SU920991A1 - Thyristorized ac-to-ac voltage converter - Google Patents

Description

(54) THYRISTOR TRANSFORMER VARIABLE VOLTAGE TO AC VARIABLE

Claims (2)

The invention relates to the conversion of electrical energy using power semi-semiconductor technology. Closest to the invention is a thyristor converter of alternating voltage to alternating, containing an on-line between the input and output terminals of anti-parallel connected thyristors, a phase-shifting unit, to the output outputs of which a primary winding of a pulse saturating transformer is connected, and two pulse formers, each of which contains Three diodes and a capacitor, in each of the pulse formers, a first diode, a capacitor, and a secondary winding of a pulsed saturating transf They form a series circuit, the cathode of the first diode and the free output of the secondary winding of a pulse Saturated transformer are connected to the corresponding terminals of the control electrode of the thyristor, the second diode is connected between the anode of the first diode and the common point of the secondary winding of the pulse saturating transformer and the control electrode lead. a (1. The disadvantage of this device is that the control pulses are sent to the control electrodes of the thyristors and with a negative the actual voltage on them, as a result, the reverse leakage current increases, which leads to additional dispersion of the thyristor trap and reduced reliability, and direct connection of the control circuit to the terminals of the power circuit voltage source does not provide an adequate level of electrical safety. The purpose of the invention is to increase the reliability and electrical safety of the thyristor voltage regulator. The goal is achieved by the fact that in the device the third diode is connected in parallel with the secondary winding of a pulsed saturable transformer, with; This, the second and the third diodes are connected oppositely to each other, and the second diode is switched on in the opposite Gnapr & A relative to the control transition of the corresponding thyristor. lllene similarly also the input BBIBD1 of the phase-shifting unit of the sub terminal to the secondary winding of the inserted isolation transformer, the primary winding of which is connected to the input views of the device. On big. 1 shows a circuit diagram of the device; in fig. 2 - voltage diagrams of the processes of operation of this device. The device consists of thyristors 1 b 2, pulse shapers 3 and 4, containing capacitors 5 and 6, diodes 7-12. The diagram also shows the load 13, separation transformer 14, phase shifter 15 and pulse saturating transformer 16 with secondary windings 17 and 18. When a thyristor regulator is connected to a sinusoidal alternating current power source (l / n) on the secondary windings 17 and 18 of the saturating transform Tc ia 16 induts emf (UHT). for example, the polarities indicated in the drawing, which (charges the condensate 5 through diode 9 until the core of the transformer 16 is saturated. Next, the induction stops changing and the EMF abruptly drops to zero, and, starting from this moment, the capacitor 5 is instantaneously discharged through circuit diode 11: capacitor 5 - diode 11 - control GhelectroD - anode of thyristor 1 s &} of transformer tray 17. The discharge current (voltage Uu) of capacitor 5 turns on thyristor 1, since positive voltage is applied to its ano. In this case, the thyristor 2 remains locked The negative voltage is laid down on its anode | f1; the transformable voltage on the winding 18 is shunted by a diode 8. Thus, in this given period, the pulse shaper 3 is generated by the output pulse (pulse 14 for the hfistor 1), the shaper 4 remains shunted, and 8 the control electrode of the thyristor 2, when the anode voltage on its anode, unlocking the pulse is not received. In the next half-period, when a positive voltage is applied to the anode of the thyristor 2, the pulse shaper 4 14 generates an unlocking pulse ls (Gooch) and a pulse shaper 3 remains shunted diode 7. Further processes are repeated. The voltage regulation at the load (VH) is made by changing the switching angle of the thyristors 1 and 2 from O to 180 al. using a phase shifter 15, for example an RCi phase dipole. Transformer i4 is used for galvanic separation of the power circuit and the control circuit of the regulator in order to ensure electrical safety. Thus, in the proposed device, the power dissipated on the power thyristor is reduced, i.e. increased reliability, as well as electrical safety. Claim 1. Thyristor variable-to-variable voltage converter containing on-line input and output outputs Anti-parallel, connected thyristors, phase shifting unit, to the output of which the primary winding of the pulse saturating transformer and two pulse formers, each of which contains three a diode and a capacitor; in each of the formers of the pulses, the first diode, the capacitor and the secondary winding of the pulsed saturable transformer form the serial circuit, the cathode of the first diode and the free output of the secondary winding of the pulsed saturating transformer are connected to the corresponding leads of the coking electrode of the corresponding thyristor, the second DIBD is connected between the anode of the first diode and the common point of the secondary winding of the pulsed saturable transformer and the switch of the control electrode of the thyristor, characterized by For the sake of reliability, the third diode is connected in parallel with the secondary winding of a pulsed saturable transformer, with. Ora and third diodes includes oppositely relative to each other, and the second diode vklyuyun in the opposite direction relative to the corresponding control transition thyristor. 2. The transducer according to claim 1, which is based on the fact that, in order to ensure electrical safety, the input pins of the phase-expansion unit of the plug 59209916 us to the secondary winding of the entered source of information, first transference, primarily taken into account when resigning .winding of which is connected to the input1. Copyright testimony of the USSR View devices. No. 377753, cl. O O5 P 3 / O6, 197O. and, k k k Y2 (J H