SU1037374A1 - Device for controlling and checking converter - Google Patents

Abstract

A DEVICE FOR CONTROLLING AND CONTROL OF THE INVERTER, containing a node of pulse-phase control with Vi outputs and equipped with a number of outputs of the node of pulse-phase control of delay nodes. the first And elements, triggers and display elements, with each I-node output of the pulse-phase control unit connected to the input of the corresponding delay node and the installation input of the unit of the corresponding trigger, the output of the delay node connected to the first input of the corresponding first And element, the second the input of which is connected to the + 1 output. the house of the pulse-phase control unit, and the output of each trigger is connected to the input of the corresponding indication element, which is given by Wo, in order to extend the functionality and reduce the recovery time of the converter; , a differentiating unit, a two-threshold comparator and the number of outputs of the Pulse-Phase Control node are entered into it. - second AND elements and OR elements, the input of the differential block just connected to the input of the Pulse-Phase Control node, the output of the differentiating block connected to the input of a two-threshold comparator, the output which is connected to the first input of each of: one of the second elements AND, each l 1st output node of the pulse-phase control is connected to the second input of the corresponding second element AND, the output of which Inen with the first input of the corresponding element OR, E. The second input of which is connected to the output of the corresponding first element AND, and the output of the element OR is connected to the input of the zero setting of the trigger, the input of the installation of the unit of which is connected to the (1-1) -th output of the node pulse -phase control laziness. oo nfliai

