SU871294A1 - Device for controlling thyristor converter - Google Patents

Abstract

Control pulses in a main sequence are produced initially and are passed to the thyristor converter, whose parameters are intended to correspond with defined values. The parameters are monitored via all the control channels (2, 3, 4, 5, 6, 7). If the parameters of the control pulses in the main sequence deviate from the preset values, control pulses from a spare sequence, having parameters which are identical to the preset parameters of the control pulses in the main sequence, are produced and are passed via the same control channels (2, 3, 4, 5, 6, 7). The parameters of the control pulses in the reserve sequence are monitored and the production of the control pulses in the main sequence is automatically set when the parameters of the control pulses in the reserve sequence correspond with the said preset values. The device has a main unit (8), a reserve unit (9) for producing the control pulses, and a main unit (13) and a reserve unit (12) for monitoring the parameters of control pulses, which are connected in series and to a thyristor converter (1). The method and the device can be used in exciter systems for synchronous machines and in DC electrical drives. <IMAGE>

Description

(54) DEVICE FOR CONTROL OF THYRISTOR CONVERTER

one

This invention relates to electrical engineering and can be used in thyristor converters.

A device for controlling thyristor converters is known, comprising a control pulse driver connected to a power source 1.

The known device is characterized by low reliability, since it does not provide timely and quick shutdown of the control system in case of faults in it.

It is also known a device for controlling a thyristor converter, comprising a pulse shaper connected to a power source through a switching unit, for example, a switching device 2.

The switching of the control pulse shaper to the power source through the switching unit ensures timely quick shutdown of the control system during short circuits in the power sources, but does not ensure shutdown of the control system when the control pulse parameters deviate from the set values caused by various faults in it , which leads to uneven loading of the thyristors of the converter, premature failure of the individual thyristors, and consequently, reduces the reliability of all about converter ...

The aim of the invention is to improve the reliability of a thyristor converter.

This goal is achieved by the fact that the device for controlling the thyristor converter is equipped with two flashes of pulse control, each of which consists of the output element 2I-NOT, the inverter controlling

15 2I-NOT elements and two logical blocks, each jjoTopux contains a threshold element, 2I-2ORI-NE element, 2I-NO element, two ZI-NO elements and four inverters, and the inputs of the threshold element of the first logical block are connected to the odd outputs of the control channels, and the inputs of the threshold element of the second logical unit, with even inputs of the control channels, the outputs of the threshold element. each of the logical blocks is connected to the inputs of element 2И-2ИЛИ-НЕ with the inputs of element 2И-НЕ and through three inverters with the inputs of the first element 30 ЗИ-НЕ, and the outputs of these elements are connected through the second element ЗИ-НЕ to the input of the fourth inverter, output which is connected to one of the inputs of the control element 2I-NOT, the other input of which is connected to the output of the second logic unit, the output of the control element 2I-NOT through the inverter is connected to one of the inputs of the output element 2I-NOT, the other input of the second is connected to control input n rvogopereklyuchayuschego unit and the output of the output member 2I NOR second pulse control unit, one input of which is connected to the input of the second switching unit and output the output element 2I NOR first pulse control unit.

The drawing shows a diagram of the proposed device.

The thyristor converter 1, built on a three-phase bridge circuit, is controlled by the main 2 and standby 3 control systems. Each system 2, 3 includes a shaper 4 control pulses, a switching unit .5, a block b control parameters of the control pulses.

Shaper 4 provides for the formation of pulses in each of six control channels 7, 8, 9, 10, 11, 12, of which channels 7, 9, 11 correspond to the cathode group of converter 1 (odd outputs), and channels 8, 10, 12 - anode one (even outputs).

The control pulses are synchronized with the anode voltage on the thyristors of the converter 1. The duration of the control pulses in static modes is 120 el. hail, and the phase shift between adjacent channel pulses is 60 degrees. The driver 4 is powered through block 5, which is controlled via control input from block b.

Unit 6 provides on each control channel 7, 8, 9, 10, 11, 12 a continuous control of amplitude, the duration of the order of alternation of control pulses.

The block 6 includes an output element 2I-NOT 13, an inverter 14, a control element 2I-NOT 15 and two identical logical blocks 16 and 17, each of which contains a multichannel threshold element 18, which reacts to a decrease in the amplitude of control pulses below the specified value, the elements 2I-2ILI-HE 19, 2I-NOT 20, ZI-HE 21, 22, inverters 23, 24, 25, 26, which react to the duration and order of alternation of control pulses.

Consider the operation of the circuit of the proposed device under the assumption that system 2 is in operation, while theme 3 is in reserve.

