SU789652A1 - Three-phase voltage regulator - Google Patents

Description

(54) THREE-PHASE VOLTAGE REGULATOR

Claims (1)

The image refers to contactless voltage regulators on a three-phase load supplied from a three-phase network without a neutral. Known voltage regulator, containing the power thyristor of the DC source and sawtooth voltage generators based on RC transistors with RC circuits in the emitter circuit, providing phase control. The disadvantage of this regulator is that it does not provide voltage regulation only in active single-phase load in a narrow range. Known voltage regulator, sotsderzhashy counter-included power thyristors, transistors with RC - circuits in the emitter circuits, pulse transformers, secondary windings of which are connected to the control electrodes of the counter-switched thyristors, and a source of constant voltage l2 | However, this regulator circuit is complex, the regulator is unreliable in operation and has a limited range of output voltage peryjwf, f (ew6onee i close to the technical means of the incomprehensible result is a three-phase voltage regulator containing a control power source, produced by transformers, the primary windings of which are transformers. connected to the mains supply voltage, to the secondary windings / ifOTopbix via rectifying bridges and resistors are connected stabilizers, in parallel with which are connected pilophase generators On the basis of transient transistors and RC circuits connected to a DC source, the output of the transistors of which are connected in parallel to the thyristor shaping control capacitors, capacitors, pulse transformers, power meetings on the switched thyristors in each phase. Lie invented - simplification of the circuit and increase of the reliability of operation when loading the load from the three-phase network without neutral. For this purpose, the three-phase regulator is equipped with additional p & stors, additional condensate, di dami and additional pulse transformers, the anodes forming the thyristors are the first and second. The diodes are connected to one of the terminals of the secondary windings of the control power supply transformers, and through the third and additional resistors, they are connected to the other leads of the power supply transformers parallel to the thyristors forming the first additional capacitors are connected to the primary windings of the additional pulse transformers, and the third diodes and capacitors are connected Impulse converters; transformers, the secondary windings of pulsed transfer transformers of each phase are connected to the transition terminals of the power thyristors in two corresponding phases. The drawing shows a regulating circuit; voltage; Regulator includes CID. thyristors 1-6, through which a load (not shown) is connected to a three-phase AC network (terminals 7-9); power source, composed of 10-12 single-phase or single three-phase transformer, rectifying bridges 13-15, zener diodes 16-18; pulse generators formed by single junction transistors, the upper bases of which are connected to mobile Vyzbdam trimmer resistors 22-24 through resistors 25-27, pulse transffmators 28-33, the primary windings of which through resistors 34-39, 4O45 diodes and forming thyristors 46-48 are connected to to the second windings of trans phmator 10–12 power source. The first bases of the transition junction transistors: through the control transitions: the thyristor electrodiaves 46–48, which are shunted by resistors. 49-51, connected to the negative leads of the rectifying bridges 13-15, and the second bases of the transistors 19, 21 are connected to the anodes of these thyristors through separation diodes 52-54 The emitters of the transition junction transistors are connected to the positive terminal 55 of the power source of the constant voltage 3 ( terminals 55 and 56), to which potentiometer 58 is connected via resistive 57. RC-circuits 59 and BS, 61-64, installed in the emitter circuits of single-transistors 19-21, are connected to the movable output of the potentiometer. Parallel to the thyristors 46-48, capacitors 71-76 are connected through the ras. Separation cords 65-7O and the primary windings of the pulse transformer. Each of the pulse transformers 25-30 contains two secondary windings, connected via gadgets 77-88 to the intervals, coking elliptical electrodes-cathodes of each of two thyristors 1-6, installed in two phases. A load, e.g., an electric motor, heating elements, etc., is connected to Lemmas 89-91. . The voltage regulator operates in the following manner. The 1921 single junction transistor bases are powered by a voltage approaching the shape of a trapezoidal with a doubled network