SU17401A1 - Method of generating electrical oscillations - Google Patents

Description

The present invention is a method of generating electrical oscillations by changing one or more of the electrical parameters of the oscillating system.

If in an oscillatory system consisting of self-induction and capacitance, one or several parameters are periodically changed, then at a certain ratio between the period of the parameter change and the frequency of the circuit, on one side, it is related to the change of the parameter value and the effective attenuation coefficient of the circuit. on the other hand, non-damped electrical oscillations occur in the system.,,

According to the proposed method, oscillations in such. Some kind of systems are obtained without an outside source of a variable EMF, if we apply the reverse effect of the oscillating system on the TOK circuit, which changes one of the parameters of the oscillatory system, namely: system oscillations, properly amplified, are supplied to the frequency transformer and frequency-transformed oscillations any of system parameters.

The drawing shows devices for generating electrical oscillations, made on the proposal. In this case, the variable parameter of the oscillatory system is, in this case, the self-induction of the oscillatory circuit consisting of the capacitance 1, self-induction 2 and self-induction of two identical coils 3 and .3-j wound on two identical transformers I and II with cores made of magnetic material. The parameter being periodically changed by

value, here. serves self-induction of windings 3 connected in opposite directions, and З. Periodic change of self-induction is carried out due to current passing through identical windings 4 and 4, included in the output circuit of the frequency transformer. Winding 5i and 5-,

connected through a rheostat 9 with a current source 10 serve to establish the necessary bias, with

self-induction coils bp bb, b are introduced to protect the magnetizing windings H from alternating current. According to the invention, the oscillatory system is connected by a current coupler acting on the self-induction of the system (coils 4, 4-) through the frequency transformer II, which at the same time is a source of energy for everything. device (amplifier). The latter may be, for example, a tube frequency doubler, the input circuit of which is connected via

coil 111 with oscillatory system, and the output circuit (current circuit doubled /. „V.

frequency) through a coil with coils 4i and 42. It is easy to see that such a system can be in a self-exciting state, if the conditions mentioned above are met, namely: 1) the rational relationship between the natural frequency of the system and the frequency changing one of system current parameters and 2) a certain ratio between the relative magnitude of the change — the system parameter and the effective damping factor. To achieve the latter condition, it is advisable to apply the principle of regeneration. For this, the oscillatory system is included in the circuit of the electron tube 7, according to a conventional circuit, with feedback. The feedback coil is denoted by 8. As for the first condition of the rational relationship between the natural frequency of the system and the frequency of the variable current, in the presence of an opposite effect through the frequency transformer, this condition is automatically satisfied.

This reverse effect consists in changing the parameter, and not in introducing an additional, emf into the oscillatory system, as is the case with ordinary feedback.

The amplification of currents of the corresponding frequency can take place both before the frequency transformer and after it. Instead of directly transforming the frequency, the latter can be carried out using the principle of heterodyning, i.e. overlapping the frequency of the auxiliary oscillator and straightening with the subsequent selection of the necessary combination frequency. Similarly, schemes that combine amplification with the principle of regeneration can be applied.

In view of the fact that the selection of conditions for self-excitation of a system that is substantially related to the attenuation of the system and the value of the relative parameter change may, under certain conditions, cause some difficulties, it may be practical in some cases to use an auxiliary low-power generator as a master. The latter can be especially valuable if the oscillator is stabilized by a piezocrystal as such a generator, since in this case it is possible to impose oscillations that are frequency stable.

. In the drawing, such a master oscillator is designated 15. This oscillator can act either on an oscillating system or on a circuit that changes the parameter of a current system. According to one or another impact, the generator should have one or another frequency.

t The proposed generation method can also be implemented without the use of electron tubes. So, for example, ionic devices (mercury rectifiers, etc.) can be used.

The subject of the patent.

1. A method of generating electrical oscillations by changing one or more of the electrical parameters of an oscillating system, characterized in that the oscillatory system is connected to a circuit that changes the parameter of a current system through a frequency transformer, and current amplifiers of the corresponding frequency can be switched on as before a frequency transformer, so after him.

2. In the method described in paragraph 1 of the method, for frequency transformation, a tube frequency multiplier.

3. In the method described in paragraph 1, the implementation of frequency transformation by superposition (for example, in an amplifier associated with an oscillatory system) on the oscillations of the system-oscillations of the auxiliary generator.

4. In the method described in paragraph 1, the principle of regeneration is used to regulate the damping factor of the system.

5. With the method described in p. 1 and 2, the use of low-power, master frequency generator.