SU1415361A2 - Device for controlling three-phase rectifier - Google Patents

Abstract

The invention relates to electrical engineering and can be used to create thyristor converters of alternating current to constant secondary power sources. The purpose of the invention is to increase the coefficient of use of the code windings of a synchronizing transformer and reduce the weight and size.

Description

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In the control unit of the pre-Hopopath, the chains of the successively connected LEDs of the optocoupler 2 and the resistor 3 synchronizers are connected in pairs with each other in pairs and oppositely to the phases of the secondary winding

S1 is synchronized to transformer 1, and the other to the common bus, 1a, the account is only one output volume (the synchronizing transformer's gages reduce its mass and size. 1 ID.

This invention relates to edectro,. The technology and, can be used dd control of thyristor converters of alternating current to constant and is an improvement of the device according to the author. St. No. 1005269.

The purpose of the invention is to increase the utilization rate of the output windings of a clock transformer.

The drawing shows a diagram of the control device of the rectifier.

The device contains a synchronizing transformer 1 to the phases of the secondary winding of which are pairwise oppositely connected in parallel with the inputs of optocouplers 2 of the first group and resistors 3, in parallel with which the inputs of the phase-shifting unit 4 are connected. The outputs of unit 4 are connected to the inputs of the optrons 5 of the second group 5 of both groups are connected in pairs in series and are included either in the control or in the power circuits of the formers of 6 control pulses. The common points of the resistors 3 and the phases of the secondary winding of the clock transformer are connected to the impedance

7-

The device works as follows

The LEDs of the first group of optocouplers 2 work anadogically with the valves of a three-phase bridge circuit during the day, turning on at the time of natural switching and passing a current for 1/3 of the period. Each phase of the secondary winding of the synchronizing transformer operates for 2/3 of the period, i.e. its coefficient is used in comparison with the known device, where each phase is secondary

The windings only operate 1/3 of the period, doubled.

During the flow of current through the LEDs of the optocouplers 2, the latter emit light and the photodetectors of the optocouplers 2 are in a conducting state. At the same time, control pulses 1i are generated from resistors 3 at the indicated time points, arriving at the inputs of the phase-shifting unit 4, and from resistors 3 connected in series with the LEDs of the cathode group optocouplers 2, positive-polarity pulses are formed, and with the LEDs of the optrons 2 of the anode group, negative polarity pulses, which can be inverted at the input of the phase-shifting unit 4.

The last fronts of these pulses trigger the phase-shifting unit 4, from the output of which, at the instants of time determined by the adjustment, the pulses of the required duration are delivered to the LEDs of the optocouplers 5, the photodetectors of which switch to conducting state. At the same time, depending on the place of switching on the outputs of optocouplers 2 and 5, the input circuits of the corresponding formers of 6 pulses are switched, from the outputs of which the control impulses are fed to the corresponding thyristors of the power rectifier. At the same time, the input circuits of the actuators 6 of the control pulses 6, in which the photodetectors of the optocouplers 2 and 5 are in the conducting state, are switched.

Thus, the proposed connection of synchronous chains.

31415361

Claims (1)

consisting of successively the formula of the invention the valuable LEDs of the optocoupler 2 and the Rezne-Device for controlling the three-phase 3, provides a given rectifier according to the autorum S 1005269, the rhythm of operation of the device in case of a continuous development is characterized in that a steady increase in the coefficient is used to increase the output ratio of the output windings of the synchronism user of the output windings of the synchronizing transformer and the reduction of the degrading transformer chain its masses and dimensions, since instead of from two serially connected two windings, located in the synchronization diode of the optocoupler and resistor of the synchronizing transformer of the known devices of the antiphase connection channels, only one is used.