SU944030A1 - Asymmetric current supply source - Google Patents

Description

(S) POWER SUPPLY ASYMMETRIC CURRENT

one

The invention relates to electrical engineering and can be used as an asymmetric current source of power, for example, to supply electroplating baths.

Thyristor converters are known for supplying electroplating baths, containing a three-phase rectifier of direct current with a zero point, the two windings of the transformer of which are included according to, and one counter, a single-phase rectifier and their control system D and 2.

A disadvantage of the known converters is the presence of a large number of controlled valves, which complicates their control system.

Closest to the invention is an asymmetric current source of power, containing a three-phase transformer 20, the secondary phase windings of which are connected in a star, and the third phase winding is switched in opposite to the windings of two

other phases, a three-phase rectifier made on uncontrolled valves whose cathodes are combined, and their common connection point is connected to the anode of the direct current thyristor, and each of the anodes is connected to a corresponding secondary phase winding, a reverse current thyristor connected by the anode to the cathode thyristor direct current, and thyristor control blocks, the output of each of which is connected to the control electrode of one of the thyristors 3.

The disadvantage of this source is the complexity of the transformer, the complicated control system of the converter, the lack of separate adjustment of the forward and reverse currents, as well as the increased amplitude of the reverse current, is unacceptable with galvanic coating of cyanide electrolytes, as there is an intensive electrochemical dissolution of the precipitated

metal, which reduces productivity.

The purpose of the invention is to simplify the converter.

The goal is achieved by the fact that in the power source an asymmetric current containing a three-phase transformer, the secondary phase windings of which are connected in a star, the third phase winding being turned on opposite to the windings of the other two phases, performed on uncontrollable valves, the cathodes of which are connected, and their common connection point is connected to the anode of the direct current thyristor, and each of the anodes is connected to a corresponding secondary phase winding, a reverse current thyristor connected by an anode the cathode of the direct current thyristor and the thyristor control units, the output of each of which is connected to the control electrode of one of the thyristors, the cathode and the input of the reverse current thyristor control unit are connected to the secondary winding of the first phase, and the input of the direct current thyristor control unit is connected to the common the point of connection of the cathodes of the three-phase rectifier valves.

FIG. 1 is a circuit diagram of a converter; in fig. 2 - a graphic representation of the curves of the resulting current.

The asymmetric current source contains a three-phase transformer 1, the phases of the secondary winding connected to a star are connected to an uncontrolled rectifier on valves 2, the cathodes of which are connected and connected to the anode of the direct current thyristor 3. whose cathode is connected to the anode of the reverse current thyristor k, the cathode of which is connected to the secondary winding of the first phase. The control electrodes of the thyristors 3 and the outputs of the control units 5 and 6, respectively, are connected to the control units 5 and 6, respectively, the formers. 7 and 8 thyristor drive pulses, diodes 9 and 10, and resistors 11 and 12.

Source.pitani works as follows.

When a three-phase transformer 1 8 is turned on, a three-phase ac cetb direct current, through ventilation 2 and thyristor 3, enters the load CO from the star of the three-phase secondary windings, the reverse current of one third of the half-cycle of the feeding direction falls on the load through the thyristor k from the secondary winding of the first phase at the moments of no current flow, which is explained by the diagrams in FIG. 2. In this case, the pulses, including the direct current thyristor 3, formed in the driver 7j are synchronized with the voltage of the three-phase rectifier by the diode optocoupler 9, and the pulses, including the reverse current thyristor k, formed in the driver 8, are synchronized with the voltage of the second phase of the diode optocounter 10 The regulation of the moment of supply of the switching pulses and, therefore, the forward and reverse currents is carried out using resistors 11 and 12.

With the help of one power transformer, two thyristors and three uncontrolled gates, it is possible to power an asymmetric current with an increased current density simultaneously several electroplating baths, which increases the performance of galvanic processes by a factor of three with good qualities of applied electroplating coatings in cyanic electrolytes.

Claims (1)

Invention Formula A power source with an asymmetric current containing a three-phase transformer, the secondary phase windings of which are connected in a star, the third phase winding being turned on opposite to the windings of the two other phases, a three-phase rectifier made on unmanaged vents, the cathodes of which are combined, and their common the connection point is connected to the anode of the direct current thyristor, and each of the anodes is connected to the corresponding secondary phase winding, a reverse current thyristor connected by the anode with the cathode of the direct current, and blocks thyristor control, the output of each of which is connected to the control electrode of one of the thyristors, characterized in that, for the purpose of simplification, the cathode and the input of the reverse current thyristor control unit are connected to the secondary winding of the first phase, current