SU716126A1 - Method of cutting-out heavy-duty high-voltage dc circuit - Google Patents

Description

(54) METHOD FOR DISABLING POWERFUL HIGH-VOLTAGE DC CIRCUIT

The invention relates to electrical engineering and can be used in converter circuits of transmissions and direct current inserts, as well as in installations where it is necessary to disconnect powerful high voltage direct current circuits. There is a known method of disconnecting the direct current circuit i, which implements the currentless method of disconnecting the alternating current circuit by issuing a command that anticipates the natural zero current transition for the time of the switch tripping. This method cannot be applied in the DC circuit, since there is no natural supplyless network. The closest to the invention in its technical essence is the method of disconnecting the DC circuit, which includes a high thyristor valve, connected in parallel with the switch, transfers the current on the valve, turn off the switch and then alternately turn on the power switch of the thyristors and, thereby, turn off the working thyristors alternately, this introduces the leading resistance into the circuit of the power current, and the last thyristor turns off the current is complete, after which the circuit is separated by a 6m switch with a special switch connected in series with the thyristor valve 2. The disadvantage of this method is the low reliability. The aim of the invention is to increase reliability by limiting overvoltages. The goal is achieved by the method of disconnecting a direct current circuit measuring the magnitude of the load current, isolating the signal proportional to the inductance, differentiating the load current, multiplying the signal proportional to the inductance of the direct current circuit, to the derivative current, compared with the specified permissible overvoltage If they are equal, they determine the lock-in time of the fully controlled electronic valve and turn off the efo by shaping the decay rate, the control pulse on its control grid. This method allows one to take into account both the configuration of the circuit and the magnitude of the load current and, depending on this data, choose the time for the current to drop at a given acceptable level

Claims (1)

Claim A method of turning off a high-voltage high-voltage DC circuit, having an inductive nature, containing a load, a mechanical switching device and a fully controllable electronic valve, consisting in sending a command to turn on a fully controllable electronic valve, connected in a conducting direction parallel to the mechanical switching device, a command to turn off the mechanical switching device, give a command to lock a fully controlled valve, characterized in that, with in order to increase reliability: by limiting overvoltages, measure the magnitude of the load current, isolate a signal proportional to the inductance of the direct current circuit, differentiate the load current, multiply the signal proportional to the inductance of the direct current circuit by the derivative of the current, compare with the specified permissible magnitude of the overvoltage, when In equality, they determine the closing time of a fully controlled electronic valve — and turn it off by forming the decay rate of the control pulse.