SU637941A1 - Generator - Google Patents

Description

The invention relates to radio engineering and can be used in a source of high oscillations of increased reliability. A generator containing the first and second oscillators is known, the output of the first oscillator is connected to the synchronization input of the second autogenerator via the first communication device, and the output of the second oscillator is connected to the synchronization input of the first autogenerator through the second communication device l. However, this generator is characterized by insufficient stability of the output frequency. The purpose of the invention is to increase the stability of the output frequency. To do this, in the proposed generator, each of the communication devices is made in the form of series-connected amplitude calibrator and adder, while the other input of the second and first communication devices are connected to the other inputs of the adders of the first and second communication devices. The drawing shows a structural electrical circuit of the proposed device. The generator contains, respectively, the first and second autogenerators 1 and 2, the output of the first autogenerator 1 is connected to the synchronization input of the second autogenerator 2 via the first communication device 3, and the output of the second autogenerator 2 is connected to the synchronization input of the first autogenerator 1 through the second communication device 4, each of communication devices 3 and 4 contains a series-connected amplitude calibrators 5 and b and adders 7 and 8, while the amplitude outputs are connected to the other inputs of adders 7 and 8 of the first and second communication devices 3 and 4 ibratorov 5 and 6 respectively of the first and second communication devices 4 and 3. The apparatus operates as follows. After switching on the power sources in the first and second autogenerators 1 and 2, non-damping oscillations occur with similar but somewhat different frequencies and amplitudes. Amplitude calibrators 5 and 6 equalize the amplitude; 5l oscillations, as a result, the outputs of adders 7 and 8 receive signals with different frequencies and the same amplitude. With linear

the addition of two oscillations with different frequencies and an o / dinak amplitude of the voan5 kae-x oscillations with a frequency / half a half of the frequency of oscillations.

Likewise, at the outputs of suhashtor 7 and 8 signals are generated with a frequency, passjofi average of the arithmetic frequencies of the first and second aetogens 1 and 2, These signals through the synchronization circuits arrive at the second autogenerators 1 and 3 and ir synchronize, which leads to a floor ™ Nome of the parasitic frequency modulation that occurs with aglplitudish ei ™ identity; Kalvkrathorsev 5 and b o As a result, the 5 device is set to 1-bc1 c. The single frequency is equal to the average frequency of the frequencies G, naraeMi-j r. hesitation

Thanks to receiving his frequency; p iEHoft eredgsh; 1u arctfmygizes kog, 1u chotot oglg, skda kazshatSh, on pKffljcteTcn stability and awn frequency in many roKaKfijFbHOM vessepaTope.

On the basis of the fact that the nature of the deviation of the frequency, the individual generators is subordinate to the distribution of the distribution, it can be considered / that the mathematical expectation of the frequency in a multichannel system is equal to the average frequency of the skin to be reduced to zero theoretically.

L ..,

Thus, in the proposed device, a significant gain in frequency stability is obtained.

The conclusions obtained when considering two-channel systems are also valid for a multichannel system of any number of channels.

Claims (1)

1. Dim Nchenko. Fluctuations in associated generators, Journal of Radio Engineering, 1971, No. 2, p. 54--63