SU1115203A1 - Device for phase control of thyristor rectifier - Google Patents

Abstract

DEVICE FOR PHASE. THYRISTOR CONTROLLER CONTROL contains a control key consisting of a single junction transistor by a load in the first base circuit and a capacitor connected by one output to the emitter of the single junction transistor and to the source of the control voltage and the other to the common bus supply source, synchronizing and control voltages and an output amplifier, the first and second transistors, characterized in that, in order to improve reliability of operation, a switching circuit consisting of a thyristor optocoupler, an The LED of which is connected to the first base of the single junction transistor of the synchronizing voltage source, and the cathode of its LED through the resistor to the common bus of the device, the anode of the thyristor photocipolar photothyristor through a resistor divider, the midpoint of which is connected to the base of the first transistor, is connected to the power supply and through the resistor to the base of the second transistor, the collector of which is connected to the cathode of the photo thyristor of the thyristor optocoupler, the collector of the first transistor through the resistor is connected to the second the base of the single junction transistor of the controlled key and through the LEDs of the thyristor optocouplers of the output amplifier and the resistor to the collector of the transistor output amplifier, the collector of the second transistor connected to the cathode of the thyristor phototristor phototristor, its emitter to the common bus of the device, and the base of the second transistor through the Differentiating chain to the connector transistor output amplifier. To anodes cvmSbtx nrupvcmopoS 25 CuproVyusch aaeKffTfloArff ci / iKrXnjr jm / flucffvpoo

Description

1 1 The invention relates to electrical engineering and can be used for phase control of thyristor rectifiers and alternating current switches. A device for phase control of thyristors is known, which contains a relaxation generator of a sawtooth voltage on a single junction transistor with a load in the first base circuit, a switching transistor connected by an input to a synchronizing voltage source, and an additional transistor P. The disadvantage of this device is low reliability, since the operating time of its power source is continuously connected to the relaxation generator of a sawtooth voltage, or on a single junction transistor. This complicates the operation of the circuit, especially when the rectifier is powered, the output voltage of which is varied with the help of thyristors from a 400 Hz network. The closest to the invention according to the technical essence is a pulse driver for valve converters comprising a connected capacitor and a control key, sources of synchronizing and control voltages, an output amplifier and an auxiliary transistor 2. A disadvantage of the known devices is the following. Because of the need to obtain sufficient linearity of the sawtooth voltage, it is necessary to increase the supply voltage, and to obtain a sawtooth voltage of short duration. About 0.21 ms, it is necessary to reduce the resistor value of the variable time of the master circuit. This leads to the fact that the current limited by it will be greater than the holding current of the thyristor, and the operation of the circuit is violated. The use of high voltages in the power supply unit of the device increases the noise generated on adjacent channels in the case of its use in three-phase adjustable rectifiers, which leads to a decrease in its reliability in operation in transient conditions. The purpose of the invention is to increase the reliability of the device in operation. 2 The goal is achieved in that a device for phase control of a thyristor rectifier containing a control key consisting of a single junction transistor with a load in the first base circuit and a capacitor connected by one output to the emitter of the single junction transistor and to the control voltage source, and the others to the common bus, the sources of supply, synchronizing and control voltages and the output amplifier, the first and second transistors, are introduced into a switching circuit consisting of a thyristor optocoupler, an The LED of which is connected to the first base of the single junction transistor of the synchronizing voltage source, and the cathode of its LED through the resistor to the common bus of the device; the resistor to the base of the second transistor, the collector of which is connected to the cathode of the photo thyristor of the thyristor optocoupler; the collector of the first transistor is connected to the second base via a resistor The uni-transistor of the controlled key and through the LEDs of the thyristor optocouplers of the output amplifier and the resistor are connected to the collector of the transistor of the output amplifier, and the collector of the second transistor is connected to the cathode of the thyristor photo-thyristor, it. the emitter is connected to the common bus of the device, and the base of the second transistor is connected through a differentiating chain to the collector of the output amplifier transistor. FIG. 1 shows the scheme of the proposed device; Fig. 2 stress diagrams for operation of the device. The rectified and reduced in amplitude network voltage is applied to inputs 1 and 2. The amplitude of the semi-sinusoidal form is limited by a parametric stabilizer consisting of resistor 3 and zener diode 4. Stabilitron 5, resistors 6-9 and capacitor 10 provide the operating mode of a single transistor 11 included in the source of synchronization voltage. The thyristor optocoupler 12, resistors 13-15, the first 16 and second 17 transistors and the differentiating chain, consisting of resistor 18 and capacitor 19, are a connecting switching circuit between the source 20 of the supply voltage, the input power of the controlled key and the output amplifier 21. The output amplifier consists of a transistor 22, a resistor 23, a thyristor optocoupler 2A and 25, and limiting resistors 26 and 27. The control key consists of a single junction transistor 28 with a capacitor 29 connected to its emitter, resisTrom 30 in the first base circuit and cut The source 31 in the circuit of the second-base unijunction transistor 28. An adjustable source of controlled voltage is connected to terminals 32 and 33. The chain consisting of a resistor and a diode 35 ensures reliable locking of the output amplifier transistor 22 before the arrival of the control pulse removed from resistor 30. In FIG. 2 denotes the input voltage — 2a; output voltage of the zener diode 4-26; the pulse generated by the resistor 8 - 2V; voltage at terminal 21-2g; the output voltage at the output of the capacitor 29 is 2d; the pulse generated at the output of the unijunction transistor 28-2e; the output voltage of the power thyristors is 2g, 3, o. The device works as follows. The synchronizing voltage of the network after decreasing in amplitude and rectifying arrives at the inputs 1 and 2 of the device (Fig. 1). The plots of this voltage are shown at point G in FIG. 2. This voltage is limited and stabilized in amplitude by two parametric voltage regulators. The first consists of a resistor 3 and a zener diode 4, and the second is from a resistor 6 and a zener diode. A single junction transistor KT117 is used to form synchronization pulses that coincide in time with the network voltage passing through zero. The voltage between the first and second bases of the unijunction transistor 11, limited by the zener diode 4 (Fig. 2), is applied synchronously with the network voltage. The same form voltage, in amplitude, is insufficient for the gap gap, the emitter — the base of the single junction transistor 11, from the Zener diode 5, through the resistor 7, charges the capacitor Y. At the moment of time coinciding with the network voltage passing through zero, the capacitor 10 is discharged on the emitter-base circuit of the unijunction transistor 11, the LED of the thyristor optocoupler 12, resistor 8. The generated pulse (Fig. 2c) opens the photo thyristor of the thyristor optocoupler 12, since the transistor 17 is open by a positive bias through the resis op 15. The current through the photothyristor of the thyristor optocoupler 12, the passage through the resistors 13 and 14 of the resistor divider creates a voltage drop across the resistor 13, sufficient to open the transistor 16. The voltage and, from the power source 20, enters the input of the decoder 21. Base single junction transistor 28, which serves as a controllable key, is voltage across resistor 31. The emitter-base junction of the single junction transistor 28 is locked and the capacitor 29 starts charging from the source of control voltage connected to terminals 32 and 33 (Fig. 1). The speed of the spr. Capacitor 29 depends on the current source () (fig, 2d). As soon as the voltage across the capacitor 29 reaches a voltage equal to the emitter base breakdown voltage of the single junction transistor 28, this junction is punched into the load resistor 30, and a pulse is formed in the circuit of the first base of the controlled key - single junction 28, the shape of which is shown in FIG. 2nd. This pulse opens the transistor 22 of the output amplifier. Current limited resistor 23, passes through the LEDs of the thyristor optocouplers 24 and 25. The photo thyristors of these optocouplers are connected by their anodes to the anodes of anti-parallel connected power thyristors, and their cathodes through the resistors 26 and 27 to the control electrodes of the power thyristors. The shape of the current through the control electrodes of the power thyristors is shown in Fig. 2g, h. Other output amplifier circuitry can be used in the device. The voltage across the collector of the transistor 22 is differentiated by a chain consisting of a resistor 18 and a capacitor 19. A negative polarity pulse arrives at the base of transistor 17 and locks it. At the same time, the thyristor of the thyristor optocoupler 12 is locked. Transistor 16 is locked and UnwT is disconnected from

