SU828363A1 - Inverter control device - Google Patents

Description

one

The invention relates to power engineering, in particular, to DC power lines with an autonomous inverter.

A device for controlling an inverter of a direct current transmission line is known, comprising control driver formers whose power supply circuits are connected directly to the anode of valves 1.

The disadvantage of this method is the low efficiency of the control system.

The closest to the proposed device according to the technical essence and the achieved result is a device for controlling an inverter of a direct current transmission line, containing control pulse forming units — with autonomous power and output transformers 2.

The disadvantage of this device is also low efficiency.

The aim of the invention is to increase efficiency.

This is achieved by the fact that the device for controlling the inverter of the direct current line is equipped with a high-voltage circuit of a series-connected capacitor, a resistor, and a switch, and the output transformers of blocks of forming different phases h rpvnn inverter valves

they are equipped with additional windings — and the high-voltage circuit is connected at one end to one pole of the direct current line, the other through successively connected additional transformer windings to the other pole, and the autonomous power source is connected to the BHiBepTopa output.

The drawing shows a diagram of a device that contains a high-voltage switch 1, a high-voltage resistor 2, a high-voltage capacitor 3, control immersion units 4, control output transformers 5 of the shaping unit, an inverter thyristor 6, a high-voltage cable 7, a source 8 of auto-feed.

Thyristors 6 form an inverter that converts a voltage from a voltage into an alternating voltage. The control signals to the thyristors 6 are supplied by the output transformers 5, the primary windings of which are a cable connected to the formation units 4 (the so-called cable control system). The power generation units are supplied from a power source 8 connected by its input to the output of the inverter. The high voltage circuit consists of a switch 1, a resistor 2, a capacitor 3. For nvcKa of the inverter switch 1 is turned on, a charge surge occurs in the circuit of the capacitor, which is limited by resistor 2. Since cable 7 passes through the two thyristors of the equal phases and the group, the capacitor charge current is generated and causes the thyristors to turn on. The output of the inverter is the voltage that is supplied to the source 8 of the autonomous power supply. Due to this, the control pulse shaping units 4 receive the supply voltage and, in the state, generate the control signals. In this case, the first pulses are applied to the same thyristors that were started with a capacitor. In the future, the supply of the pulses in the defined sequence is ensured, as the steady state occurs.

The use of this invention improves the efficiency.

Claims (2)

1. Lytaev R. A., Taratuta I. P., Fotin V. P. Prospects for the use of high-voltage converter equipment for direct current transmission lines. Report at the World Electrotechnical Congress. - M .: Informelectro, 1971. 2.Abashkin V.P. High-speed device ABP for responsible current "Industrial power engineering receivers. No. 11, 1976.