SU1279033A1 - Synchronous device for controlling thyristors - Google Patents

Abstract

A SYNCHRONOUS TYRIST CONTROL DEVICE containing a control voltage source, including a phase-shifting capacitor and an adjustable resistor, two comparison nodes, each made on a two-base diode connected through a trimming resistor to a source of stable voltage, and three phase control channels, each which consists of a synchronization unit, including a single-phase transformer, the primary winding of which is connected to the corresponding phase voltage, a sawtooth generator of the voltage and the output driver, which includes an amplifier on an auxiliary thyristor connected in series with a capacitor, and a pulse transformer, the primary winding of which is connected in series with a cut-off diode, forms the input of the amplifier, characterized in that, in order to form control pulses in each channel antiphase thyristors, it is equipped with two bit transistors, the source of control voltage is equipped with a matching resistor and a transistor, the base of which is connected to To the alternate output of the adjustable resistor shunted by the phase-shifting capacitor, the synchronization unit of one channel is made on a bridge rectifier, each arm of which consists of a diode and a zener diode, and the input is connected to the secondary winding of a single-phase transformer, the synchronization blocks of the other channels are made on two opposite-connected zener diodes connected to the secondary winding 5: e single-phase transformer, the saw head voltage driver of each channel with o is made on two antiphase generator x, each of which is (n of series connected diodes and a rectifying unit forming a capacitor shunted by a chain of series-connected separation opornogr diode and a capacitor and connected between ob- N9 conductive bus and the collector commuting | transistor, the output co-amplifier: the shaper is supplied with a limiting resistor connected in parallel to the capacitor, and a load resistor connected in series with the auxiliary thyristor, to the control input of which the secondary winding of the pulse transformer is connected, and the output shaper is equipped with an antiphase amplifier made analogously to the amplifier the driver, and the output of the bridge rectifier of the synchronization unit is connected to an adjustable resistor, and through a matching cut Side - effect transistor to control a source for

Description

the springs, the ends of the chain of the rectifying diode and the forming capacitor of the generators of each channel are connected in parallel to the corresponding stabilitron of the synchronization unit of this channel, the ends of the secondary winding of the single-phase transformer of which are connected to the bases of the switching transistors of the corresponding generators, whose emitters are connected to the common bus through the appropriate bit common transistor for common-mode generators of all

channels, the junction point of the separation diode with the reference capacitor of the in-phase generators of each channel through the input of the corresponding in-phase amplifiers of this channel is connected to the emitter of the two-base diode of the reference node common to the in-phase generators of all channels, and the auxiliary thyristors of the output shaper amplifiers are connected to the source of stable voltage through the limiting and load resistors.

