SU809452A1 - Ac-to-dc converter - Google Patents

Description

(54) RESET to DC CONVERTER

Claims (3)

The invention relates to converter technology and may not be used in various power sources of both low and high power. The known AC-DC converter is constant, which contains a three-phase network transformer, the windings of which are connected according to a star circuit, a group of semiconductor valves connected to secondary circuits, and a compensation transformer whose secondary winding is connected in series with the load. However, this converter, like the advanced one, which uses a parallel-connected capacitor 2j, does not satisfy the requirements for the level of pulsations arising in the conversion process. Also known is an AC-to-DC converter, a network transformer, the secondary winding of which is connected to the diagonal of an alternating current of the rectifying bridge, and a compensation transformer, whose secondary winding is connected in series between one DC output of the bridge and one of the output terminals , and the primary winding is connected with the primary winding of the network transformer РЗ. However, this converter has a large amplitude of output voltage ripple. The purpose of the invention is to reduce the pulsed rectifying voltage. The goal is achieved by the fact that the primary windings of the network and compensation transformer are connected in series through the additionally introduced rectifying bridge. The drawing shows a basic electrical circuit of the proposed device. : The converter contains primary windings 1-3 of a three-phase transformer connected through additional valves 4-9 to the primary winding 10 of the compensation transformer. 11. The secondary windings 12-14 of the mains transformer are connected through the main valves 15-20 to the terminals 21 and 22 of the secondary winding 23 of the compensation transformer 11. The load resistance is connected to the terminals 22 and 24. The AC converter operates as follows. The rectifier device is connected to the A, B, and C ac networks. The rectified voltage generated at the terminals 21 and 24 is supplied to the object fed by the rectified current through the secondary winding 23 of the compensation transformer 11. Thus, the load voltage of the rectifier is connected to the terminals 22 and 24. When the device is connected to a three-phase AC network voltage straightening process is carried out both in the secondary and in the primary circuits. Taking into account the similarity of the construction of the schemes of the primary and secondary circuits of the rectified device, it is possible to focus on the similarity of the envelopes of the rectified current on the primary and secondary sides. At the same time, the unbranched areas of the primary and secondary circuits of the rectifier 1, strings are covered by the transformer coupling, due to which the pulsation voltage is transformed from the primary circuits to the unbranched part of the secondary circuits. If the winding 10 of the compensation transformer 11 is turned on in such a way that the ripple voltage applied to the primary current of the primary circuits is in antiphase with the ripple voltage of the secondary circuits, then the output voltage of the pulsations is compensated for at the output terminals 22 and 24 of the rectifier. Taking into account the real values of the inductances of the windings of the transformers and the reactive components of the load resistance, complete compensation of the ripple of the rectified voltage is not achieved. However, the application of the proposed converter makes it possible to significantly improve the voltage product without using electric filters at the output of the rectifier device. Claims of the Inverter Current-to-Current Converter Containing a Mains Transformer, the secondary winding of which is connected to the KiinpHMH bridge bridge alternating current, and a xn4 sensational transformer, the secondary winding of which is connected in series between the single DC output of the bridge on one of the output part and the primary of which the primary winding is connected in series between the single DC output of the bridge on one of the output part and the primary of the main winding is connected in series between the single DC output of the bridge Associated with the primary winding of the mains transformer, characterized in that, in order to reduce the ripple of the rectified voltage, the primary windings of the mains and compensation A transformer is connected in series through the additionally introduced rectifier bridge. Sources of information taken into account during the examination 1. USSR author's certificate No. 161818, cl. H 02 M 1/14, 1962. 2. USSR author's certificate number 243100, cl. H 02 M 1/14, 1966. 3. The patent of Germany 880352, cl. 21 d l2 / 04, 1963.