thus, at 1Denip to the input of a voltage detector exceeding the limiting orog limit, the voltage across the resistivity of Zi varies only with a change in the oscillation frequency.

FIG. Figure 2 shows experimentally removed curves, characteristics of the variation of the constant component of the anode current s depending on the magnitude of the oscillating voltage at the input at three different frequencies (fa, / h). At a fixed frequency of the supplied oscillations, varies if the iodo voltage (, - exceeds the voltage of the threshold and. However, when the frequency of the applied oscillations changes, the magnitude of the constant component) changes quite noticeably.

FIG. Figure 3 shows the curves characterizing the adherence by the constant term 1, the voltage J A.f / on the resistance Zg when the frequency changes in the limits + L. The curves that are removed over time are twice as large as the change in the :: voltage. 2L / ;. the magnitude — the increments of the constant term — and the restraint practically does not change.

The practical scheme of the simplest limiter detector and grid currents of 1 is represented in FIG. 4. In the anode circuit, as a resistance Zi, depending on the frequency, a contour is included that is frustrated with respect to the carrier oscillations. Resistance 2 for the audio frequency includes the active resistance from which the rectified voltage is removed.

The proposed principle can be used in other schemes, for example, in balanced schemes.

The limiter can be quite simply vyyolnep on lamps with direct heat.

Subject and title

A frequency-modulated oscillation detector, characterized in that, using one and the same cascade simultaneously as a frequency-modulated oscillation detector and an amplitude limiter for these oscillations, two loads are included in the anode circuit of the terminator, one of which is a load for high-frequency oscillations and depends on the frequency of these oscillations, and the other, from which the discharge voltage is removed, is the load for the oscillation modulation frequency.

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