SU550719A1 - Static reactive power compensator - Google Patents

Description

The invention relates to the iK region, n electrical 1N | Iki. Commissary is designed for catching POPs and regulating it at the same time in the networks of the electrolyte | bzheni-industrial enterprises.

From (the current schemes of static compensators, / in which cosine capacitors operate in a sinusoidal mode of operation to voltage. The disadvantages of these devices are large losses and low electrical power consumption | an electric field in the sensors.

Iesvest static static compressor circuits, (in which capacitors operate in single-field mode (the ruling mode of operation). Using capacitors in such mode allows reducing their losses by 3-5 times. Loss, sushi, 1, 2, 3 times, increase the intensity of the electric field in the dielectric of the jaw capacitor and thereby reduce (2–3) times the weight and cost of the capacitor battery compared to the sinusoidal1M mode.

The closest analogue of the proposed compensator is the static reactive power capacitor, in which the capacitor is located under the equipolar field (by exposing, creating, eating three pomoshes, and a bridge consisting of a 1-way-parallel-connected thyristor and an uncontrolled diode.

However, in the specified static compensator, the need for I1NDI1V and I1Dual and IKOM mutations is such that in controllable fans, as a result, its control circuit is complicated and requires a large number of switching nodes. In addition, this compensator is characterized by the presence in the curve of the generated current of odd harmonics, including 5, 7, and 11th, the most. dangerous, caused by speed

the form of the generated voltage, and the presence in the phases of bulky smoothing reactors for filtering harmonics in the output current spectrum.

In order to improve the harmonic composition of the generated current, the proposed static static reactive power compensator containing the pre-IMOCT arm, whose arm and arm are formed counter-parallel to the B1 key; and :. thyristors and diodes mi alone

the terminals of which are connected to the network, and the capacitor is connected to the other terminals, it is connected with a choke, a thyristor, an additional capacitor, a diode, a diode: a bridge and a switching transformer. An additional capacitor is connected through the thyristor to the primary winding of the transformer; the shunt is connected by a series-connected diode and a choke; the secondary winding of the transformer is connected in series with the capacitor connected to

transducer outputs, and its winding is controlled. and connected to the diagonal of the bridge, the second diagonal of which is included between one of the transducer's outputs and the network.

FIG. 1 shows the principle scheme of the proposed compensator.

Co-capacitor battery 1 through (secondary winding 2 of switching T | ra-nformator 3.) is included in the diagonal of the bridge formed by diodes 4, 5 and control of the valves (i.I.Rissgar Mi) 6, 7. Primary winding 8 of the switching transformer through the thyristor 9 P | r. Iooedi) foam to capacitor 10, which is shunted by a chain of diodes 11 and Drossel 12 connected in series. Output power circuit compensation Torah.

FIG. 2 (Curves A & a) of the current of the supply network (between points C and D in Fig. 1) are given; D is the voltage and E of the current of the capacitor battery, W is the voltage, switching capacitor, and the trigger 15 of the thyristor 9, control pulses are 16 thyristic; pa) M1I 6 and 17 thyristors 7.

The condenser works in the following way.

Let, starting from the time t, the capacitor 1 is discharged through tdristors 6 to the network along the circuit: capacitor 1, winding 2 of the commuting transformer 3, thyristor 6, supplying the network (points В, D), diode bridge 14, winding podmagnivivi 13 , thyristor 6. In this case, the magnetically transformer 3 is magnetized by am / pervitki equal to the difference between the amperages of the windings 13 and 2, and the number of turns of the winding 13 is greater than the number of turns of winding 2 (by touch | in-two turns).

At the moment of time, when the voltage on the capacitor 1 becomes zero, the network voltage is also zero, THpHiCTop 9 is energized and connects to the first (primary winding 8 of the switching transformer 3 the capacitor 10. Due to the EMF induced on the winding 2, the thyristors 6 is turned off, and the diodes 5 are turned on, the current; in capacitor 1, it changes direction and it is charged in the same polarity as it is. Capacitor 10 is discharged to zero, and then recharged until a time of 1 SUSTAINING of the switching transponder. In the interval between current commutation from thyristors 7 to diodes 4 or from three switches to diodes 5, capacitor 10 is recharged through diode 11 and inductance 12. A low-power source is needed for the initial charge capacitor 10.

The static compensator of reactive power can be used not only for the depletion of POPs and for controlling the voltage of a single-phase network, but also for a three-phase network. At the same time, it is necessary to use .Tipex identical to the schemes considered above, which allow the connection between them according to the 3-star scheme and T | reagons. In addition to To.ro, and the changing of commuting (Pr. Iboro makes it very simple to perform the arcless / on and off of the static

The compressor is controlled by adjusting the supply of control pulses to the switching devices, as well as in a sectioned embodiment of the cosine capacitor battery, to regulate the value generated by the reactive anergy circuit.

Claims (1)

Invention Formula 30 Static reactive power compensator containing a converter bridge, the shoulders of which are formed (oppositely connected thyristors and diodes, the OD1NI outputs of which are connected to the network, 35 to others (the terminals are connected to a capacitor, characterized in that, in order to improve the harmonic composition of the generated current, it is additionally equipped with a choke, an additional capacitor, a thyristor, a diode, a diode bridge and a switching transformer, to the primary winding of which through the thyristor .soconverter amplifier connected by a diode connected in series and connected 45 by the choke, the secondary winding of the transponder is connected in series with the capacitor connected to the converter terminals, and its control winding is connected to the diagonal and diode bridge, the second diagonal of which is connected between one of the transformer terminals and the network. FIG. 2