SU680136A1 - Method of monitoring high-voltage thyristor gates - Google Patents

Description

(54) METHOD OF MANAGING TIRISTO The invention relates to the field of electrical engineering and can be used to control high-voltage thyristor valves of emergency circular power transmission systems. A known method of controlling high-voltage thyristor valves, which consists in the fact that periodically unlocking pulses are supplied to the valves and the disconnection of the triggering pulses is stopped when overcurrents occur in the circuit flj. The disadvantage of this method is low reliability. The closest technical solution to the invention is a method for controlling high-voltage thyristor valves of an emergency circulating discharge system consisting in supplying a series of unlocking pulses with a fixed control angle and stopping the unloading of unlocking pulses when an overcurrent occurs. OTHER HIGH-VOLTAGE AND VENTILES The well-known control method helps to prevent the long flow of overcurrent through the valves. However, this method has the following disadvantage: during the first conduction period when a short-circuit occurs. the valve passes the half-wave of the overcurrent and must be designed for it in order to avoid the resolution. In most cases, it is this mode that determines the number of parallel thyristors of the valve and the itx current rating. Under the conditions of a normal operating mode, these parameters could be several times less. Thus, ensuring the stability of the overcurrent valve with a known control method leads to an increase in the installed power of the emergency discharge circulation systems and a decrease in its reliability. The aim of the invention is; reduced installed capacity and increased reliability.

This goal is achieved by the fact that in the method of controlling the high voltage thyristor valves of the emergency circuit unloading system, it consists in supplying a series of otprayugayus pulses with a fixed upp adjustment, in the flow of unlocking pulses upon the occurrence of supercurrents, the first unlocking pulse with An increased control angle at which the amplitude of the emergency current exceeds the amplitude of the operating current, but does not exceed the amplitude of the maximum permissible current, measures the amplitude of the current of the valve In the first conduction interval, they are compared with the specified operating current value, then a series of trigger pulses is applied with a fixed control angle at the value of the valve current amplitude at the first conduction interval less than the operating current amplitude.

The technical essence of the invention is as follows.

Suppose that during the time when the vents were in standby mode, the power circuit suffered damage, a decrease in the resistance of the current circuit, for example, a current-limiting resistor was interrupted or interrupted. When controlled by a known method (all periods of conductivity are the same, including the first), when the valves were first turned on, an overcurrent would flow through them. When operating according to the proposed method, the first conduction period is reduced, thereby reducing the amplitude of the current coPOTKDix) closure. In order to ensure the protection conditions (for example, a current cut-off), it is sufficient that the short-circuit current amplitude is slightly higher than the operating current amplitude. At the same time, the protection is triggered and stops the subsequent insertion of valves, and the current passing through them will be much less than the maximum permissible.

If in the first, shortened conduction period, the current amplitude is not

will exceed the amplitudes of the operating current; the second and subsequent periods of conduction are stopped as required by the conditions of the transmission of the emergency circular reload signal.

Thus, the number and rated current of the thyristors completing the valve can be chosen according to the operating conditions, i.e. smaller compared with the control method by a known method.

Claims (2)

1. Melik-Sarkisov B. S. Protection of DC Transmission, in kN. Lime Institute of direct current, Sat. 2 Gosenergoizdat, Moscow-Leningrad, 1957 p. 84-94. 2.Tuvarzhiev V.K. Emergency modes and protection of the transmitter of the ACR system, in the book. Problems of technical electrodynamics, issue number 48, Naukova Dumka Kiev, 1974, p. 48-53.