SU1598031A1 - Device for diagnosis of of systems of pulsed-phase control of thyristor converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used to control the phase, duration and amplitude of control pulses of thyristor converters. The purpose of the invention is to expand the functionality and increase the reliability of the control. For this purpose, an additional adjustable reference source and amplitude measurement node, included in the measuring unit, made in the form of a shift register, the output of which is connected to the decoder by means of circuits consisting of two successively connected groups, are introduced into a diagnostic device made on digital microcircuits. elements and triggers. 3 il.

Description

The invention relates to electrical engineering and can be used to control the phase, duration and amplitude of control pulses of thyristor converters.

The purpose of the invention is to expand the functionality and increase the reliability of the control.

FIG. 1 shows a functional diagram of the device; in fig. 2 is a functional block diagram of the control unit; in fig. 3 - timing diagrams for the operation of the device.

A device for diagnosing pulse-phase control systems of a thyristor converter contains a control unit 1, the information outputs 2 of which are connected to the display unit 3.

the first 4 and second 5 groups of inputs are connected respectively to the outputs of the synchronization unit of the pulsed-phase control system (SIFU) and SIFU, the input 6 of the start signal of the control operation is connected to the output of the control operation start block, input 7 of the control of the pulse phase control is connected to the output of the control task block the pulse phases, the input 8 of the control pulse duration control is connected to the output of the pulse width control setting block, group 9 and an additional group of 10 information inputs are connected to the outputs 11 and 12 of the node 13 tim timing (phase and duration) and measuring unit 14 unit 15 measuring the pulse amplitude, phase output 16 a control signal and is connected to the length 00 th upsl

about

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the equalizing input 17 of node 13, the output 18 of the synchronization signals of the control is connected to the synchronization inputs of 19 and 20 nodes

13 and 14, the output 21 of the reset-start signals is connected to the installation inputs 22 and 23 of the nodes 13 and 14, and the output 24 of the SIFU signals is connected to the input of the threshold element 25 with a variable response threshold, the auxiliary input of which is connected to the output of the adjustable source 26 of the reference signal, the control outputs 27 are connected to the control outputs 28 of the node 14, and the output of the threshold element 25 is connected to the information input 29 of the node

14 and to the input of the driver 30 pulses, the outputs of which are connected to the information inputs 31 and 32 of node 13.

Control unit 1 contains a generator of 33 clock pulses, one input of which is connected to input 6, the other to one of the inputs of the first group of four inputs, and the output to the input of the first counter 34 whose outputs are connected to control inputs of a random access memory (RAM) 35 and the first 36 and second 37 multiplexers, the information inputs of which are connected respectively to the second 5 and first 4 groups of inputs, and the outputs to the outputs 24 and 18 of the control unit. The output of the multiplexer 36 is connected to the reset input of the second counter 38, the clock input of which is connected to the output of the generator 33, and the output to the input of the RAM 35. The clock inputs of the first 39. and the second 40 triggers are connected to the output of the generator 33, their installation inputs are respectively to the inputs 7 and 8 of the control unit 1, and the outputs to the information outputs 2 and the inputs of the element OR 41, the output of which is connected to the output 16 of the unit 1.

The time measurement unit 13 contains a switch 42, the inputs of which are connected to the inputs 17,19 and 32 of the node 13, and the output to the first input of the switch 43, the second input of which is connected to the input 31, the third to the input 22 of the node 13, and the fourth to the output of the generator 44 of the reference frequency controlled by a signal from input 17 of node 13. The output of switch 43 is connected to a clock input of counter 45, the setup input of which is connected to input 22 of node 13, and the outputs to inputs of a decoder 46 whose outputs are connected to outputs 11 knots la 13.

Pulse amplitude measurement node 14 contains an n-shift shift register 47, the first input of which is connected to input 20, the second input to input 23 of node 14, and outputs to the inputs h of channels 48.1-48.P signal transmission, the first of which contains the input

element 49.1, ..., 2 ... P, the first input of which is input 50.1, ..., 2, ..., n, of the corresponding channel, the second input is connected to input 29 of node 14, and the output to

the clock input of the input trigger 51.1 ,, 2, ... n, the setup input of which is connected to the input 23 of node 14, and the output to the first input of the output element I 52.1, ..., n, the second input of which is connected to the input 50.1

0 of this channel, and the output is to the clock output trigger 53.1,, 2 ... n, the setup input of which is connected to the input 23 of node 14, the synchronization input of the trigger 53.1 from the first to (n-1) -th channel 48.1 is connected to the input 50.1 from the second to the n-th channel 48.1, and the outputs of the trigger 53.1 are connected to the control outputs 28 of the node 14 and to the inputs of the decoder 54, the outputs of which are connected to the outputs 12 of the node 14.

0 The adjustable source 26 of the reference signal can be made as a digital-analog converter on an R-2R n-bit matrix, which converts the input binary n-bit code into a current,

5 is connected in series with an operational amplifier converting the current into an output voltage according to the expression

p - NI, Un - -, and max

NMBKC

0 where Ymax is the maximum code value;

Umax The maximum value Un, corresponding to Ymax.