The control pulses from the odd outputs of the channels 7, 9, 11 of the system 2 are fed to the inputs of the element 18 of the block

16 (first), and pulses - from even outputs 8, 10, 12 - to the block inputs

17 (second).

In normal operation, the pulses from the outputs of element 18 of block 16 are square voltage pulses that coincide in frequency and duty cycle with control pulses. In this case, the outputs of the elements 2I-2ILI-NOT 19, ZI-NOT 21 and 2I-NOT 20 there is a logic signal unit, and at the output of the element ZI-NOT 22 a logical signal zero. In this case, the output of the inverter 23, which is simultaneously the output of the block 16 /, has a logical signal unit arriving at one of the inputs of the control element 2I-NO 15, to the other input of which a logical signal unit comes from the analogous output of the block 17. A logical signal zero arrives through an inverter at one of the inputs of output element 2И – НЕ 13, at the other input of which a logical signal is received from system 3, which is in reserve.

Thus, at the output of the output element 2I-NO 13 a logical signal zero occurs, under the action of which the unit 5 of the system 3 is in the closed state and the supply voltage to the former 4 of the system 3 is not supplied. In this case, control pulses at its outputs are absent.

When the parameters of the control pulses deviate from the specified values, the outputs of the elements 2I-NO 19, 2I-NO 20, ZI-NO 21 have logical signals zero for an odd group of channels in the following cases:

at the output of the ZI-HE element 21 in the absence or reduction of the pulse duration in the control channels;

at the output of element 2И-НЕ 20 with an increase in the duration of control pulses in channels 7 or 9 relative to each other,

at the output of element 2И-2ИЛИ-НЕ 19 with an increase in the duration of the control pulses on channels 9 or 11 relative to each other and channels 11 or 7 relative to each other /.

at the outputs of elements 2I-2IL-NOT 19 and 2I-NOT 20 with a continuous control pulse in the control channels.

Claims (2)

In the above listed cases, at the output of block 16 for an odd group of channels and at the output of block 17 for an even group there will be logic signals zero affecting control element 2I-NO 15. Cf output of element 2I-NO 15 logic signal one through the inverter 14 acts on element 13, as a result of which, at the output of the latter, a logical signal unit is formed. Under the action of this signal, the system 5 unit 5 is turned on. When control pulses appear at the outputs of the former 4 of the system 3, the output of the element 2I – NOT 13 of the block 6 has a logical signal zero, under the action of which the unit 5 of the system 2 is turned off and thereby The supply voltage is removed from the system 2. In this case, the control pulses from the outputs of the former 4 of the system 2 are removed. When the control pulse parameters deviate from the set values in system 3, the transition to system 2 is carried out similarly to that discussed above. Thus, connecting to the main control system of the control unit of pulses, which ensures control of the parameters of control impulses and when any one or several of them deviate from a predetermined value, connecting a backup control system and disconnecting the main control will improve the reliability of the converter. Claims An apparatus for controlling a thyristor converter, comprising two pulse formers with even and odd outputs of control channels, connected to a power source through switching units, characterized in that, in order to increase reliability, it is equipped with two pulse control units, each of which consists and the output element 2I-NOT, the inverter, the control element 2I-NOT, two logical blocks, each of which contains a threshold element, the element 2I-2ILI-NOT, the element 2I-NO, two elements ZI-N and four inverters, the inputs of the threshold element of the first logical block are connected to odd, the outputs of the control channels, and the inputs of the threshold element of the second logical block are with even outputs of the control channels, the outputs of the threshold element of each of the logical blocks are connected to the inputs of element 2I-2OR-NOT, with the inputs of the element 2I-NOT and through three inverters with the inputs of the first element ZI-NOT, and the outputs of these elements are connected through the second element ZI-NOT to the input of the fourth inverter, the output of which is connected to. one of the inputs of the control element 2I-NOT, the other input of which is connected to the output of the second logic unit, the output of the control element 2I-NO through the inverter is connected to one of the inputs of the output element 2I-NOT, the other input of which is connected to the control input of the first the switching unit and the output of the output element 2I-NOT of the second pulse control unit, one of the inputs of which is connected to the input of the second switching unit and to the output of the output element 2I-NOT of the first pulse control unit. Sources of information taken into account during the examination 1. Shipillo V.P. and others. Calculation of semiconductor control systems of valve converters. - M., Energie, 1966. 2. Thyristor control stand SUT-B1-1-TU2. Technical specification and operating instructions with control system SUT-VU-UCH BAG 399007TO, Technical description 1 and operating instructions SUT-V4-UCH, b 229,006TO, 1976. .J, J-. I n p-H-- ss J