SU811455A1 - Reversible rectifier with forced switching - Google Patents

Description

Another disadvantage of the rectifier is the considerable size and weight of the switching transformer, since its windings are included in the power circuit. Due to the low coupling coefficient between the windings of the switching transformer, the required capacity of the switching capacitors increases significantly.

The aim of the present invention is to increase the reliability of the forced locking of thyristors and the reduction in the size and weight of the commutation elements, its devices.

The goal is achieved by the fact that in a reverse rectifier containing a power transformer, valve elements with two-sided conductivity, made in the form of a single-phase diode bridge with a thyristor in the diagonal, and a device of forced switching, consisting of a multi-winding switching transformer and switching capacitors, switching circuit each phase, formed from a series-connected switching capacitor and the corresponding winding of the switching transformer, includes a parallel in parallel with the thyristors between the cathodes of the cathode group and the aiodes of the anode group of the diodes of a single-phase bridge, the capacitor of each value being shunted by a diode connected in opposite to the diodes of the single-phase bridge.

The drawing shows a reversible rectifier circuit with forced commutation by the example of a three-phase zero rectifier circuit.

A reverse rectifier consists of a power transformer 1, single-phase diode bridges 2 with thyristors 3, included in the diagonal of bridges, switching capacitors 4, switching transformers 5 with a number of windings equal to the number of rectifying phases, and diodes 6, bypassing switching capacitors.

The load in the circuit shown in the drawing is a DC motor 7.

During rectifier operation, switching capacitors in all phases with locked thyristors are charged through single-phase bridge diodes and an open thyristor of the operating phase to the amplitude of the line voltage of the secondary windings of the power transformer. The switching capacitor is operating at the moment of the discharge phase. When the thyristor of the next phase is unlocked, the switching capacitor of this phase is discharged through the thyristor and the winding of the switching transformer, and the current pulse is induced in the winding of this transformer, which is in the previous phase. This current flows through the discharged capacitor and the open thyristor of the previous phase, instead of its current.

After locking this thyristor, the induced current continues to flow through 5 capacitor and diodes of a single phase bridge. Due to this, the energy stored in the capacitor of the next phase almost completely (minus the losses in the active resistances of the circuit elements) goes into the capacitor of the previous phase. As this capacitor charges, the current decreases in the previous phase of the power transformer and the current in the next phase increases. Thanks to the diodes that shunt the switching capacitors, the reverse resonant overcharge of the next-phase capacitor is reduced after its load decreases to zero. The load current does not flow through the windings of the switching transformer, and its magnetic core is not saturated. Due to this, the coupling coefficient between the windings of the switching transformer is close to unity. In the process of switching, the current pulse induced in the winding of the previous phase is almost equal to the current of the next phase capacitor, which ensures reliable locking of the previous phase. The power of the switching transformer turns out to be small, since the current flows through its windings for a very short time when the next phase capacitor discharges. Due to the good current transformation of the capacitor discharge, the capacity of the switching capacitors can be chosen to be minimal according to the conditions of the switching case.

Claims (2)

1. Copyright certificate USSR Law 517116, cl. H 02 M 5/10, 1976. 2. Kuzikov V.S., Alekseev 1. A. Thyristor is the causative agent with artillery switching in the circuit of the electric drive of the pressure device of the mill 1150, Pst, Electromechanics, 1971, Le 1 (irototnn). H N -W-r-Df W GT -S4N 1GT