SU725141A1 - Method of protecting static converters with artificial switching from overloads - Google Patents

Description

The invention relates to the field of protection of static converters. A known method of protection of static converters, in which the input voltage and output current of the converter are monitored, compared, and the results form a protection signal 1. The disadvantage of this device is low reliability in variable load modes. The closest to the proposed technical means and the achieved result is a method of protecting static converters against overloads with artificial commutation, at which the converter load current and voltage are controlled at the switching capacitor compare them and form a protection signal at a certain ratio of these values. 2. The disadvantage of this device is low reliability in modes with variable load and unstable power voltage. . The purpose of the invention is to increase reliability. For this purpose, the signal obtained after the comparison is differentiated and fed to nodes of artificial switching of converter gates. The drawing is a Vlok-diagram, explaining the proposed method. This method is carried out as follows. During the operation of the converter, a decrease in the supply voltage may occur at the moment of switching the power thyristor 1. As a result, the switching capacitor 2, after closing the thyristor 1, is charged to a reduced voltage, which causes a reduction in the maximum switched current. At this moment, the current flowing through the load 3 exceeds the maximum switched current. The excess of the input signal proportional to the load current 3 over the input signal proportional to the voltage of the switching capacitor 2 leads to the appearance of a signal at the output of the relay element 4. Thus, indirectly, the turn-off time of the power thyristor 1 provided by the circuit, i.e. . switching capacity of an artificial switching node.

In this case, the pulse at the output of the differentiating element 5 does not appear, since the latter is arranged in such a way that the pulse at its output appears only in the time interval lying between the moment of pulse supply to the control electrode of the thyristor 1 and the moment of pulse supply to the control the switching electrode of the switching thyristor 6, i.e. in the conduction range of the power thyristor 1. The load current is interrupted by the reverse diode 7 and decreases. If by the beginning of the next pulse cycle of regulating the load current exceeds the limit switching current, the output signal of element 4 blocks the channel 8 for control of power thyristor 1, remove the next pulse,} "the 5th should have been received by its control electrode from the generator 9. Timer The unlocking pulses from the control electrode of the power thyristor 1 is determined by the voltage of the switching capacitor 2 and the constant load time. When the load current decreases to the value of the maximum switched current, i.e. the switching voltage of the switching capacitor will be sufficient to ensure that the time of the power thyristor 1 is turned off not less than the permissible value, the output signal of the element 4 disappears, not preventing other pulses from flowing to the control electrode of the power thyristor. During the first conduction interval of the thyristor 1 cm of unblocking of its control channel 8 as a result of a sharp increase in its duration or decrease in load resistance, the current flowing through the power thyristor 1 can reach the value of the maximum switched current at which the off time provided by the circuit becomes equal to the allowable. At this moment, a signal appears at the output of element 4, which is differentiated by element 5 and passes through the control channel 10 to the control electrode of the switching thyristor 6 until the next pulse from the generator 11 is supplied to its control electrode. The thyristor 6. opens, which causes to turn off the thyristor 1. At the same time, the output signal of the relay element 4 enters the channel 8 control power 5 thyristor 1, thereby monitoring the switching capacity of the artificial switching node in the pause between mi thyristor conductivity 1.

OopMyj a invention

The method of protection of static converters with artificial switching against overloads, in which they control the load current of the converter and the voltage on the switching capacitor, compare them and, at a certain ratio of these quantities, form a protection signal,

differing in that, in order to increase reliability, the signal obtained after the comparison is differentiated and fed to the nodes of the artificial switching of the converter gates.

Sources of information taken into account in the examination

1. Japan patent No. 42-42338, cl. 56 C 9, 1972.

2. Patent of the USSR in accordance with State Law No. 2392709, cl. H 02 H 7/10, 1975.

Claims (2)

Claim A method of protecting static converters with artificial switching from overloads, in which the load current of the converter and the voltage on the switching capacitor are controlled, they are compared and, with a certain ratio of these values, a protection signal is generated, characterized in that, in order to increase reliability, the signal obtained after comparison, differentiate and serve in the nodes of the artificial switching valves of the Converter. Sources of Information taken into account in the examination 1. Japan patent No. 42-42338, CL. 56 C 9, 1972. 2. USSR Patent Application No. 2392709, cl. H 02 H 7/10, 1975.