SU1515254A1 - Device for compensating for reactive power - Google Patents

Abstract

The invention relates to electrical engineering and can be used in electrical networks and systems to compensate for reactive power. The purpose of the invention is to increase the speed and reduce the inrush current when turned on. Three capacitor banks are switched, respectively, by three triangular gate switches containing two diodes in series and a thyristor, and the switch thyristors are switched on to different phases, which ensures a reduction in the average delay for the batteries, respectively, to 60, 180, 300 el.grad. 1 il.

Description

The invention relates to electrical engineering and can be used in electrical networks and systems to compensate for reactive power.

The aim of the invention is to increase the speed and decrease the network current surges when switched on.

The drawing shows a diagram of the device.

Three three-phase condensate batteries 1,2,3 first terminals connected together and. Pre-designated for connection to network phases A, B, C. To the second capacitor terminals, triangular valve switches made up of two 4.5 diodes are connected; 6.7; 8.9 and tirstorov 10,11,12. A voltage transformer 13 is connected by a primary winding, a capacitor is connected in parallel to the first one, and a secondary one is connected to the formers 14, 15, 16 pulses, the KOTopbtx outputs are connected to the control inputs of the thyristor 10,11,12 via contactors 17, 18, 19.

The device works as follows.

The device serves to compensate for the reactive power of the network to which it is connected. The voltage transformer 13 supplies to the drivers the corresponding voltages applied to the thyristors 10,11,12. Pulses are produced from these voltages by shapers with a phase that ensures switching, the corresponding batteries 1,2,3 without inrush current. When the contacts 17, 18, 19 are off, the thyristors 10, 11, G2 do not receive control pulses and the corresponding batteries 1,2,3 are disconnected. Capacitors 1,2,3 are charged at a constant eg i5

 : e.eem through diode 1 4 - 9 and stops conducting current.

When the contact 17 (18,19) myclii on the thyristor 10 (11,12) with the frequency of the network receives a trigger pulse. The thyristor is turned on and the corresponding battery 1 (2.3) is connected to the mains by performing reactive power compensation. Depending on the position of the commander, a different number of pins 17,18,19 from O to 3 can be switched on. Since the control pulse is generated once per period of the network frequency, the average statistical delay when each battery is turned on separately is 1 80 C.

If all the thyristors 10, 11, 12 were connected to the phases of the same name, this delay would occur when three batteries 1,2 3 were turned on and at the same time, moreover, there would be a large surge of mains current in two phases. Due to the distribution of the thyristors between different phases, 1,2,3 batteries will be connected alternately through 120. At the same time, the average delay is 30 tons, 180, 300 ° (in batteries). Those. The reactive power set-up begins faster and will occur in three stages, and the current surges will be distributed evenly across all three phases of the network. The distortion of network currents is also reduced.

An even greater effect can be achieved when two such devices are used together, but with counter-switching on semiconductor devices with (n-ipoB. In this case, the speed will be even higher. There will also be less current surges at ON, 11

Claims (1)

Invention Formula A device for compensation of reactive power, containing a three-phase capacitor battery, one, the conclusions of which are intended to be connected to the network, the second terminals of the battery are connected to a triangular gate switch formed by two diodes and a thyristor; a voltage transformer is connected to the first terminals of the battery; the secondary winding of which is connected to the pulse shaper, the output connected to the thyristor control input via the command-contact contact, in order to increase the speed and decrease current surges when switched on it is additionally equipped with two similar batteries, two switches, two pulse shapers, and two control device contacts, included between the thyristor control inputs and the output shapers, which are connected to the outputs of the secondary windings of the transformer, and the capacitors of the second and third batteries are connected to the first the first terminals of the first battery, the second and third triangular switches are connected to the second outputs of the second and third batteries, and the thyristors of the valve commutators of three batteries are connected to different phases of the network. 6   -ONCG 7 4 2 6   -ONCG 7