Description

The invention relates to electrical engineering and can be used to control and monitor thyristor converters. A device for controlling a static converter is known, consisting of a pulse-Phase control node with AND output channels LlJ. The disadvantage of this device is the lack of control of the device for control, which leads to a large amount of time to find a fault. The closest to the present invention is a device for controlling a static converter, consisting of a pulse-phase control unit with I-outputs, coincidence elements, triggers, delay elements and indication elements, with each i-th output of the pulse-phase control unit being connected to the input of the delay node and the first input of the trigger, whose output is connected to the display element, the output of the delay node is connected to the first input of the coincidence element, the second input of which is connected to the i + 1 th output of the pulse-phase node C2 systematic way. : However, the known device is operable only at a constant signal at the input of the pulse-phase control node. Any change in the signal At the input of the pulsed-phase control node is recorded by the device as a change in phase shift, i.e. false alarms occur, delay elements, coincidence elements, triggers, and display elements form a false alarm. This leads to stopping the device and stopping the monitoring, therefore, monitoring the operation of the converter using a known device can only be carried out in a static mode of operation. The disadvantages of the known device are also limited functionality and long recovery time of the inverter due to false positives of the device. ,, The purpose of the invention is an extension. device functionality and reducing converter recovery time. The goal is achieved by the fact that a device for controlling and controlling a converter, cojjgps a node of a pulse-phase control with Vf-outputs and equipped with the number of outputs of the node of pulse-phase control of the gate nodes, the first And elements, triggers and display elements, each i - the th output of the pulse-phase control node is connected to the input of the corresponding delay node, and the unit setup input of the corresponding trigger; the output of the delay node is connected to the first input of the corresponding first element And, the second input of which is connected to the 1 + 1 output of the pulse-phase control node, and the output of each trigger is connected to the input of the corresponding display element, a differentiating unit, a two-threshold comparator are entered and, by the number of outputs of the pulse-phase control node, the second And elements and the OR elements the input of the differentiating unit is connected to the input of the pulse-phase control unit, the output of the differentiating unit is connected to the input of a two-threshold comparator, the output of which is connected to the first input of each of the second x elements And, each i-th output of the pulse-phase node. control is connected to the second input of the corresponding second element AND, the output of which is connected to the first input of the corresponding SHI element, the second input of which is connected to the output of the corresponding first AND element, and the output of the OR element is connected to the input of the zero setting of the trigger, the installation of the unit of which is connected to i -1 by the output of the impulse-phase control unit. In the drawing, the image-on the block diagram of the device. The device for controlling and controlling the converter consists of node 1 of pulse-phase control, converter 2, delay nodes 3, differentiating unit 4, two-threshold comparator 5, first elements AND 6, elements OR 7, trigger 8, elements 9 of indication, second elements AND 10 . The device works in the following way. The node -1 of the pulse-phase control generates an i-channel sequence of control pulses of the converter 2. The interval between the control pulses for the 3-phase bridge converter is equal to 60 electr. To detect the failure of the channel of the pulse-phase control node, the symmetry of the intervals between the control pulses is monitored. The control pulses from each i-ro output of the node 1 of the pulse-phase control set the triggers to one state and act on the delay element 3. Element 3 delays the pulse by a time interval T equal to the interval between the pulses 1 of the neighboring outputs of the pulse-phase control node. The interval T is determined by the converter circuit 2. - g, where m is the phase of the circuit, f is the frequency of the mains supply. When the node 1 of the pulse-phase control is working correctly and the signal U- is present at its input, the pulse. From the i-ro output, delayed by time T, coincides in time with the pulse from i f of the 1st output. In this case, the voltage at the output of differentiating unit 4 does not change, at the output of the two-threshold comparator 5 there is a logic zero signal. In this case, a pulse with i + 1-g output passes through the first element B and the element OR 7 to the input of the zero setting of trigger 8, and the corresponding indication element 9 signals the channel health. I. When the pulsed-phase control unit 1 is working properly and any of the signal input at its input, the shift between control pulses of adjacent channels differs from T. When the signal Uj changes, the voltage at the output of differentiating unit 4 changes, at the output of two threshold comparator 5 signal is a logical unit. In this case, the pulse from the i + 1-th output through the second element AND 10 and the element OR 7, regardless of the shift between the pulses of adjacent channels, enters the input of the zero setting of the trigger 8. At the same time, the device does not fix the fault behavior corresponding to the controlled channel Intro dication signals that the channel is working properly. With a faulty node 1 pulse-phase control and any change in signal 1 at its input, a pulse from the i-th output of the pulse phase control node is not received-. In this case, the pulse from the I + 1st output passes through the first element AND 6 and the element OR 7. When the signal changes and at the input of the pulse-phase control node, the voltage at the output of the differentiating unit 4 changes, the signal of the logic unit from the two-threshold output comparator 5 is fed to the input element And 10. The signal is logical, one from the i + 1-th output node pulse-. the phase control does not pass through the OR element 7 to the input of the zero setting of the trigger 8. The corresponding indication element 9 signals the occurrence of a fault in the monitored channel. Thus, changes in the signal and at the input of the pulse-phase control unit, which cause a change in phase shifts during normal operation, of the pulse-phase control unit, are not recorded by the device as a fault. The malfunction signal is generated when the pulse-phase control unit malfunctions, and its occurrence. confirmed by the appearance of a signal at the output of the two-horn comparator. The device allows controlling the operation of the converter when the U signal changes at the input of the pulse-phase control node. At the same time, false positives of the device do not occur, which reduces the recovery time of the converter.

Claims (1)

DEVICE FOR CONTROL AND MONITORING OF THE CONVERTER, comprising a pulse-phase control unit with h outputs and equipped with the number of outputs of the pulse-phase control unit of the delay nodes. the first AND elements, triggers and indication elements, each i-th output of the pulse-phase control unit being connected to the input of the corresponding delay unit and the unit setting input of the corresponding trigger, the output of the delay unit is connected to the first input of the corresponding, first And element, the second input which is connected to the 1 + 1 output of the pulse-phase control unit, and the output of each trigger is connected to the input of the corresponding indication element, which is different in that, in order to expand the functionality and the reduction of the converter recovery time, a differentiating unit, a two-threshold comparator are introduced into it according to the number of outputs of the pulse-phase control unit. - second Elements AND and OR elements, the input of the differentiating unit connected to the input of the pulse-phase control unit, the output of the differentiating unit connected to the input two-threshold comparator output koto- _β cerned is connected to the first input kazh- (g dogo of the second AND gates, each * ί-th output node L of pulse-phase control is coupled to the second input - the corresponding of the second AND element, (whose output is connected to the first input of the corresponding OR element, £ the second input of which is connected to the output of the corresponding first AND element, and the output of the OR element is connected to the zero setting input of the trigger whose unit setting input is connected to . (1-1) -th output of the pulse-phase control unit. laziness. 1037374 A