SU1100708A1 - Device for checking serviceability of pulse-phase control systems for converters - Google Patents

Abstract

DEVICE FOR THE OPERATION OF PULSED .KONTROLYA-PHASE CONTROL GB converter comprising a control unit, a first group of inputs of which is intended for connection to the outputs ymyulsno-phase control system, a first set of outputs connected to the inputs of a threshold unit, a second GRU pas outputs connected to the display unit, and the second group of inputs is connected to the outputs of the pulse parameters measuring unit, characterized in that, in order to extend the functionality and increase the reliability of the control in The pulse shaper was entered into it, the pulse parameter measurement unit was implemented as a switch, switch, counter, decipheror, and pulse generator; the control unit was designed as a clock generator, counter, first and second selector-multi plexors, first, second and third triggers, element OR, random access memory and standby multivibrator and is equipped with the first, third and third inputs, intended for connecting the command setter, the fourth input and the third group of inputs The ports are intended to be connected to the inputs of the pulse-phase control system, as well as the first, second outputs and the third group of outputs, the outputs of the threshold unit are connected to the fourth input of the control unit and the inputs of the pulse generator, the outputs of which are connected to the first and second inputs of the j switch. the input of which is connected to the third group of outputs of the control unit, and the outputs are connected to the first inputs of the switch, the second inputs of which are connected to the outputs of the pulse generator, and the output is connected the counter input, the outputs of which are connected via the decoder to the second group of inputs of the control unit, the first output of which is connected to the input of the pulse generator, and the second input - to the reset input of the counter and the third input of the switch, while the first input of the control unit is connected to the input of the clock generator, the output is connected to the first inputs of the triggers, the second output of the control unit and the counter input of the control unit, the outputs of which are connected to the control inputs of the first and second selector multiplexer , Whose data inputs are connected respectively to the first and third groups of control inputs of the block, and outputs - respectively the first and third groups of the control unit outputs the second inputs of the first, second and third flip-flops

Description

connected to the second, third and fourth inputs of the control unit, the trigger outputs are connected to the second group of control unit outputs, the OR element inputs are connected to the first and second trigger outputs, its output is connected to the first output of the control unit, the operational, memory device inputs are connected to the outputs the counter of the control unit, the second group of inputs of the control unit and the output of the waiting multivibrator, the input connected to the output of the first selector-multiplexer, and the outputs of the operational memory device connected to the second group of outputs of the control unit | Leni.

The invention relates to power converter technology, namely, control devices and control of valve converters. A monitoring and troubleshooting device containing a clock setting unit, a matching unit, a control unit, a comparison unit, an adder, signal conditioners, keys, and a display unit L1 3 is known. A disadvantage of this device is the impossibility of determining the fault location and the deviation magnitude from the specified parameters. The closest to the proposed technical essence and the achieved result is a device for monitoring the operability of pulse-phase control systems of converters, containing a control unit, the first group of inputs which is intended to be connected to the outputs of the pulse-phase control system, the first group of outputs connected to the inputs of the threshold unit , the second group of outputs is connected to the display unit, and the second group of inputs is connected to the outputs of the measuring unit of the parameters of pulses C23. However, the functionality of the known device is insufficient, since it allows to determine the place of failure and the output of parameters beyond the tolerances, but does not quantify these deviations. The use of standby multivibrators as time standards introduces temporal and temperature drift of reference pulse meter pairs and makes it impossible to readjust the device without interfering with the installation. The purpose of the invention is to extend the functionality of the device, increasing the reliability of the control. The goal is achieved by the fact that the device for monitoring the health of pulse-phase control systems for converters, contains a control unit, the first group of inputs of which is intended to be connected to the outputs of the pulse-phase control system, the first group of outputs is connected to the inputs of the threshold block, the second group of outputs is connected with the display unit, and the second group of inputs is connected to the outputs of the pulse parameters measuring unit, a pulse shaper is entered, the pulse parameters measuring unit is entered It is complete in the form of a switch, switch, counter, decoder and pulse generator, and the control unit is designed as a clock generator, counter, first and second multiplexer selectors, first, second and third triggers, an OR element, random access memory and a waiting multivibrator and it is equipped with the first, second and third inputs intended for connecting the command setter, the fourth input and the third group of inputs intended for connection to the system inputs of a pulse-phase signal control, as well as the first, second outputs and the third group of outputs, the outputs of the threshold unit are connected to the fourth input of the control unit and the shaper inputs, the outputs of which are connected to the first and second inputs

