SU30727A1 - The method of transforming the frequency of alternating currents - Google Patents

Description

The proposed method for transforming the frequency of alternating currents is based on the use of oscillatory systems, in which the parameters defining the natural frequency of the oscillations are functions of the intrinsic current.

If we act on the oscillating system of this kind with a frequency transformable frequency, then, under certain certain conditions, electrical oscillations arise in the system not only of this frequency, but also other oscillations of a lower frequency, which are rational with the first one.

Let there be an oscillatory system consisting of self-induction and capacitance, and the chain of self-induction of this system depends on the magnitude of the current passing through it.

The dependence of the value of self-induction on current is expressed, for example, in the form: .o () or Li Lui - {- Lumi. ()

The equation of electromotive forces in such a system will be:

G A.) + .t. (2)

If you pick up Z, and C so that the condition is met

(

continue to make losses in. the system was vanishingly small (/ 0), then in this case equation (3) will be satisfied identically with

i / sin y 2

those. half frequency oscillations occur in the system. It is easy to see that with another form of dependence (1) and with a correspondingly changed condition: (3) oscillations of other frequencies may also occur. So, in the presence of a cubic term in the formula (1) will have

frequency oscillation site, etc.

The drawing shows a diagram of a device for frequency transformation according to the proposed method.

The oscillatory system consists of a capacitance 3 and self-induction J to 2. Self-induction wound on the core / of the magnetic material of the self-induction coil 2 is a parameter dependent on current. The current source of the frequency to be transformed is connected to the circuit through a self-induction coil 7.

The principle of regeneration is applied to compensate for losses in the system. For this, the oscillatory system is included in the circuit of the electron tube 6 according to the feedback scheme. The feedback coil is self-induction 5.

To obtain the desired dependency, i.e. A certain position of the operating point on the magnetization curve, serves as a magnetizing winding 8, connected through a resistor Yu into a circuit of a 7A DC power supply. Reactive coils 9, 9 are designed to protect the magnetizing circuit from high frequency currents.

There are various modifications of this scheme. For example, the role of a variable parameter can be played by the capacitance of the circuit, or the capacity and self-induction simultaneously. It is equally possible for this purpose to shunt all or part of the self-induction of the excited circuit by an electronic or ionic device (for example, a two- or three-electron lamp) or, in general, by a conductor whose resistance depends on the current passing through it.

As mentioned above, for this method it is necessary to apply the regeneration principle to compensate for system losses.

In that case, if the power consumed by the circuit is negative, in other words, if the system is in a state of self-excitation, then there is a phenomenon similar to the so-called “frequency hobby,” namely, if the system is acted on by a. d. with a frequency slightly different from that of the yes; discrete values, frequencies that cause oscillations in the system, according to the described method, there will be a weakening or complete destruction of the natural oscillations of the system. In other words, if, for example, the conditions are chosen in such a way that it is external. d. co frequency causes

frequency fluctuation system then external d. Frequencies w + Yes, extinguish the natural oscillations of the system. This phenomenon is formally similar to ordinary

Frequency hopping, but significantly different in that the phenomenon occurs at significantly different frequencies, whereas the usual frequency hobbing phenomenon has lyiecTo at almost identical frequency values.

The subject matter of the invention.

Claims (5)

1. The method of transforming the frequency of alternating currents, characterized in that the currents of the transformed frequency affect the oscillatory system tuned to some lower frequency, which is in a rational relation to the frequency tpaHC |) opMHpyeMOro current, in which system one or both of the parameters is defined Frequencies are functions of the current of an oscillating system, and losses in the system are compensated for by regeneration. 2. A variation of the method according to claim 1, characterized in that one or both parameters determining the frequency of the excited oscillatory system are current functions of the transformable frequency circuit itself. 3.When the method of PP 1, 2 use as a transformable oscillation of oscillations, stabilized in frequency. 4. Acceptance of the method according to clauses 1, 2 using as a frequency-determining parameter a parameter depending on the current of the self-induction coil wound on a core of magnetic material, the core being magnetized to the desired value by a direct current. 5. Acceptance of the method of claim 1, consisting in connecting in parallel a part of the self-induction of the conductor secondary circuit, the resistance of which depends on the current passing through it. E to the author's testimony of L. P., Mandelstam and N. D. Papaleksy No. 30727 10 | - | j | -JL4JU11 9