SU1108555A1 - Device for checking control system of converter - Google Patents

Abstract

A DEVICE TO CONTROL THE CONTROL SYSTEM OF THE INVERTER, powered by a three-phase AC network, contains a three-phase transformer connected in a triangle-star with zero circuit, the first DC power source and the same channels by the number of phases, each of which includes a main transistor, the base connected to the output of the secondary winding of the transformer of the corresponding phase, and the emitter to the positive pole of the first DC source and the zero output of the secondary winding of the transformer, the first and the second main resistors, two thyristors, the cathodes connected to the negative pole of the first DC source, the anode of the first thyristor through the third main resistor, the main capacitor and the main switch connected to the second thyristor of the third main resistor and the main capacitor connected to the cathode of the diode, the anode of which is connected to the control electrode of the first thyristor, characterized in that, in order to expand the functionality, it is introduced by the number of phases an additional transistor, a capacitor, seven resistors and a switch, a rectifying bridge on four diodes, a second DC source and a switch to four groups of contacts, with the main collector} of the south transistor in series with the first main resistor and the first additional, the resistor is connected to the anode of the first thyristor, and through the series-connected second main resistor and the second additional resistor to the anode of the second thyristor, to the common point of the first main and ne The first output of the third dopal of the resistor is connected to the secondary resistor, the second output of which is connected to the common point of the second main and second additional resistors, and the conclusions of the third (L additional resistor serve as outputs of the device, the anode of the second thyristor through a series-connected additional switch and the cathode of the second thyristor, an additional transistor through the locking contact of the first group of switches by the base oak E is connected to to the positive output of the corresponding channel of the control system by the inverter, and through the closing contact: j of the second group of switches to the negative output of the same channel of the system; d the converter, the emitter is connected to the negative pole of the second DC source, and the collector through an additional capacitor - to the first input of the rectifying bridge, the second input of which is connected to the positive pole of the second DC source and the common point of the chain from the series Dineshp 1x p And more additional resistors connected in parallel with an additional capacitor, negative output of the rectifying bridge through the circuit

Description

The third contact of the switch is connected to the negative pole of the first DC source, and the positive output of the rectifying bridge through the fourth contact of the fourth switch is connected to the control electrode of the first thyristor on the anode of the diode, the control electrode of the first thyristor through a series of disconnecting contacts of the first and The fourth group of switches is connected to the positive terminal of the converter control system, the control electrode of the second thyristor es seventh resistor dopolnitelshly - - to its cathode, and the cathodes of the two thyristors connected in series through the break contacts of the second and third groups of switches - to the negative terminal of the converter control system.

 The invention relates to electrical engineering and can be used to control and set up control systems for valve converters. A device for controlling a converter control system is known, comprising a three-phase transformer connected in a delta-star with zero, a DC source and the same channels in the number of phases, each of which consists of main and auxiliary transistors, the bases of which are connected to the secondary winding of the transformer , and emitters - to the positive pole of a DC source, a thyristor connected in series with the main transistor, a high-voltage cell and a variable resistor to the negative. the common pole of the constant current source is an additional series-connected resistors connected in parallel to the capacitor, the common point of the resistors is connected to the thyristor cathode and the negative pole of the direct current source, and the output of the pulsed-phase control system is connected via the capacitor and contact of the control button to the collector of the additional transistor diode - thyristor control electrode 11 Failure of the last device - impossibility to control the double pulses and their duration lnosti. The closest to the technically proposed effect achieved is a device for controlling a system for controlling a converter powered from a three-phase AC network containing a three-phase transformer connected in a delta-star with zero, a DC source and the same channels according to the number of phases , each of which includes a transistor, a base connected to the output of the secondary winding of the transformer of the corresponding phase, and an emitter - to the positive pole of the source} The scale of direct current a and zero output of the secondary winding of the transformer, the first and second; Resistors, two thyristors, cathodes connected to the negative pole of the DC source, the anode of the first thyristor through a series of 1P, 1e third resistor, capacitor and switch connected to the control electrode of the second thyristor, common point of the third resistor and capacitor connected to the cathode of the diode, the anode of which connected to the control electrode of the first thyristor 2. A disadvantage of the known device is the inability to control the duration of the control pulses on the converter valves. The purpose of the invention is to enhance the functionality by allowing control of the pulse width control. The goal is achieved by the fact that in devices for control of a system controlled by a converter, which is powered by a three-way AC network toKa, contains a three-phase transformer connected in a three-star zero-star circuit, a first DC source and the same channels by the number of phases, each of which includes The main transistor, the base connected to the output of the secondary winding of the transformer of the corresponding phase, and the emitter - to the positive pole of the first DC source and the zero output of the secondary second transformer, the first and second base resistors, two thyristors, the cathodes are connected to the negative pole of the first DC istoch1shka, the anode of the first thyristor Th