the switch, the third input of which is connected to the third group of outputs of the control unit, and the outputs are connected to the first inputs of the switch, the second inputs of which are connected to the outputs of the pulse generator, and the output is connected to the input of the counter, the outputs of which are connected to the second group of inputs of the block control, the first output of which is connected to the input of the pulse generator, and the second input - to the reset input of the counter and the third input of the switch, while the first input of the control unit is connected to the input of the clock generator 15 pulse, the output of which is connected to first inputs of flip-flops, the output of the second control input of the counter and the block control unit, the outputs of which are connected to the control input 20 of the first and second selectors multiplexers, data inputs of which are connected respectively to the first and third groups of block inputs. control, and the outputs, respectively, with the first and third groups of outputs of the control unit, the second inputs of the first, second and third flip-flops are connected respectively to the second, third and fourth inputs 30 of the control unit, the outputs of the flip-flops are connected to the second group of outputs of the control unit, the inputs the SHS element is connected to the outputs of the first and second triggers, its output is connected 35 to the first output of the control unit, the inputs of the random access memory are connected to the outputs of the counter of the control unit, the second group-. The ne inputs of the control unit and the output 40 of the standby multivibrator, the input connected to the output of the first selector multiplexer, and the outputs of the random access memory are connected to the second group of outputs .45 of the control unit.

FIG. 1 shows a functional diagram of the device; in fig. 2 is a functional block diagram .50

A device to monitor the health of the pulse-phase control systems of the transducers (Fig. 1) will be contained by the control unit 1, the threshold unit 2, the pulse parameters measurement unit 3, the display unit 4, the first group of inputs 5 of the control unit associated with the system outputs

transducer control, the first group of outputs 6 connected to the inputs of the threshold block that is connected to the inputs of the pulse parameters measuring unit, the second group of inputs 7 of the control unit connected to the outputs of the pulse parameters measuring unit, the second group of outputs 8 of the control unit connected to the inputs of the display unit, the third group of inputs 9 of the control unit associated with the outputs of the control system of the converter, the first 10, second 11, third 12 inputs of the control of the control unit associated with the outputs of the coder LD, driver of 13 pulses, the input connected to the output of the threshold unit, and outputs 14 and 15 connected to the inputs of the pulse measurement unit, the output of the threshold unit connected to the fourth input 16 of the control unit, the third group of outputs 17, the first 18 and second 19 outputs of the control unit, which are connected to the inputs of the pulse measurement unit, the switch 20, the first 21 and the second 22 inputs connected to the pulse generator outputs, the third input 23 is connected to the third group of outputs of the control unit, and the outputs below connected to the first inputs 24 of the commutator 25, the second inputs 26 of the switch connected to the first 27 and second 28 outputs of the generator 29, whose input is connected to the first output of the control unit, the switch output connected to the counting input of the counter 30, whose outputs through the decoder 31 are connected to the second a group of inputs of the control unit; a third input of the switch 32 connected to the reset input of the counter and the second output of the control unit.

