SU1030775A1 - Ac voltage stabilizer - Google Patents

Abstract

1. AC VOLTAGE STABILIZER, containing a booster transformer, three thyristor switches and a key control unit associated with the output terminals, the secondary winding of the booster transformer is connected between the corresponding input and output No. 1 terminals, two primary windings are connected in series, their disconnects are connected between the respective input and output No. 1 terminals, the two primary windings are connected in series, they are connected over them. The first and second thyristor keys are connected to the common bus, and the common conclusion is connected to the nepSbDi output of the third thyristor key, which is different from the fact that, in order to improve Energy characteristics, the second output of the third thyristor switch is connected to a terminal for connecting a voltage source. 2. A stabilizer according to claim 1, characterized in that an input terminal is used as a voltage source. 3. Stabilizer according to claim 1, characterized in that an output is used as a terminal for connecting a voltage source. (A. Lead. 4. Stabilizer according to claim 1, characterized in that the input of the set is used as adhesives for connecting the voltage source to connect an additional power source.

Description

The invention relates to electrical engineering and NsoKeT to be used for power supply circuits of radioelectric and other devices. A variable voltage stabilizer is known, which has an additional transformer, one ie1. the windings of which are connected between the respective input and output terminals 5, the other two windings are connected in series and commute with two thyristor keys 13. The closest to the invention to the technical essence and to reach. The result is an alternator voltage stabilizer containing three additional transformer thyristor key and thyristor key control unit associated with the output terminals. The secondary winding of the booster transformer is connected between the respective input th and the output terminals of the stabilizer, the two primary windings are connected in series, their availability vyvo rows across thyristor keys respectively connected to the first terminal of the alternating voltage, and the total output - to a first terminal of the third thyristor switch. The lack of devices - increased power loss, which degrades their energy performance. The purpose of the invention is to improve the energy characteristics of the stabilizer. This goal is achieved by h in the AC voltage regulator containing a booster transformer, three thyristor fftjx keys and a thyristor key control unit associated with the output: Single pins, with the secondary winding of the booster transformer included with the corresponding input and two primary windings are connected in series, their free outputs through the first and second thyristic keys are connected to the common bus, and the common conclusion is from the primary output of the third thyristor key, Ora Key terminal of the third thyristor is connected to the connection-source voltage. At the same time, the input terminal, the output terminal or the input terminal for connecting an additional power source can be used as a terminal; The drawing shows the principal on the stabilizer circuit. The stabilizer contains a booster transformer 1, in which the winding 2 is connected to the input and output terminals of the stabilizer, and the windings 3 and 4 are connected consistently. Free pins of windings 3 and 4 through thyristor keys on anti-parallel thyristors 5-8 are connected to a common length, connected to the corresponding input and output pins, and the common output of windings through a thyristor key on anti-parallel thyristors 9..and 10 - to power by bus. This connection can be made from the input output side, or from the output output side, or it can be connected to an independent source. All thyristor switches are connected to the thyristor control unit 11. The stabilizer works as follows. If the supply voltage is rated nominal output voltage, then at the beginning of the switching half-cycle of the input voltage, the thyristors 7 and 10 or 8 and 9 are switched on (in the corresponding; Half-period). By switching on these jerry jTOpoBs, the winding 3 is connected to the alternating voltage source. In this case, the winding 2, which is connected in the opposite direction with the mains voltage, provides a volt voltage, the voltage at the output of the stabilizer is less than the mains voltage. If the network voltage is less than the maximum, with a time shift determined by the deviation of the output voltage from the nominal, from the control unit 11, the circuit breaker 5 or b is turned on. When opening the thyristor 5 or b: the thyristor 9 or 10 is locked. In this case: two according to the included primary windings 3 and 4 are shorted thyristor 6 and 7 or 5 and 8, the voltage at the output of the stabilizer is almost equal to the voltage of the network. If the network voltage is lower than the nominal, then at the beginning of each half. the period of the input voltage includes thyristors b and 7 or 5 and 8 (in the corresponding half-period), the mode of short-circuiting of windings 3 and 4 is provided, the output voltage is almost equal to the network voltage. If the network voltage is greater than the minimum, with a time offset from block 11, thyristor 9 or 10 is turned on. When opening thyristor 9 or 10, the reverse voltage is applied to open thyristor 7 or 8 and locks it. In this case, winding 4 is connected and the mode of operation on the voltage supply is provided. Thus, the output voltage of the stabilizer (its effective or average value j is maintained equal to the nominal output voltage. The mode of operation of the stabilizer is possible when at the beginning of each 3 10307754

the luperiods include thyristors 10 of reliably included windings, and

and 7 IL1 9 and 8, with a temporal shift mode, which leads to a decrease in

.includes thyristor 5 or b, and then a current in the windings and reduces losses,

with a large time shift, including - Another advantage of the circuit is thyristor 9 or 10. This means that in emergency modes of the three proposed stabilizations of the circuit can be protected

tori can be compiled one by one upress to their impulses

three-phase stabilizer. with a key on thyristors 9 and 10 and energy-efficient characteristics of 8 or B and 7 (in accordance with

increase due to the fact that the protection-10 half-period 7, without additional, short-circuiting of two protection processes is ensured. reading the windings with thyristors 5

Claims (4)

1. The AC voltage stabilizer containing a boost transformer, three thyristor switches and a thyristor switch control unit connected to the output terminals, the secondary winding of the boost transformer is connected between the corresponding input and output terminals, two primary windings are connected in series, their free terminals are through the first and the second thyristor switches are connected to the common bus, and the common output to the first output! ” a third thyristor switch, characterized in that, in order to improve energy performance, the second terminal of the third thyristor switch is connected to a terminal for connecting a voltage source. 2. The stabilizer in π. 1, characterized in that the input terminal is used as a terminal for connecting a voltage source. 3. The stabilizer in π. 1, characterized in that the output terminal is used as a terminal for connecting the voltage source. 4. The stabilizer in π. 1, characterized in that as a terminal for connecting a voltage source, an inserted terminal is used to connect an additional power source.