SU752743A1 - Dc voltage converter control method - Google Patents

Description

(54) METHOD FOR CONTROLLING A CONSTANT VOLTAGE CONVERTER

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The invention relates to electrical engineering, and in particular to methods of controlling high voltage DC / DC converters to constant voltage .5

A known method of controlling a converter with a three-phase parallel inverter is that it changes the frequency of the inverted voltage in the intermediate circuit of the alternating current, straightens and smoothes ij and 2.

The disadvantage of this method is the need to use filters.

The closest in technical essence to the present invention is a method for controlling a constant voltage converter, which consists in the fact that in a three-phase voltage inverter of a constant voltage converter 20 with its main and shunting reverse thyristors and LC - switching circuit in each arm phase to turn off the main thyristor phase remove 25 control pulse from it and feed a narrow control pulse to the switching circuit thyristor, and after a time interval equal to the time off An additional impulse on the reverse thyristor, similar to the shoulder of the basics 3,

To obtain the ripple ratio of the output voltage of the converter controlled by the above method, in the order of 1–2%, smoothing LC filters are also established, the cost and weight and size parameters of which are quite significant, especially in high-voltage installations.

The purpose of the invention is to reduce the ripple ratio of the output voltage of the converter.

The goal is achieved by the fact that the control method of a constant voltage converter, containing a series-connected voltage inverter, a transformer and an uncontrolled rectifier, consists in supplying control pulses to the inverter valves, control pulses to turn on the inverter valves with such advance with respect to the moment of the restoration of the direct voltage on the inverter valve being turned off so that the moment of coincidence of the switching off of the rectifier valve coincides with the moment of the restoration of the direct voltage shit on off

.752743

The essence of the proposed control method is that with this mode of operation of the inverter valves and the pulsator rectifier of the output voltage of the converter, due to the switching currents in the winding of the transformer, are minimized.

FIG. 1 is a schematic diagram of the converter in FIG. 2, time diagrams of the operation of individual elements of the converter.

Let for example, at the moment of time (Fig. 2) the thyristors 1 and 2 are turned on in inverter 3, (Fig. 1). When the transformer 4 windings are connected in diode rectifier 5, diodes b, 7, and 8 turn on. At time t (Fig. 2), the converter control system 9 (Fig. 1) serves pulses to turn on the next thyristor 10 (simultaneously control / thyristor switching device 11). When the thyristor 10 is turned on, the current in the diode 7 begins to decrease and when it reaches zero (time t, fig 2), the next diode 12 turns on. The control pulse to the thyristor 10 is supplied so that at time ig the direct voltage on the switched off thyristor 2 is restored , in And time interval: -i voltage and load 13 is minimum and equal to the value and, where U is the output voltage of the converter in; inter-switching time interval, its value depends on the connection circuit of the transformer windings (S / d or u / J); Lj is the inductance of the transformer invertor winding; M is the coefficient of mutual induction between the primary and

secondary windings of the transformer.

Thus, the proposed DC voltage converter control method makes it possible to obtain a voltage at the output of the converter with a pulsation factor of 1–2% without the use of smoothing filters.

Claims (3)

1.Levin V.N. and others. Engineering calculation of parameters and characteristics of a constant voltage transformer current cascade type. Electromagnetic processes in drives with frequency control, Science, M., 1972. 2. Pisarev A.L., Detkin L.P. Control thyristor converters. M.; Energy 1975, s; 23,100 3. USSR author's certificate in application 2383943 / 24-07, cl. H 02 R 13/16 1976. R -44- wno n ± Kf-P KhW- u