The control unit contains (Fig. 2) the clock pulse generator 33, the counter 34, the first 35 and second 36 selector multiplexers, the first and second triggers 37 and 38, the OR element 39, random access memory 40, the waiting multivibrator 41, the third trigger 42, the first input of the control unit is connected to the input of the clock generator, the output of which is connected to the counter input, to the fourth output of the control unit, to the installation input of the third trigger, and to the inputs of the first and second triggers, which are connected to the second inputs and the second control inputs and outputs with the inputs of the OR element and the second group of outputs of the control unit, the output of the OR element is connected to the first output of the control unit, the inputs of the operative storage device of the connection 1 with in the mountain. a group of inputs of the control unit, with an output of the waiting multivibrator, an input connected to the first group of outputs of the control unit and an output of the first selector-multiplexer, the control inputs of which are connected to the inputs of the second selector-multiplexer and with the outputs of the counter that are connected to the inputs memory device, the information inputs of the first selector-multiplexer are connected to the first group of inputs of the control unit, the second selector-multiplex information inputs are connected to tr tey group input control unit and output - with a third group control unit outputs. In addition, the second input of the third trigger is connected to the fourth input of the control unit, and the outputs of the third trigger and random access memory through the second group of outputs of the control unit to the display unit. The device works as follows. Controlled impulses are delivered to the inputs of control unit 1, which through threshold unit 2 arrive at impulse measurement unit 3, where measured duration of monitored pulses or phase shift are measured, and the digital evaluation of control results is displayed in display unit 4. Through the first group of inputs 5 connected to the outputs of the SIFU, the control unit seals the alternate connection of the output signals of the SIFU to the first group of outputs 6 of the control unit connected to the inputs of the threshold unit 2. Through the second group of inputs 7 and the second group of outputs 8, the control unit transmits information on the results of the control in the display unit 4. Synchronization and synchronization pulses associated with the SIFU inputs are supplied to the control unit through the third group of inputs 9. These pulses are formed at the moments of zero crossing of the converter supply voltage. The first 10, second 11, third 12 control inputs are given respectively by the commands Control, Phase Shift, Duration. If the amplitude of the monitored pulses lies within the tolerance, then the output of the threshold unit 2 is a controlled pulse, which is fed to the input of the pulse shaper 13 connected by the outputs 14 and 15 to the inputs of the pulsing measurement unit 3. At the output 14 of the Impulse driver, a signal is generated on the leading edge of the monitored pulse, and on the output 15 - on the trailing edge of the monitored pulse. An integrated circuit of the type K521CA1 was used as a threshold device. When the amplitude goes beyond the tolerance limits or when there is no pulse, the malfunction signal is sent through the fourth input 16 of the control unit to the corresponding cell of the display of the display unit 4 of the display. On the third group of outputs 17 of the control unit, connected to the input of the measuring unit of the parameters of the pulses, a synchronization signal is generated when the appearance of the pulses on the third group of inputs 9 of the control unit. A signal is generated at the first output 18 of the control unit, depending on the control signals at inputs 11 and 12. At the second output 19, connected to the pulse parameters measuring unit, a reset signal is generated. The switch 20 when monitoring the phase shift connects the output 14 of the pulse generator to the first input 21 and the output 15 of the generator to the second input 22. When monitoring the pulse duration, the output 14 of the pulse generator and the third input 23 of the third group of outputs 17 of the control unit are connected to the first input 21 of the switch 20 on which synchronization signals are formed. From the switch outputs, signals are applied to the first group of I-24 switches 25, the second group of inputs 26 of which are impacted by pulses from the first 27 and second 28 outputs of the generator 29 pulses of the reference frequency. The input of the generator 711 of the torus 29 is connected to the first output 18 of the control unit. In coitro phase shift, the first output 27 of the generator is connected to one of the second inputs 26 of the switch. The frequency of the pulses at this output is 18 kHz, i.e. one period of the generator signal corresponds to one electric degree when the power is supplied by a voltage of 50 Hz. When monitoring the pulse duration 1, a second generator output 28 is connected to another of the second switch inputs 26. The frequency of the pulses at this output is 10 times greater than that of the first output 27. The state of the counter 30 converts with the decoder 31 through the second group of inputs of the control unit and the second group of outputs 8 is connected to the display unit 4. At the same time, the number of the channel being checked and the digital evaluation of the results of the monitoring are highlighted in the display unit, measured in electrical degrees, which indicates that the pulses and the phase shift of the channel are within amplitude, tolerance limits. After the next count, the switch 25 does not respond to the subsequent signals until a reset signal is received at its third input 32, which appears when switching to control of the next channel. The reset signal from the third additional output 19 of the control unit sets the switch 25 to the initial position, and also zeroes the counter 30. The control unit operates as follows. The control command is sent via the first control input 10 (Fig. 2, which starts the clock pulse generator 33, generating pulses at its output, triggering the counter 34, the bit of which is equal to the number of monitored channels. The counter is made on integrated circuits of the type K15IE5. From the counter outputs the signals arrive at the control inputs of the first 35. and second 3 selector-multiplexers made on the K.155KP1 elements. The first section: the lecture-multiplexer 35 performs alternate connection to the outputs 6 of the output control unit signals SIFU 5, and the second selector-multiplexer 36 alternately connects the output 17 of the control unit corresponding to the signals 5 synchronization pulses 9. Channel switching takes place according to the clock operation of the clock pulse generator 33. signal generation at the second additional output 18 of the control unit is performed using the first and second Triggers 37 and 38. When monitoring the Phase Shift, the Phase Shift command is sent to the second control input 11 of the control unit, according to which the first trigger 37 is set to the zero state. The signal from the output-generator 33 clock pulses sets at the output of the trigger 37. The level of the logical unit, which through the element OR 39 goes to the first output 18 of the control unit and through the second group of outputs 8 of the control unit to the display unit 4. 12 control receives the Duration command, which sets the logic zero level at the output of the second trigger 37, and the signal from the generator output 33 - the logic level, which through the OR 39 element goes to the first output The control unit 18 and the display unit 4. Thus, at the first output 18 of the control unit; Depending on the commands received at the second 11 and third 12 control inputs, a signal is generated that arrives at block 3 of the measurement of the parameters of pulses (Fig. 1) and controls the operation of the generator 29 of the pulses of the reference frequency (Fig. 1). Information about the number of the controlled channel from the outputs of the counter 34 enters the operational sartoMHHaidjitee: device 40, which is made on; integrated circuits K155RU2. In addition, through the second group of inputs 7 of the control unit, information from the outputs of the parameter measurement unit enters the RAM inputs. Writing to the operational memory 40 is effected by a signal from the output of the standby multivibrator 41, which is triggered by a pulse from the output of the first selector-multiplexer 35. The amplitude is indicated by the third trigger 42. The signal of the logical unit from the generator 33 output is fed to the installation of the third trigger 42, set at the output level of the logical unit. If the amplitude of the pulses is within the tolerances, then the second input TpeTiiero triggers 42 from the output of the threshold block through the fourth input 16 of the control unit receives a logic zero level that does not change the state of the trigger 42. If the amplitude of the pulses exceeds the limits of tolerances, the output the threshold block is formed by the level of the logical unit, which through the input 16 is fed to the second input of the third trigger 42 and installed on the state. it changes its zero to its output logic level coming to the display unit 4. The proposed device makes it possible to determine whether the output pulses of the converter control blocks are within amplitudes of the output pulses and measure the shear angles of the controlled channels with an accuracy of: 1 el. Trad., The duration of the monitored pulses - with an accuracy of 0.1 el. hail The measurement accuracy determined by the frequency of the reference oscillator can be increased if necessary. Analog operations are excluded in the device, which increases its accuracy and increases the reliability of control. Within the counter capacitance, the device can monitor and measure any pulse durations and phase shifts, and the dp measurement measurement when changing to other tolerances is enough to change the program of the control unit, or.