The third primary resistor, the main capacitor and the main switch connected to the control electrode of the second thyristor are cut in series; the common point of the third main resistor and the main capacitor is connected to the cathode of the diode, the anode of which is connected to the control electrode of the first thyristor; , a capacitor, seven resistors and a switch, a rectifying bridge on four diodes, a source of direct current and a switch to four groups of contacts, the main transistor The first primary resistor and the first additional resistor are connected to the anode of the first thyristor through the series, and the second main resistor and the second additional resistor to the anode of the second thyristor, the common point of the first main and first additional resistors are connected to the common point of the first main and first additional resistors the second output of which is connected to the common point of the second ocHOBiroro and the second additional resistors, and the conclusions of the third additional resistor serve as outputs of the device, anode of the second thyristor through an additional key connected in series and a fourth additional resistor connected to the cathode of the second thyristor, an additional transistor through the closing contact of the first switch group is connected to the positive terminal of the corresponding channel of the converter control system, through the closing contact of the second switch group to the negative terminal of the same channel of the converter control system, the emitter is connected to the negative The voltage of the second DC source, and the collector through an additional capacitor capacitor - to the first input of the rectifying bridge, the second input of which is connected to the positive pole of the second DC source and the common point of the chain from the series-connected fifth and second additional resistors connected in parallel with the additional the capacitor, the negative output of the rectifying bridge through the closing contact of the third group of the switch is connected to the negative pole of the first constant source current, and the positive output through the closing contact of the fourth switch of the switch to the control electrode of the first thyristor and the diode anode, the control electrode of the first thyristor through the serially connected disconnecting contacts of the first and fourth groups of the switch, is connected to the positive terminal of the converter control system, the control electrode of the second thyristor through the seventh additional resistor - to its cathode, and the cathodes of both thyristors through sequentially connected break contacts and third group of switch - to a negative vgeodu converter control system.

FIG. 1 shows a device diagram

to control the converter control system; in fig. 2 - voltage diagrams.

The device for controlling the transducer system 1 contains a three-phase transformer 2, connected in a delta-star with zero scheme, the first DC source 3, the positive pole of which is connected to the zero side of the secondary winding of the transformer, the second DC source 4 and the same channels the number of phases, each of which consists of a main transistor 5, the base connected to the output of the secondary winding of the transformer 2 corresponding

phase, and the emitter - to the positive pole of the source 3 of direct current and zero output of the secondary winding of the transformer 2. The collector of the transistor 5 through a series connected first primary

the resistor 6 and the first additional resistor 7 are connected to the anode of the first thyristor 8 and through the series-connected second main resistor 9 and the second additional resistor 10 to the anode of the second thyristor 11. A third additional resistor 12 is connected to the common point of the first main and first 7 auxiliary resistors The second pin of which is connected to the common point of the second main 9 and second additional 10 resistors, and the conclusions of the third additional resistor 12 serve as the output of the device. The anode of the second thyristor 11 is connected in series with an additional switch 13 and the fourth additional resistor 14 connected to the cathode of the thyristor 11. The anode of the first thyristor 8 through the series-connected third main resistor 15, the main capacitor 16 and the main switch 17 is connected to the driver

the electrode of the second thyristor 11. General to-. A resistor 15 and a capacitor 16 are connected to the cathode of the main diode 18, the anode of which is connected to the control electrode of the first thyristor 8.

