SU1201993A1 - A.c.-to-d.c.converter - Google Patents

Abstract

AC INverter to DC, contains a single-phase transformer, the primary winding of which forms the input terminals, and the secondary is connected to the main bridge rectifier, the first DC output of which forms one output terminal, and the second output is connected to the filter choke. and a filter capacitor, characterized in that, in order to increase the efficiency, an additional bridge rectifier and a non-linear transformer are introduced into it, with one DC output of the additional rectifier, named after the first, the main rectifier, connected to the free the output of the throttles, and another output of the direct current additional rectifier forms another output output, the second output of the direct current of the main rectifier is connected to one output of the filter capacitor, the primary circuit of the nonlinear tra An unformator (L is connected between another terminal, the filter capacitor and one output high water, and the secondary winding is connected to the AC input of an additional bridge rectifier.

Description

The invention relates to electrical engineering and is intended for use in automation devices, telemechanics and computer technology as a DC power source with a higher efficiency. The purpose of the invention is to increase efficiency. The drawing shows a schematic diagram of the converter. The converter contains a single-phase transformer I, the primary winding 2 of which forms input views for connecting an AC network. The secondary winding 3 is connected to the main bridge rectifier 4. The first DC output of the rectifier 4 forms one output pin for connecting the load 5, and the second pin is connected to the choke 6 and the capacitor 7 of the filter. The primary winding 8 of the non-linear transformer 9 is connected between the output of the capacitor 7 and the output output, and the secondary winding 10 is connected to the AC input of the additional bridge rectifier 11. One of the DC outputs of the rectifier 11 is connected to the choke 6, and the other DC output current forms the output terminal for connecting the load 5. The device operates as follows. When the primary winding 2 of the transformer 1 is connected to an alternating current source, the output of the rectifier 4 is a current containing a constant and an alternating component. The constant component through the filter choke 6 and the rectifier 11 supplies the load 5, the variable component of the double frequency is applied to the series-connected capacitor 7 and the primary winding 8 of the transformer 9, forming a ferro-resonant oscillating circuit operating in the voltage stabilization mode on the non-linear transformer 9. The secondary winding 10 of the nonlinear transformer 9 feeds the input of the bridge rectifier 11. As a result, two voltages are added to the load 5: from rectifier 4 and rectifier 11, which contributes to output voltage ovification and quality improvement. In addition, the output voltage ripple level is independent of load variation: with an increase in power consumption, the constant and variable component of the output current of the rectifier increase. With this, the consumed current of the ferroresonant oscillatory circuit increases, due to which the amplitude of the pulsations in the load circuit remains unchanged.

Claims (1)

A AC to DC converter containing a single-phase transformer, the primary winding of which forms the input terminals, and the secondary is connected to the main bridge rectifier, the first DC terminal of which forms one output terminal, and the second terminal is connected to the filter reactor, and a filter capacitor, characterized in that, in order to increase the efficiency, an additional bridge rectifier and a nonlinear transformer are introduced into it, while one DC output of the additional rectifier of the same name with the output terminal of the main rectifier, connected to the free terminal of the inductor, and the other DC terminal of the additional rectifier forms a different output OUTPUT, the second DC terminal of the main rectifier is connected to one terminal of the filter capacitor, the primary winding of the nonlinear transformer is connected between the other terminal of the filter capacitor and one output terminal and the secondary winding is connected to the AC input of an additional bridge rectifier. g SO with Od>