SU635591A1 - Method of automatic control of inverter output voltage - Google Patents

Description

In order for the inverter to transmit the direct current, the need to select control sigals and gains under static stability conditions may be incompatible with the requirements for controlling imulse shifts in the event of abrupt mode faults, such as a short circuit in the AC network. With such violations of the mode, abrupt changes in angle 9 take place in one direction or another. In order to prevent the inverter from tipping over in such situations, it is necessary to increase (force) the inverter extinction angle. The provision of such a force, regardless of the sign of the deviated phase angle Dw during an abrupt mode change, can be ensured by introducing an additional signal modulo the angle deviation - Dx into the inverter control system. The introduction of such an additional signal also leads to a slight increase in the average value of the inverter extinction angle due to the aperiodic component of the signal; Av | during synchronous oscillations of angle b, which may occur after emergency recovery. It can also contribute to the success of the transition process. At the same time, the Kachy signal of Dv has practically no effect on the choice of signals (v, dv, v, ...) and gain factors according to the conditions for providing static stability. Therefore, the gain factor, | It can only be determined by the conditions of ensuring the best control of the inverter during emergency transitions in the power system. The drawing shows an activation circuit of the inverter control system, comprising a synchronous generator 1 mounted on the shaft of the synchronous compensator 2, a source of 3 pulses controlling the opening of the inverter 4 valves, and a phase-sensitive device 5 generating control signals by the phase angle (or its deviation) to the module angle, etc.

The signals from the output of the phase-sensitive device 5, along with the signals from the regulating devices, create a shift of the control pulses produced by the source 3.

Claims (3)

1. A method for automatically controlling the output voltage of an inverter by supplying control valves to its gates, formed from a three-phase symmetric voltage synchronized with the output voltage of the inverter, is characterized in that, in order to increase the control accuracy and prevent the inverter from overturning, it is measured the phase angles between the indicated voltages, select the largest of them, and change the moment of supply of the control pulse in accordance with the magnitude of the selected angle. 2. A method according to claim I, characterized in that, in order to improve the quality of regulation in transient conditions, the increment and the derivative of the selected angle are additionally determined to change the moment of supply of control signals. 3. A method according to claim 1, characterized in that, in order to force the extinction angle of the inverter during abrupt mode changes to change the moment of supply of control pulses, the modulus of the selected angle is additionally determined. +