RU1815758C - Device for control of two-operation thyristor-pulse converter - Google Patents

Abstract

The device for controlling a two-operation thyristor-pulse converter is equipped with a lump block containing a chain connected to the power terminals of a series-connected make contact of the start relay, ballast resistor, capacitor and primary winding of a pulse transformer, the secondary windings of which are designed to be connected to control transitions, respectively, of the main and switching thyristors through decoupling diodes. 2 ill.

Description

The delay element 11 also receives pulses to the pulse shaper-amplifier 12 for the switching thyristor 4, which generates pulses of the same amplitude and duration, but with a phase shift relative to the pulses for the main thyristor 1. The phase shift is determined by the ratio of the output and input voltage of the converter.

Despite the presence of unlocking pulses at the control junctions of the main 1 and 4 switching thyristors, the voltage at the output of the converter does not appear due to the fact that the main thyristor 1 does not turn on, since the presence of a pulse of 25-50 μs in duration is insufficient to provide the initial increasing current through a choke of a filter having an inductance of several tens of MPG). The converter is turned on only after the start relay 13 is turned on, when a current pulse appears in the primary winding of the pulse transformer 16. This current pulse comes from the secondary windings simultaneously on the main 1 and switching thyristor 4 of the two-stage pulse converter, which will cause a recharge of the switching capacitor 2 with the original polarity to the opposite (shown in brackets).

For several tens of microseconds, a current will flow through thyristor 1. In accordance with the recharging period of the switching capacitor 2 through the switching choke T 2 n VLC where {,. Inductor throttle, C - capacitance of the capacitor. Therefore, for several tens of microseconds, the wave current of the oscillatory circuit will flow through the main thyristor 1. During the same time, due to the open state of the thyristor 1, the input voltage of the converter will be applied to the filter choke 5, which will cause magnetization of the dross, which will allow the current in its winding to increase to the nominal value of the current in the load in steady state.

Consequently, after recharging the capacitor 2, the current in the inductor 5 already rises to the nominal value. When it is terminated in the thyristor 1 after turning on the switching thyristor 4 from the first

pulse from the amplifier-former 12 (from the moment the start relay is turned on), the current will be closed through diode 8, slowly decaying in the winding of the filter throttle 5. At the moment

the next turn on of the thyristor 1 already from the pulse from the output of the former 10, the thyristor stably turns on from a narrow pulse (25 - 50 μs) due to the fact that the inductor 5 is magnetized by

dumb load current. Further, the processes in the converter proceed as in a conventional two-operation thyristor-pulse converter.

Thus, as if the temporary transfer of a two-operation thyristor-pulse converter to a single-operation mode allows you to provide a stable initial inclusion of the main thyristor and further control

the converter with narrow control pulses (25 - 50 μs), which, in comparison with the known devices, makes it possible to simplify the amplifier-shapers and reduce their power by 60-70%, which, as a result,

low power converters (about 1 kW) can increase the overall efficiency by 4-5%.

Claims (1)

SUMMARY OF THE INVENTION A device for controlling a two-stage thyristor-pulse converter, comprising a series-connected pulse generator and an amplifier-pulse generator for controlling the main thyristor of the converter, a delay element connected to a pulse generator by its input and an output from an amplifier-pulse generator for controlling a switching thyristor converter, characterized in that, in order to simplify the amplifiers-shapers and reduce their power, it is equipped with skov block containing a chain of lithium connected to the terminals series-connected make contact of the starting relay, ballast, capacitor and primary winding of a pulse transformer, the secondary windings of which are designed for connecting to the control junctions, respectively, the main and switching thyristors via decoupling diodes. Editor FIG 2 Compiled by I. Barkov Tehred M. Morgenthal Proofreader M. Petrova