SU1462449A1 - Reactive power source - Google Patents

Abstract

The invention relates to electrical engineering and can be used in electrical networks and systems to compensate for reactive power. The goal is to increase the efficiency of using capacitors and ensure the possibility of controlling reactive power. The thyristors 2 are supplied with control pulses from the control unit 5. Depending on the phase of these pulses, the average value of the current flowing through the capacitors 1 and, consequently, the reactive power generated by them into the network changes. Reactors limit the rate of current change in capacitors 1, as well as due to their large magnitude. Oscillatory processes that may occur when the circuit containing capacitor 1 is turned on, are limited. J ep f-ly, 1 ill. (L

Description

The invention relates to the field of 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 efficiency with which capacitors are used and to enable the control of reactive power.

The drawing shows a diagram of the device.

 The capacitors 1 are connected to the network by one end, and the second are connected to the anodes of controlled thyristor valves 2, in series with which reactors 3 are connected. Parallel to reactors 3, diodes 4 are connected bypassing the second ones of the subsequent phases to the thyristors anodes 2. The outputs of the control unit 5 are connected to the control inputs of the thyristors 2.

The device works as follows.

The thyristors 2 are supplied with control pulses from the control unit 5. The phase of these pulses can vary from 0 to 240 e. hail Depending on this, the duration of the current flowing through the thyristors 2 varies from 240 to 0 el. hail. The average value of the current flowing through the capacitor also changes.

1, and hence the reactive power generated by them into the network. Reactors 3 limit the rate of current measurement in capacitors 1, and also due to its large value

0

15

20

25

thirty

35

include oscillatory processes that may occur when you turn on the circuit containing a capacitor)., Ie they actually play the role of a smoothing reactor in the rectifier circuit. At the same time, direct current flows through reactors 3. The latter also allows all three windings of reactors 3 to be placed on a common magnetic conductor, which leads to simplification of the system. new The magnetic core must have a W-shaped design, on each rod is placed one winding of the reactor 3.

Claims (2)

1. A reactive power source containing a three-phase capacitor battery, each phase of which is connected at one end to the network and the other to the first branch leads of the same name, and reactors, characterized in that, in order to increase the efficiency of the use of capacitors and ensure the possibility of controlling reactive power, it additionally contains diodes connected in parallel to the reactors, which are connected between the second terminals of the valves and the adjacent phase of the capacitors, and the diodes are connected in the opposite direction to the valves that Oy turn made controllable. 2. The source according to claim 1, characterized in that all three reactors are located on a common W-shaped magnetic core.