The invention relates to electrical engineering and can be used; for example, for controlling three-phase bridge rectifiers. The aim of the invention is the formation in each channel of control pulses of antiphase thyristors. Figure 1 is a schematic diagram of the device. The synchronous thyristor control device contains a control voltage source 1, made on a phase-shifting capacitor 2, shunted by an adjustable resistor 3, as well as a terminating resistor 4 and a transistor 5, the base of which is connected to the middle output of the resistor 3, three phase channels 6 and 7 controls. Each of which consists of a block 8 and 9 of the synchronization of the ramp saw and the output shaper. Channel 8 synchronization unit 8 is made on a single-phase transformer 10, the primary winding of which is connected to the corresponding phase voltage, and secondary - to the input of the bridge rectifier And, each arm of which consists of a diode 12 and 13 of the zener diode 14 and 15, blocks 9 of synchronization of the other channels 7 are made on a single-phase transformer 10, the primary winding of which is connected to the corresponding phase voltage and the secondary winding to two oppositely connected Zener diodes 14 and 15. Shaper sawtooth voltage for each channel 6 and 7 you is complete on two phase-opposite generators 16 and 17, each of which contains series-connected; a rectifying diode 18 and a shaping capacitor 19, shunted by a chain of series-connected separating diode 20 and a reference capacitor 21. The junction point of the plates of capacitors 19.21 and the anode of diode 18 is connected to the collector of switching transistor 22, the base of which is connected to the corresponding end of the secondary winding of transformer 10 blocks 8 and 9 synchronization. The emitters of the switching transistors 22 of the in-phase generators 16 and 17 of all channels 6 and 7 are connected to another plate of capacitors 19 and to the junction point of Zener diodes 14 and I5 of synchronization blocks 8 through the corresponding discharge transistor 23 and 24 common to all channels 6 and 7. Cathode of diode I8 is connected to the corresponding end of the secondary winding of the transformer 10, opposite to that to which the base of the switching transistor 22 of this generator 16 and 17 is connected. The output driver of each channel 6 and 7 is made on two antiphase forces bodies 25 and 26, each of which consists of an auxiliary thyristor 27 connected via 31 load 28 and limiting 29, shunted by capacitor 30, resistors to source 31. stable voltage, To the control input of thyristor 27 is connected the secondary winding of the pulse transformer 32, The primary winding of which is connected in series with lagging diode 33 is connected between the connection point of diode 20 and capacitor 21 in-phase generators 16 and 17 of all channels 6 and 7 and the emitter of the two-base diode ON, on which antiphase comparison nodes 35 and 36 The two-base diode 34 through the trimming resistor 37 is connected to the source 31. The capacitor 2 of the block 1 is connected to the output of the rectifier 1I of the block 8 of the channel 6 synchronization. The device works as follows. The sinusoidal network voltage is limited to a maximum stabilized by zones 1A and 15 of the synchronization blocks 8 and 9 and is converted into trapezoidal pulses. The voltage pulses from the Zener diodes 1A serve to control the switching transistors 22 of the generators 1 and are used to charge the capacitors 19 and 21 of the generators 17. The voltage pulses from the Zener diodes 15 of the synchronization blocks 8 and 9 serve to control the switching transistors 22 generators 17 and are used to charge the capacitors 19 and 21 of the generators 16 3 Under the influence of the control current, the switching transistors 22 are switched alternately from the cut-off mode of the collector current to the saturation mode. As a result, the capacitors 19 and 21 are connected to the corresponding discharge transistor 23 and 24, which is in the conducting state. Moreover, the capacitors 19 are discharged by the transistor 23 and 24, and the voltage on the capacitors 21 does not change, since the flow of the discharge current is detected by a diode 20. At the time when the difference between the DC voltage on the capacitor 21 and the sawtooth on the capacitor 19 reaches the switching threshold of the two-base diode FOR, respectively, of the comparison node 35 and 36, is turned on, and a control pulse is formed on the primary winding of the pulse transformer 32. At the outputs of each control channel, two antiphase pulses are formed, shifted relative to each other by 180 ° el. Since the pulses of each channel are shifted in phase by 1 20 el., As a result, the device forms a system of six pulses shifted relative to each other by 60 el. Thus, by introducing each control channel of antiphase generators and amplifiers, the formation of control pulses of antiphase thyristors is achieved.

Claims (1)

SYNCHRONOUS DEVICE FOR CONTROL OF THYRISTERS, containing a control voltage source, including a phase-shifting capacitor 'and an adjustable resistor, two comparison nodes, each of which is made on a two-base diode connected through a tuning resistor to a stable voltage source, and three phase control channels, each of which consists of from a synchronization unit including a single-phase transformer, the primary winding of which is connected to the corresponding phase voltage, a sawtooth former and the output driver, which includes an amplifier on an auxiliary thyristor connected in series with a capacitor, and a pulse transformer, the primary winding of which, connected in series with a cut-off diode, forms an amplifier input, characterized in that, in order to generate antiphase thyristors in each channel, it is equipped with two bit transistors, the control voltage source is equipped with a matching resistor and a transistor, the base of which is connected to the middle terminal • adjustable resistor, shunted by a phase-shifting capacitor, the synchronization unit of one channel is made on a bridge rectifier, each arm of which consists of a diode and a zener diode, and the input is connected to the secondary winding of a single-phase transformer, the synchronization blocks of the remaining channels are made on two counter-connected zener diodes connected to the secondary winding of a single-phase transformer, the sawtooth voltage shaper of each channel is made on two antiphase generators, each of which Toit of series-connected rectifier diode, and forming a capacitor shunted by a chain of series-connected separation diode and the reference capacitor and connected between ob- _(conductive bus and the collector of the switching transistor, the amplifier output is provided -formirovatelya limiting resistor connected in parallel a capacitor and a load resistor included in series with an auxiliary thyristor, to the control input of which a secondary pulse winding is connected ransformatora and output driver amplifier is provided with antiphase formed anlogichno amplifier shaper, the output of the bridge rectifier is connected to the synchronization unit adjustable resistor, and through termination resistor - to the transistor source to the control SU „„ 1279033 voltages, the ends of the circuit from the rectifier diode and the forming capacitor of the generators of each channel are connected in parallel to the corresponding zener diode of the synchronization unit of this channel, the ends of the secondary winding of the single-phase transformer of which are connected to the bases of the switching transistors of the respective generators, the emitters of which are connected to the common bus via the corresponding discharge transistor common to common-mode generators of all channels, the connection point of the isolation diode with the reference capacitor each channel-phase generator through respective common mode input amplifiers of this channel is connected to the emitter node of comparison two-base diode common to all channels in-phase generators and auxiliary thyristors of the output driver amplifiers connected to a stable voltage source and a load through a limiting resistor.