a controllable key. The voltage at terminal 21 is shown in FIG. 2g. Thus, the voltage on the controlled key is applied at the time of the synchronizing network voltage passing through zero and removed from it at the time of forming the first impulse to control the power thyristors.

Claims (2)

A device for phase control of a thyristor rectifier, containing a controlled key, consisting of a single-junction transistor with a load in the circuit of the first base and a capacitor connected by one output to the emitter of a single-junction transistor and to a control voltage source, and the other to a common bus, supply and synchronization sources control voltage and an output amplifier, the first and second transistors, characterized in that, in order to increase reliability in operation, a switching circuit consisting of t Figure iterated optocoupler 20 UnunP ---------- 7 J δ а о — cd - »- tel. LED anode X anode "fat & m tirislyuro! Superintendent of evil-selling Salava-g t / rguporao Fig 1 Utvhrp 2 of which is connected to the first base of a single-junction transistor of a clock source, and the cathode of its LED is connected through a resistor to the device’s common bus, and the anode of the thyristor optocoupler thyristor through a resistor divider, the midpoint of which is connected to the base of the first transistor, is connected to a power source and through a resistor to the base of the second transistor, the collector of which is connected to the cathode of the thyristor optocoupler phototiristor, the collector of the first transistor is connected through the resistor to the second base of a single junction of the controlled transistor of the key and through the LEDs of the thyristor optocouplers of the output amplifier and the resistor to the collector of the transistor output amplifier, the collector of the second transistor is connected to the cathode of the thyristor optocoupler thyristor, its emitter is connected to the device common bus, and the base of the second transistor is connected to the collector of the transistor through a differentiating circuit output power 115203 5203