The control electrode of the thyristor 8 is connected via series-connected break contacts of the fourth 19 and first 20 groups of switch 21 to the positive terminal of the corresponding channel of the converter control system 1. The negative output of this control system channel is connected via serially connected secondary contacts of the second 22 and third 23 rpyinr switch 21 connected to the cathodes of thyristors 8 and 11. Additional transistor 24 is connected to the negative pole of the additional DC source 4 and through the make contact of group 22 of the switch 21 to the negative terminal of the converter control system 1. The base of the transistor 24 is connected via the closing contact of the group 20 of the switch 21 to the positive terminal of the control system 1, and the collector through the additional capacitor 25 to the first input with rectifiers. 26 of the four diodes 2730, the second input of the bridge 26 is connected to the positive pole of the direct current source 4 and the common point of the chain of the 31 and sixth 32 additional resistors connected in series, which is connected in parallel to the capacitor 25. The positive pole of the rectifying bridge 16 through the closing contact of the fourth group 19 of the switch 21 is connected to the control electrode of the thyristor 8 and the anode of the diode 18, and the negative pole of the rectifying bridge 26 through the closing contact of the third group 23 will switch L 21 - to the cathodes of the thyristors 8 and 11 and the negative pole of the source 3, the control zlektrod thyristor 11 through the resistor 33 is connected to its cathode. FIG. 2 shows voltage daagrams, where E is the anodic voltage of phase A, cL is the control ANGLE, U is the control impulse of the converter control system 1 (Fig. 1), C ,, fl N the L / R points of the source current and potential difference in the same mm - the voltage on the collector voltage of the transistor 24 (at point K, Fig. 1), the voltage across the resistor 32 (at point D, Fig. 1), Ug - voltage, rectifier output bridge 26, Uiv (, l / iv, g (Mft are the distances of the points M and N relative to the opposite pole of the source 3 times the current To and a The indexes correspond to the first position of the switch 21 (as shown in Fig. 1), and the slots 2 to the other position of the switch 21 The device for controlling the converter control system works as follows. Sinusoidal voltage The base of transistors 5 is sinhogshzirovano with the anode voltage of the converter. The system.I control generates dual pulses shifted relative to each other, for example, by 60 el. hail. The load of transistor 5 is a bridge formed by elements 6-11. The output of the device is a resistor 12, on) W into the diagonal of the bridge. The bridge is balanced so (with open key 13), that with equal currents flowing through elements 6-8 and 9-11, among themselves, the potential difference of the points at the points Mjv / is zero. When the key 13 is open, the current through the elements 6-7 and 9-11 flows only when the transistor 5 and the thyristors 8 and 11 are simultaneously open, i.e. when the base of the transistor 5 is applied negatively voltage and simultaneously, the control pulses to thyristors 8 and 11, coming from the system 1 of the pulse-phase control. In order to measure the phase shift of the control pulse of the converter control system (i.e., the adjustment coils ot the key 13 is closed, the key 17 is opened, the switch 21 is set to the first position. (As shown in Fig. 1). The resistance of the resistor 14 is set equal to the open thyristor resistance 11. When the key is closed, 13 and the currents flowing through the elements 6-8 and 9, 10, 13 and 14 are equal to each other, since the thyristor 8 opens with a control pulse at the beginning of the negative anode voltage period and the thyristor I shunt resistor 14. At the same time, the potential difference in points of M and N. is 0. At O 0 180 the current flows through the elements 9, 10, 13 and 14 during the entire Half-Period, and through elements 6-8 only from the moment of arrival of the control pulse from the system 1 control until the end of the half-period. Since sreshshe the values of currents in the branches x, formed by elements 6-8 and 9, 10, 13 and 14, in this case are not equal to each other, the average values of the potentials of the points M and N are also not equal, moreover, the potential difference Od ,, (FIG. 2) will be proportional to the difference in average currents in branches x over a period (or the difference in durations of current flow in branches x formed by elements and 9, 10, 13, and 14). those. control angle cl. The arrival of the second of the double pulses does not change the state of the circuit, since the key 17 is open. Thus, the phase shift of the control pulse of the converter control system relative to the anode voltage (i.e., the control angle c) is determined by the average value; for example, w) at the output of the device (resistor 12). While measuring the duration of the control pulse of the switch 21 is set to a different position, the key 13 is opened, the key 17 is closed. In this case, the base of the transistor 24 receives dual positive control pulses U, - the converter control system 1, shifted relative to each other, for example, by 60 el. hail. When the first of the dual pulses U is received at the collector of the transistor 24, a pulse is formed (J (rectangular shape (Fig. 2)) whose duration is equal to the control pulse U, Pulse U (then differentiated by an RC chain consisting of elements 25 and 32 The pulses obtained after differentiation and (Fig. 2) are rectified by rectifying bridge 26 and, through closing contacts 19 and 23 of switch 2.1, are sent to the control electrode of the thyristor 8. When the second of the double pulses U | is shifted relative the first at 60 e. degrees, a second impulse U (shifted relative to the first one by 60 °) is formed on the collector of the transistor 24, which is then differentiated by an RC value consisting of elements 25 and 32. Two more pulses received after differentiation are rectified rectifying bridge 76 and through the closing contacts 19 and 23 of the switch 21 are fed to the control electrode of the thyristor 8. Thus, during the half-period of the anode voltage, the control electrode of the thyristor 8 from the rectifying bridge 26 receives two pairs of pulses Ug, with a shift between in pairs of 60 e. hail, and the phase shift between pulses in a pair is equal to the pulse of control impulse U ,. While the thyristor 8 is closed, the diode 18 has a reverse bias, equal to the voltage of the DC source 3. The first of the differentiated pulses Ug (Fig. 2, shifted relative to the anode voltage E at a certain angle cL, will open only the thyristor 8 and the potential of the point M increases to the value Uf. Through the thyristor 8 and the resistor 15 and 33 is discharged, the coil sensor 16, thus preparing for switching on thyristor 11. When the second pulse arrives (Jg the open state of thyristor 8 does not change, and thyristor 11 opens, which leads to an increase in the potential of point N to the value U, (Fig. 2). Second pulse Up, is shifted relative to the first by 60 e grad. A nit of 5-8 of the circuit (potentials of points M and H), since the thyristors 8 and I are already opened by the first pair of pulses, Thus, the average difference of the differences of U / wfij is proportional to the phase shift} between differentiated patterns (JA Ce ,) the first bunker, i.e. the control pulse duration. When the voltage polarity changes at the base of transistor 5, it lights up, and the thyristors 8 and I are locked together with it. To control the presence of double 1px pulses, the switch 21 is set to the first position (as shown in FIG. 1), the key 13 is opened, the key 17 is closed. In this case, the first of the double pulses opens the thyristor 8. For evil 6–6, 9 and 12 current will flow, the notational of point N will increase and its value will remain until the end of the half period (i.e. until the thyristor 8 is open). ). The capacitor 16, previously charged by shn1 before the voltage of the power source 3 along the emitter-collector circuit of transistor 5 — series-connected resistors 6, 7, 15 — key 17, resistor 33, discharges across the circuit; resistor 15 — open thyristor 8 — resistor 33 and the same thing. The 1 m will prepare thyristor 11 for switching on. The second of the dual and tulsov will open the thyristor 11, do not change the open state of the thyristor 8. At the same time, current will flow through elements 9-11 and the potential of point N will increase up to the value of the P signal of point M. 12 will be equal to zero, the difference between the masters at the points M and N will also become zero and until the end izmegops polunerioda. Thus, the potential difference between the points M and N (the current through the resistor 12) appears only during the time between the first and the second of the second pulses. The decrease in the average value of the difference between the transients between the points M and N (or the average current through the resistor 12) when the switch 17 is closed (with a constant angle o1) indicates that the second of the double pulses was 1. If, however, the potential difference does not decrease when the switch 17 is closed, then only one impulse comes from the control system. Thus, the device allows the characteristics of the converter control system to be reduced at the same time on all channels. limit the asymmetry of control pulses, control the presence of dual pulses of the control system and their duration.

