SU898572A1 - Ac-to-dc voltage converter - Google Patents

Description

(54) AC VOLTAGE CONVERTER

PERMANENT

The invention relates to a converter technique and may find application in a controlled direct current drive. AC-to-constant voltage converters are known with dual-band regulation of output voltage 1. However, such converters are complex, as they require a balancing reactor and have low energy indices. Converters of alternating voltage into constant voltage are also known, which contain a three-phase transformer with two groups of secondary windings connected in a star and connected to the corresponding diagonal of alternating current of two controlled rectifying bridges connected in series with direct current to output terminals. 2. The disadvantage of such converters is low energy performance due to the full current load of the secondary windings of the transformer in the entire control range. The purpose of the invention is to improve the energy performance. The goal is achieved by the fact that the zero leads of the secondary windings are connected via a diode. The drawing shows a schematic diagram of the converter. The converter has two series-connected valve (thyristor) bridges 1 and 2 connected to two identical secondary windings 3 and 4 of transformer 5 connected to a star. HyvieBue winding leads 3 and 4 are interconnected via diode 6. The polarity of switching on diode 6 corresponds to the direction of conductivity the cathode group of bridge valves 1 and the anode group of bridge valves 2, between which the load 7 is connected. With the active and inductive nature of the load 7, the latter can be slammed by a counter diode 8 (shown in the diagram n dotted line). The output voltage is controlled as follows. In the first range, voltage regulation (from zero to half of the maximum value) is performed by simultaneously unlocking the cathode valves of bridge 1 and the anode cables of bridge 2 by smoothly decreasing their angle peiyjinpoR i. In this case, the load current passes through the circuit: anodic group of valves m (k; that 2. secondary winding 4, diode 6, secondary winding 3, cathode group of bridge valves 1 and load 7.

In the second range, voltage regulation (from half maximum to maximum value) is performed simultaneously by smoothly unlocking the valves of the anode group of bridge 1 and the valves of the cathode group of bridge 2, which is increased by gradually decreasing their angle of regulation.

The load current in this case is not branched into the diode circuit 6, but passes through two series-connected bridges and secondary windings of the transformer.

The voltage is reduced in the direction of decreasing by smoothly closing the valves. In this process, the adjustment is carried out in the order inverse

lio.vi (described above): C ia4a: ia, the lateral locking of the anode group's valves of bridge I and the cathode group of bridge 2, and then the other two groups, is performed.

Claims (2)

1. Author's certificate of the USSR Luo 199245, cl. H 02 M 7/12, 1967. 2. USSR author's certificate number 205130, cl. H 02 M 7/12, 1967.