SU809466A1 - Device for control of static converter - Google Patents

Description

(54) DEVICE FOR CONTROL OF STATIC CONVERTER

Claims (2)

The present invention relates to electrical engineering, in particular to devices for converter equipment. One of the main indicators of the reliability of a static converter is the average recovery time. This indicator is determined by the time spent on detecting a failed unit and replacing it. Devices for controlling a static converter are known, which make it possible to control the operation of the power section of converter 1. A disadvantage of these devices is their complexity and low reliability. The closest to the present invention is a device for controlling a static converter, consisting of a node of pulse-phase controls with n output channels 2. A disadvantage of the known device is the lack of monitoring of the operation of the device for control, which leads to a decrease in reliability and time consuming for troubleshooting. The purpose of the invention is to increase reliability by reducing the recovery time of the converter. The goal is achieved by the fact that the device for controlling a static converter, consisting of a pulse-phase control unit with n outputs, is supplied by the number of outputs of the pulse-phase control unit by delay nodes, coincidence elements, dashed lines and signal lamps, each m-th output the pulse-phase control node is connected to the input of the delay node and the first trigger input, the output of the delay node is connected to the first input of the match element, the second input of which is connected to m + l output taps of the pulse-phase second control, and output - with the second: input a trigger, whose output is connected to the signal lamp. The drawing shows a structural electrical circuit of the proposed device. A device for controlling a static converter consists of a node 1 of pulse-phase control, a static converter 2, KNOTLES 3 delays, 4 elements of coincidence, triggers 5, signal lamps. The device operates as follows. The node 1 of the pulse-phase control generates a n-channel sequence of control thyristor pulses. 2. The interval between control pulses for a three-phase bridge converter is 60 el. hail. For detecting malfunction of the channel CHCTeivjd of the pulsed-phase control, the symmetry of the intervals is controlled between the control pulses. By this, control pulses from each m-th output of node 1 are sent to node 3 of the delay, trigger input 5 and coincidence element 4, and a pulse is formed at the output of the delay node, the duration of which is equal to twice the distance between the control pulses from the gray outputs of the converter 2 (2 TDP). The duration of the delay must be equal to T - Tdrgde T interval between control pulses. The pulse from the output of the delay node and the pulses from the mf-1 output of node 1 are fed from to the inputs of element 4. If the interval between control pulses differs from the specified one by less than T dop, then a signal is generated at the output of element 4, with trigger 5 periodically switching the signal from the output of element 4 and the signal from the t-th output of node 1. The lamp 6, connected to the trigger output, is on. If the interval between the pulses of neighboring outputs differs from the specified one by more than the value of TDef, then at the output of the coincidence element the signal does not form c and the trigger 5 is set to steady state by the signal from the tth output. The lamp 6 is then extinguished, indicating that the t + 1 output of the pulsed-phase control system J is faulty. The proposed device can be used in static converters used in electroplating, electric drives, etc., as well as in uninterruptible power supply units of responsible consumers, in which reducing the recovery time of converters is especially important. Due to the increased reliability, the weight and size and economic indicators of the aggregates are reduced. Formula of the invention A device for controlling a static converter, comprising a pulse-phase control node with n outputs, characterized in that, in order to increase reliability, it is provided according to the number of outputs of the pulse-phase control node of delay nodes, coincidence elements, triggers and signal lamps, each mth output of the pulse-phase control node is connected to the input of the delay node and the first trigger input, the output of the delay node is connected to the first input of the coincidence element, the second input of which is connected nen with m + 1 output node pulse-phase control, and the output - to the second input flip-flop, whose output is connected to the signal lamp. Sources of information taken into account in the examination 1. L. Evteev. and others. The control circuit of the thyristor converter. -Electrotechnical industry, Seri Converter technology, 1973, vol. 7 (42) s. 34. 2, Rudenko B.C. and others. Converting technique. Kiev, Vishcha shko1978, p. 125, fig. 2.37. Mg) -0 Mg)