The device works barely blown by the MS.

5 Controlled pulses are sent to the inputs of the control unit 1, which through the threshold element 25 arrive at the nodes 13 and 14 of the measurement unit 15, through the shaper 30 - at the time measuring node 13

0 parameters (phase and duration) and directly to the amplitude measurement node 14.

The digital evaluation of the control results is highlighted in the display unit 3. Through

5, the second group of 5 inputs connected with the SIFU outputs, the control unit 1 carries out alternate connection of the SIFU output signals to the output 24 connected to one of the inputs of the threshold element 25.

50 Through groups 9 and 10 of the information inputs and {. Information outputs 2, the control unit 1 transmits information about the control results to the display unit 3. Synchronization pulses associated with

The 55 inputs of a SIFU through the first group of 4 inputs are formed at the moments of zero crossing of the supply voltage of the converter. To the inputs 6-8 of the control unit 1, respectively, Control commands are given. Phase shift, Duration.

The control unit operates as follows. Via the input of group 5, the control command is sent, which starts the generator of 33 clock pulses, synchronized with the network, forming at its output pulses that trigger the counter 34, the bit of which is equal to the number of monitored channels. From the outputs of counter 34, signals are fed to the control inputs of the first 36 and second 37 multiplexer selectors. The first selector multiplexer 36 alternately connects to output 24 of control unit 1 of SIFU output signals, and the second selector multiplexer 37 alternately connects to output 18 of control unit 1 corresponding synchronization pulses. A synchronization signal corresponding to the impulses of rectified network voltage is fed to the generator input 33 clock pulses. Switching channels occurs on the clock of the generator 33 clock pulses.

The formation of the signals at the output 16 of the control unit 1 is carried out using the first 39 and second 40 flip-flops. When the phase shift is monitored, the command Phase shift is sent to the input 7, according to which the first trigger 39 is set to the zero state. The output signal from the clock pulse generator 33 sets the output of flip-flop 39 to the level of a logic unit, which through the OR 41 element is output to the output 22 of the control unit 1 and through the information outputs 2 of the control unit 1 to the display unit 3. When monitoring the pulse duration, the Duration command is sent to input 8, which sets the output level of the second flip-flop 40 to logical zero, and the output from the generator 33 to the logic level, which through the OR 41 element goes to output 16 of control unit 1 and to display unit 3 . Thus, at the output 16 of the control unit 1, depending on the commands received at the inputs 7 and 8 of the control unit 1, a signal is generated, which arrives at the time measurement unit 13 (phase and duration).

Information about the number of the monitored channel SIFU from the outputs of the counter 34 enters the RAM 35. In addition, through groups 9 and 10 of the information inputs of the control unit 1, the inputs of the RAM 35 receive information from the outputs of the nodes 13 and 14 of the pulse parameter measurement unit 15. The control results are written to RAM 35 by a signal from the output of counter 38, which counts (n + 1) the controlled pulse of the output of the first selector-multiplexer 36, where n is the size of the shift register 47 in 5 node 14 of the measurement unit 15.

In the process of monitoring, at the entrance of the threshold element 25, a controlled impulse appears, which arrives at

10 a pulse generator 30 connected by the outputs to the time measurement unit 13 (phase and duration). At one of the outputs of the pulse driver 30, a signal is generated along the front

15 to the front of the controlled pulse, and at the other output - on the falling front of the controlled pulse. At the output 18 of the control unit 1, associated with the inputs 19 and 20 of the nodes 13 and 14 of the measurement unit 15, a synchronization signal is generated when pulses appear in the first group 4 of the inputs of the control unit 1. At the output 16 of the control unit 1, a signal is generated depending on the control signal at inputs 7 and 8. At

25, a second output 21, connected to the inputs 22 and 23 of the nodes 13 and 14 of the pulse parameter measurement unit 15, produces a reset-start signal.

When measuring the time parameters (duration phase), the switch 42, when monitoring the pulse phase, connects to its output a signal from the output 18 of the control unit 1 (synchronization signal), and when measuring the duration

5 pulses - a signal from input 32 of node 13. on which a signal is formed on the trailing edge of the monitored pulse. The switch 42 is controlled by a signal from the output 16 of the block 1 of the set of 0.

The second input of the switch 43 receives a signal from the input 31 of the node 13, generated by the block 30 on the positive front of the monitored pulse, and the first

5 input signal from the output of the switch 42. These signals determine the time interval during which the switch 43 transmits to its output signals from the output of the generator 44 of the reference frequency, which in the mode

0, the phase measurements are 18 kHz, and in the 180 kHz measurement mode. The counter 45 counts the pulses from the generator 44 and transmits the result to the decoder 46. After the next countdown

5, the switch 43 does not respond to subsequent signals until a reset signal from output 21 is received from control unit 1 at its input, which also resets counter 45.

