SU1644117A1 - Current converter - Google Patents

Abstract

The invention relates to electronics. The aim of the invention is to enhance the functionality of the converter. The input current from the power source is distributed in two parallel circuits, one of which includes the first nonlinear element 3 in the form of an inductor and the other nonlinear element 4 in the form of a negative resistance converter 9 with an adjustable coil 12 connected in parallel to its output terminals inductance is about. The second nonlinear element 4 has, in contrast to the first element 3, negative conductivity. The regulation of the output current over a wide range is made by a slight change in the inductance of the adjustable inductance coil 12 The output current of the device does not depend on the frequency of the mains supply and can change phase with respect to the input current, thereby achieving the desired goal. 1 or 0

Description

The invention relates to electrical engineering and can be used in current dividers, power supplies for electronic devices. $

The invention is an extension of functionality.

The drawing shows a schematic diagram of a device.

The device contains two parallel circuits connected to the terminals 1 and 2 for connecting a power source by the extreme terminals, consisting of the first and second nonlinear elements 3 and 4. The input terminals of the first nonlinear 15 element 3 are connected in series with the first pins 5 and 6 for connecting the load. The input terminals of the second nonlinear element 4 are connected in series with the second terminals ~ 20 outputs 7 and 8 for connecting the load. The first non-linear element 3 is made in the form of an inductance coil, and the second non-linear element 4 is made in the form of a negative resistance converter 9, parallel to the input terminals 10 and 11 of which an adjustable inductor 12 is connected.

The device operates as follows. thirty

The input current Ι _Β χ from the power source is distributed between the first and second elements 3 and 4:

u- ^{T T} 5.6 ⁼ Ϋ ^ Τξ ¹¹⁶¹ '''

T ₌ . t

-7.8 y ^ + K · 6 * where Y .. Κ · Υ.η are reactive Conducted ^S ' ^1ζ ·.-1 ^{Five of the} first and second ^w non-linear elements 3 and 4;

K is the conversion coefficient of the negative resistance converter 9, determined by its internal parameters. The negative resistance converter 9 together with the adjustable inductor 12 realize negative inductive conductivity, which allows the output current to be independent of the frequency of the supply network. The regulation of the output current is carried out by changing the magnitude of the inductance of the adjustable inductor 12. The output current can change its Phase with respect to the input, depending on the ratio of the inductances of the inductor 3 and the adjustable inductor 12.

Claims (1)

SUMMARY OF THE INVENTION A current converter comprising two. parallel circuits, connected at their extreme ends with 'terminals for connecting a power source, each of which is made in the form of series-connected non-linear elements and terminals for connecting the load, characterized in that, in order to expand the functionality, the first non-linear element is made in the form of an inductor and the second non-linear element is made in the form of a negative resistance converter, in parallel with the output terminals of which an adjustable inductor is connected, and the input the conclusions of the converter-negative resistance are the conclusions of the second nonlinear element.