SU504276A1 - Device for compensating voltage fluctuations - Google Patents

Description

DEVICE FOR COMPENSATION

(54) SPLASHING VOLTAGE

The invention relates to the distribution of electrical energy, namely, to distribution. ; Electric Network m.

The device is pre: 1st is designed to compensate for voltage fluctuations, as well as rehearsing voltage values, and can be used in substations on radial electric lines.

A device is known to compensate for voltage fluctuations, the main element of which is a double unpowered (magnetisable) reactor) primary winding I of which is connected in series with the load, and the secondary winding together with the amp & turn on of the included conditioment is shunt a chain, one f {| g | uoM with | connection1 with the primary winding and, with a power supply source, and the other connected with ;; the second output of the power source. In | the result of mutual inductive coupling between the windings of the reactor creates an effect equivalent to the successive bone compensation ...

The known device does not adequately stabilize the voltage at

: change in mains resistance. : These changes are due to the switching of the transformer branch lines & I or to a change in the supply network design. I In addition, in the known device, the equipment is used inefficiently, since the effect of the current of a capacitor battery on the load voltage and is manifested only through the mutual inductance of the winding, .peaiKTOpa. Voltage regulation with the help of such a device is unacceptable, since it increases the voltage of the bath.

The aim of the invention is to create a device to compensate for oscillations, a voltage that ensures accurate voltage stabilization both when the load current changes and when the supply network resistance changes, as well as to regulate the required voltage within the required limits of the stabilized voltage:.

This is achieved by the fact that the dual reactor is equipped with a magnetising overlap, its secondary winding is connected to the network between the primary winding of the reactor and the load and an additional capacitor battery is connected in parallel with it.

The drawing is a schematic diagram of a device for compensating for voltage fluctuations.

 The device consists of a dual reactor 1, having a primary winding 2, a secondary winding 3 and a bias winding 4, times interfered with by a ferromagnetic core 5. A capacitor battery 6 is connected in series with the winding 3, and in parallel; winding 3 - additional capacitor (battery 7.

The voltage stabilization of a UTB is as follows. As the load current increases, the voltage drop across the supply network increases, the voltage across the load decreases accordingly. (due to the mutual inductive coupling between the windings of the reactor 1) the voltage on its secondary winding 3 increases. The mode of the chain containing the winding 3 and the capacitor battery 6 approaches the voltage resonance with a predominance of voltage on the battery 6 and the current in the chain is increasing. As a result, the voltage on the primary winding 2 of the reactor 1 rises, moreover, under the influence of two factors: an increase in the current flowing through the winding 2 of the capacitor battery 6 and an increase in the voltage on the mutual inductance resistance of the reactor 1 due to an increase in current in the secondary winding 3. At proper selection of the device parameters, the increase in voltage on the winding 2 turns out to be such that it compensates for the voltage drop in the network, and the voltage on the load is kept stable. Such operation of the device is equivalent to .100% longitudinal mkostnoy compensation.

When the resistance of the power supply network changes, the compensation conditions are violated and, when the load changes drastically,

voltage fluctuations that also affect ifa consumers feeding from both their tires with a given load. To restore compensation, the reactor inductance is changed by adjusting the bias current in the winding 4.

By varying the inductance of the reactor, it is also possible to regulate the “arrays on load. ; If you need to solve two

tasks, eliminate voltage fluctuations and at the same time regulate its magnitude, the device parameters are chosen in such a way that a mode close to resonance takes place (JTOKOB in a parallel circuit - additional capacitor battery 7 and secondary winding of reactor 3 with prevailing inductive current Due to this setting, with a small iz;; me. Inductance of the reactor significantly changes the equivalent resistance of the parallel circuit and, accordingly, the current of the capacitor battery 6. The range of voltage regulation n load is obtained at high inessential

detuning from full compensation mode.

The device can be applied both in single-phase and in three-phase networks.

Claims (1)

30 claims A device for compensating voltage fluctuations, containing a dual reactor, the primary winding of which is connected in series with the load, and the secondary winding is connected in series with a capacitor battery to a supply voltage, characterized in that, in order to improve the accuracy of the voltage stabilization and control of the voltage, the dual reactor provided with a bias magnetic winding, its secondary winding is connected to the network between the primary winding and the load and an additional capacitor battery is connected in parallel with it e. HAL Od vi