SU29875A1 - Purity Transformation Method - Google Patents

Description

A method of frequency transformation in any ratio is proposed. The essence of the invention is that an oscillating circuit tuned to a frequency lower than the oscillator frequency is connected with a rectifier to a transformable frequency generator, the rectifier's characteristic having a positive current derivative.

In FIG. 1 is a diagram of an apparatus for implementing .npe yia method; FIG. 2 scheme for the regeneration of multiple circuits.

The proposed method is based on a physical phenomenon called by the author of transgeneration (see his article on transgeneration in the journal T. and T. b. P. 38).

The transgeneration phenomenon can be observed, for example, using the circuit of FIG. 1, where G is an alternator, is a strongly-associated rectifier circuit with a rectifier rf of any system (cristaplich detector, cathode lamp). After some adjustment of the reaction of the rectifier circuit, an alternating current may arise on the oscillator circuit L, C with a period that is arbitrarily different from the generator period G.

(164)

This scheme is proposed to be used to implement the method of frequency transformation. The oscillatory circuit L, C is tuned to a frequency lower than the frequency of the generator. Detector d should have the best possible rectifying effect, and its characteristic should have a positive derivative of the voltage with respect to current.

Using transgeneration, it is possible to regenerate several oscillatory circuits tuned to different frequencies with one primary regenerator G. For example, in the scheme of FIG. 2, not only the high-frequency circuits can regenerate, but also the Lt Ct circuit, switched on behind the rectifier d and tuned to the lower frequency.

With the corresponding mode of high-frequency circuits, it is possible to transregenerate any low-frequency circuit, in particular, a relaxation circuit, connected to the place of the parallel Thomson circuit Lt O, namely: 1) a sequential Thomson circuit; 2) a circuit composed of capacitance and resistance; 3) contour composed of self-induction and resistance.

By adjusting the mode of the high-frequency circuits (for example, changing the self-induction LI, LS or capacitance Cj in Fig. 2), the falling characteristic of the primary regenerator can be transformed through the corresponding transgeneration device for each of the system circuits into such a falling characteristic that is necessary to regenerate this circuit .

The method can be applied to a radio receiver for simultaneous regeneration at high and low frequency.

Subject matter.

Claims (4)

1. The method of frequency transformation in any ratio, different the fact that an oscillating circuit, tuned to a frequency lower than the generator frequency, is connected through a rectifier to a transformable frequency generator. The characteristic of the rectifier has a positive derivative of the voltage with respect to the current. 2. A method according to claim 1, characterized in that. a relaxation circuit is used as an oscillatory circuit. 3. Application of the method according to claims 1, 2 for the simultaneous transformation of several frequencies. 4. Application of the method according to claims 1-3 to radio reception for simultaneous regeneration at high and low frequency.  J