tsh-pc

Claims (1)

DEVICE FOR MONITORING THE PERFORMANCE OF PULSE-PHASE CONTROLLERS OF SYSTEMS OF CONVERTERS, comprising a control unit, the first group of inputs of which is intended to be connected to the outputs of the i-phase control system, the first group of outputs is connected to the inputs of the threshold unit, the second group of outputs is connected to the display unit, and the second group of outputs the inputs are connected to the outputs of the pulse parameter measuring unit, characterized in that, in order to expand the functionality and increase the reliability of the control, a pulse former is introduced, the pulse parameter measuring unit is made in the form of a switch, a switch, a counter, a decoder and a pulse generator, the control unit is made in the form of a clock pulse generator, counter, first and second multiplexers, first, second and third triggers, an OR element, RAM and standby multivibrator and is equipped with first, second and third inputs designed to connect the command dial, the fourth input and the third group of inputs, before Assigning to connect to the inputs of a pulse-phase control system, and first and second outputs of the third group of outputs, wherein the outputs of the threshold unit connected to the fourth input of the control unit and the inputs of the pulse _shaper; ? “? whose ^{odes are} connected to the first and second inputs of the switch, the third input of which is connected to the third group of outputs of the control unit, and the outputs are connected to the first inputs of the switch, the second inputs of which are connected to the outputs of the pulse generator, and the output is connected to the input of the counter, the outputs of which are through the decoder connected to the second group of inputs of the control unit, the first output of which is connected to the input of the pulse generator, and the second input to the reset input of the counter and the third input of the switch, while the first input of the control unit Nia connected to the input clock pulse generator kotorogb output is connected to first inputs of flip-flops, the second output of the control unit and the input of the counter of the control unit, the outputs of which are connected to the control inputs of the first and second selectors multiplexers, data inputs of which are connected respectively with the first _(and third groups inputs of the control unit, and the outputs, respectively, with the first and third groups of outputs of the control unit, the second inputs of the first, second and third triggers are connected respectively to the second , the third and fourth inputs of the control unit, the outputs of the triggers are connected to the second group of outputs of the control unit, the inputs of the OR element are connected to the outputs of the first and second triggers, its output is connected to the first output of the control unit, the inputs of the random access memory are connected to the outputs of the counter of the control unit, the second group of inputs of the control unit and the output of the standby multivibrator, the input connected to the output of the first selector-multiplexer, and the outputs of random access memory are connected to the second uppoy output control unit.