SU1056356A1 - Device for compensating currents of negative and zero phase-sequences in three-phase four-wire power network - Google Patents

Abstract

yCTPOfteTBO FOR COMPENSATION OF REVERSE CURRENTS AND JHy / lEBOiS PREVIOUSLY INTO THREE PHASES -: -: -. A LOW FOUR-WIRE ELECTRIC SIGNALS containing two phase-shifting autotransformers with otpavkami, one pins connected to H connected to one phase of its electric network, and the second pins to other phases of the electrical network, the capacitor. one connected to the neutral wire, and the second to the phase tapings (shifting autotransformer, to the choke connected by one output to the neutral wire, and BTopbBvi to the necks of the second phase shifter of the autotransformer, so that that, in order to reduce the installed capacity when powering two single-phase loads, each of them is connected between the argudromm and the network 7 phase associated with the ojoestA output of the corresponding phase shifter of the transformer.

Description

Isoprotein fires to the erectrogus: nickname and can be used. in three-phase electrical networks with a neutral wire for compensating for currents of the reverse and zero sequences and, thereby, reducing the asymmetry and imbalance of the currents of the voltages when connecting single-phase loads, varying in nature and size, to phase voltages. Known balancing devices are used in three-phase four-wire networks to compensate for zero-sequence currents. The disadvantages of these devices are that they cannot simultaneously jointly compensate for reverse and zero-sequence currents. In addition, these devices are designed only for balancing single-phase. loads with a fixed phase angle and have a significant 5 power, the closest in technical essence to the proposed one is a device for. Compensation of currents of reverse and zero sequences in three-phase four-wire 1X2 x, containing two phase-shifting autotransformers with taps, one terminals of which are combined and connected to one phase of the electric network, and the second terminals to other phases of the electric network, a capacitor, wired with one terminal to the zero wire, and the second to the markings of the phase-shifting autotransformer, and the choke, including one output to the neutral wire, and the second to the second phase shifter of its 4J autotransformer. The disadvantage of the known device is that it is intended only for symmetrical loads connected to one phase voltage. When under; However, when two loads are connected (in the south of their groups into two phase switches, two devices must be installed. This solution is associated with an almost no increase (almost twofold) of the total installed power of the control system. The purpose of the invention is to reduce the installed power of the device when two loads are connected This goal is achieved by the fact that in the device for the compensation of currents of the inverse and zero sequences r in a three-phase conductive electrical network containing two phase shifting autotransformers with taps. Which are combined and podupocheny on one phase of the electrical network, and the second conclusions - to other phases of the electrical network, the capacitor connected by one output to the neutral wire, and the second to the tapes of the phase shifter autotransformer and the choke, connected by one view to the zero wire, and the second to The second phase shifting autotransformer taps, each of the loads is connected between the neutral wire and a network connected to one pin of the corresponding phase shifting autotransformer. :, FIG. 1 is a circuit diagram of the device of FIG. 2 is a vector diagram of currents, voltages and pulsating powers, illustrating the operation of the proposed SU. The device contains two balancing elements 1 (choke) and 2 (capacitor), two phase-shifting autotransformers 3 and 4, two single phase terminals 5 and 6. In FIG. The two principles are as follows: A, B, C, O are the phases of the network, Od i U Sun ycfc are linear voltages, One ..Ov. WD - phase voltages, U n U voltages, respectively, on a choke 1 n, a condenser 2, Л .н р, / - phase voltage yi-ly U /, and Uj, Ncy and; N C - total pulsating power generated respectively by balancing elements 1 to 2 and two-pole single-phase loads 3 to 4. Autotransformers 3 and 4 are connected to one common point that is connected to one of the network phases (phase A), and the other two outputs autotransformers are connected to the two remaining phases of the network (respectively, phase B to C) and between the same phases (B and C) and the neutral wire of the network (O) there are two single-phase plug-in connectors 5 to 6, while simulating elements 1 (droshgel) in 2 (kovdvsator) included acc Actually between the tap-offs: autotransformers 3 and 4 and the volcano n) and the network drive (FROM Obshchia point of autotransformers 3 to 4, must always be connected to a phase phase that is not connected to single-phase loads. The balancing device allows for half current atypes and zero sequences with the connection of two single-phase loads OR their loads for arbitrary measurements of their size and character

Claims (1)

DEVICE FOR COMPENSATION OF REVERSE AND ZERO SEQUENCE CURRENTS IN THREE-PHASE ... * Λ W „'' -------— 1 '· . ——— w- " i .Ϊα '-sy' is / C® 7j A NEW FOUR-WIRING ELECTRICAL 'NETWORK.', Containing two phase-shifting autotransformers with cut-offs, one of the terminals of which are connected ¹ and connected to one phase of the electrical network, and the second leads to other phases of the electrical network, a capacitor connected by one output to the neutral wire and the second - to the solders of the phase-shifting autotransformer, and a throttle connected by one output to the neutral wire, and the second to the soldering of the second phase-shifting autotransformer, which should be done in order to reduce the installed capacity and when feeding two single-phase loads, each load is connected between the neutral conductor and phase network; associated with one output of the corresponding phase shifting autotransformer. ^ SU „,. 1056356