frequency. For this, the phase voltage is supplied to the primary windings of transformers 10-12, which provide a lowering of the mains voltage, synchronization of the control circuits with the voltage applied to the thyristor power circuits and the galvanic isolation of the control circuits and power circuits. Through rectifying bridges 13–15, to which the voltage is supplied from the secondary windings of transformers 1–12, and ballast resistors 9294, the voltage is applied to the zener diodes 16–18. To an adjustable DC voltage source, a DC voltage source (terminal 55 and 56), a resistor 57 and a potentiometer 58, the time reference resistors 59–6 were connected to the time source capacitors 62–64 of PC circuits. When capacitors 62-64 are charged prior to the voltage of unlocking the single junction transistors 19-21, they are discharged through the emitter-base transistors and the transitions governing thyristor-cathode electrodes 4648, triggered by resistors 49-51, and the thyristors are unlocked. Through each half cycle opening, the thyristors 46-48 and the primary volumes of the pulse transformers 25-ZA alternately charged during the period are discharged previously charged through resistors. 34-39 capacitors 7176, k from the secondary windings of pulse transformers 25-30 through isolation diodes 77-88, limiting resistors 95-10 O, the pulses go to the control electrodes of the thyristors I6. At maximum voltage, removing the MOM from the adjustable resistor. (Potentiometer) 58, the sensing capacitors 62-64 have time to charge at the beginning of each half period. In this case, the thyristors open with a maximum unlocking angle and the voltage at the output of the controller has a maximum value. OEN time pulses produced by resistors 49-5 1 cause the thyristors 46-48 to be unlocked, which are shunted through dividing diodes 65, 67 and 69 of the base of the single-transistor 19-2 1 to K (the pulse of the pulsating voltage period of these transistors and not In one half-period, several pulses are applied to the control electrodes of the thyristors. In the intervals between power supply pulses, the gyrists 48-56 are locked. The connection is parallel to the bases of the transistor-20 transors through resistors and isolators The thyristor diodes allow you to amplify and form control pulses of the required duration, eliminate interference pulses and ensure stable control of the voltage from the maximum to the minimum value at the output of a three-phase power thyristor switch installed in a three-phase network without neutral. Introduction for each phase is two pulse transformers operating in alternately allows each pulse to form one pulse at each output, which excludes the supply of positive polarity of pulses to the input power thyristors, when their anodes negative potential. The invention is a three-phase voltage regulator containing a power source of control circuits, transformed by transformers, the first windings of which are connected to the se, the supply voltage, to secondary windings of which are connected via rectifying bridges and resistors to stabilizers, parallels; in the windings which are connected to generators of sawtooth voltage Based on the transition junction transistors and RC-ueneft, connected to a DC source, the output of the transistors of which is connected in parallel with controlled transitions of the forming thyristors, capacitors, pulse transformers, power anti-thyristors in each phase, characterized in that, in order to increase reliability when powering the load from. three phase network without a neutral, it is equipped with additional resistors, additional capacitors, diodes and additional .pulse transformers, the anodes of the forming thyristors being connected through one of the output windings of the power supply transformers of the control circuits, and through the third diodes and add / resistors they are connected to the other terminals of the power supply transformers; primary capacitors are connected in parallel to the forming thyristors through the first additional capacitors windings of additional pulse transformers from the ditch, and through third diodes and capacitors are connected windings of pulsed transformers, the secondary windings of pulsed transfer mat cpc® to the “aka phase connected to the control thyristors n & ysL corresponding to the highest phases. : Sources of information and taken into account for the examination I. Dziubin I.I. Thyristors in electrical circuits. M., Sergi, 1972, p. 58-59, p. 37. 2, Alasov VG, et al. Explosion-proof AC electric drive. M., Energie, 1971, p. 52-53, p. 2-16. 3. Thyristors (technical reference). Ed. V.A. Labuntsova. Energy, 1972, p. 247-248, p. 9-33. .t