The pulse amplitude measurement unit 14 operates as follows. The triggering pulse generated at the output 21 of the control unit 1, writes G at the output of the n-bit shift register 47 connected to the input 50.p of channel 48.p, sets the triggers 51.1 into G. 53.p and in O triggers 53.P-1 ... 53.1 (in FIG. 3, taken n - 4). The output signals of the trigger 53.1 ... 53.P. (Fig. 3) form a n-bit binary code. which is transmitted to the inputs 27 of the adjustable source of the threshold signal. Thus, after the arrival of a triggering pulse, an n-bit binary code with a unit in the higher order is generated at the output group 28. This code in block 26 is converted into a trigger level signal of element 25.

If the amplitude of the monitored pulse is higher than the set threshold level, then at the first inputs of the elements 41, a pulse appears that sets the trigger 51.p to the state O (Fig. 3). Otherwise, the signal at the output of the trigger 51.p does not change. At the time of arrival of the next synchronization pulse, as soon as the output of register 47 connected to input 50.p will return to O (and output 50.P-1 to 1). the output signal from the And 42.p element erases or contains in the trigger 53.n previously recorded information depending on the state of the trigger 52.p. At the same time, record 1 is made in the trigger.

53.P-1.

Next, a check is performed in the same way (n-1} th bit for matching the amplitude of the monitored pulse. This process is repeated until all the n bits are checked. After the first bit is checked, the digital code at the outputs of the triggers 53 becomes equivalent to the amplitude of the pulse being monitored. This code is decrypted by element 54.

Thus, due to the introduction of the pulse amplitude measuring unit and the adjustable reference source, the functionality is expanded and the reliability of the control of the SIFU parameters of the thyristor converters increases.

Claims (1)

Apparatus of the Invention A device for diagnosing a pulse-phase control system of a thyristor converter, comprising a control unit implemented on two multiplexers, two counters, two triggers, an OR element, a random access memory, and a clock pulse generator, one input of which is used as an input of the operation trigger signal control unit control, another entrance under 5 1 It is connected to one of the inputs of the first group of inputs of the control unit, intended to be connected to the outputs of the synchronization unit of the pulse-phase control system. and the output is used as an output of the reset-start signals of the control unit and connected to the input of the first estimator, whose outputs are connected to the corresponding inputs of the random access memory and the first and second multiplexers, the other inputs of which form the first and second signals of the control unit, the last which are designed to be connected to the outputs of the pulse-phase control system, and the outputs of the multiplexers are used as outputs of synchronization signals and pulse-phase control systems and the last of which is connected to the reset input of the second counter, the output of which is connected to the input of the random access memory, and the clock input is connected to the output of the first counter, also connected to the clock inputs 5 of the first and second triggers, the setting inputs of which are used respectively as job inputs control of the duration and control of the phase of the control unit, and the outputs used together with the 0 outputs of the random access memory as information outputs of the control unit, connected to the inputs of the OR element, the output of which is used as an output of the control signals for the phase and duration of the control unit connected together with the outputs of the synchronization signals and the reset signals of the control unit respectively to the control, synchronization and installation inputs of the measuring unit time parameters (phase and duration) of the measurement unit, the outputs of which are connected to the group of information inputs of the control unit connected to the corresponding inputs of the random access memory the control unit, whose information outputs are connected to the display unit, and the output of the signals of the pulse-phase control system is connected to the 50th input of the threshold element, the output of which is connected to the input of the pulse generator, the outputs of which are connected to the information inputs of the measuring unit time parameter of the measuring unit, 55 that, in order to expand the functionality and increase the reliability of the control, it is equipped with an adjustable reference signal source, the threshold element is supplied with telny entrance and completed variable response threshold, the measurement unit is equipped with a pulse amplitude measurement unit, and the control unit is equipped with an additional group of information inputs, formed accordingly. by the operating inputs of the random access memory, connected to the outputs of the measuring unit of the amplitude of the pulses of the measuring unit, performed on the n-bit shift register, n signal transmission channels, each of which includes two elements I. two triggers and a decoder, the outputs of which are used as outputs of the node measuring the amplitude of the pulse, and the inputs are connected to the output of the output trigger of each signal transmission channel, forming a group of control outputs of the measuring unit of the amplitude of the pulses connected to the inputs control of the adjustable reference source, the output of which is connected to the auxiliary input of the threshold element, the first input of the shift register is used as a clock input of the pulse amplitude measurement unit and connected to the output of the control unit's synchronization signals, the second input of the shift register is connected to the setup input of the measurement node the amplitudes of the pulses and to the output of the reset-start signals of the control unit, and the outputs of the shift register are connected to the first inputs of the input and output elements each channel, the second input of input AND gates used as the information input node measuring the amplitude of the pulses and is connected to the output of the threshold element, and the output of the second element AND of each channel is connected to the clock input of the input trigger of this channel, the setup input is connected to the installation input of the node measuring the amplitude of pulses, and the output is connected to the second input of the output element AND of this channel whose output is connected to the output clock input trigger of this channel, the setup input of which is connected to the setup input of the pulse amplitude measurement node, and the synchronization input of the output triggers of the signal transmission channels from the first to (n-1) -th is connected to the outputs of the shift register from the second to the n-th, respectively. five FIG. 2