The application of the invention allows to extend the functionality of the device for controlling the control system.

converter by controlling the duration of the control pulses.

sri & 1

Claims (1)

DEVICE FOR MONITORING THE CONTROL SYSTEM OF THE CONVERTER, powered by a three-phase AC network, containing a three-phase transformer connected by a star-delta circuit with zero, the first direct current source and the same channels by the number of phases, each of which includes a main transistor connected to the base to the output of the secondary winding of the transformer of the corresponding phase, and the emitter to the positive pole of the first DC source and the zero output of the secondary winding of the transformer, the first and W main resistors, two thyristors, cathodes connected to the negative pole of the first direct current source, the anode of the first thyristor through the third main resistor connected in series, the main capacitor and the main switch connected to the control electrode of the second thyristor, the common point of the third main resistor and the main capacitor connected to the cathode a diode, the anode of which is connected to the control electrode of the first thyristor, characterized in that, in order to expand the functionality, it introduces the number of phases includes an additional transistor, a capacitor, seven resistors and a key, a rectifier bridge with four diodes, a second DC source and a switch for four groups of contacts, the collector of the main transistor connected through the first main resistor and the first additional resistor connected to the anode of the first thyristor, and through the second main resistor and second additional resistor connected in series to the anode of the second thyristor, to the common point of the first main and first additional The first output of the third additional resistor is connected to the resistors, the second output of which is connected to the common point of the second main and second additional resistors, the outputs of the third additional resistor being the device outputs, the anode of the second thyristor through an additional key connected in series and the fourth additional resistor connected to the cathode of the second thyristor , an additional transistor through the make contact of the first group of the switch base connected to the positive terminal with the corresponding channel of the converter control system, and through the make-up contact of the second group of the switch, to the negative terminal of the same channel of the converter control system, the emitter is connected to the negative pole of the second DC source, and the collector through an additional capacitor to the first input of the rectifier bridge, the second input of which is connected to positive Oh zo SP SP pole of the second DC power source and the common point of the chain of fifth and sixth additional resistors connected in parallel connected to the additional capacitor, the negative terminal of the rectifier bridge through the make contact of the third group of the switch is connected to the negative pole of the first DC source ', and the positive terminal of the rectifier bridge through the make contact of the fourth group of the switch is connected to the control electrode of the first thyristor and the anode of the diode, the control electrode of the first thyristor is connected through a series-connected disconnect contacts of the first and fourth groups of the switch 1108555 to the positive terminal of the converter control system, the control electrode of the second thyristor through the seventh additional resistor is connected to its cathode, and the cathodes of both thyristors are connected through the series-connected disconnect contacts of the second and third switch groups - to the negative terminal of the converter control system. lem.