SU1136247A1 - Device for simulating inrush of magnetizing current of power transmission - Google Patents

Abstract

USTROYSTYU to model: Nia CAST power transformer magnetizing current, comprising AC and DC, linear choke, characterized in that, in order to increase the accuracy of the simulated magnitude of the magnetization current, it is further introduced a non-linear choke with split windings and the inclusion in block the moment of the voltage crossing through zero, the AC source being connected, Jchen to the output terminals of the device through the series-connected power supply unit at the time of switching the voltage neither through zero, linear and nonlinear chokes, but the direct current source is connected with one pin to the common connection point of the first wires of the split windings, and the other to their second terminals.

Description

The invention relates to electrical engineering and can be used in specialized test benches for simulating the injection of the magnetizing current of a power transformer when switched on. A device for simulating a switching current is known, consisting of gates, resistors and transformers, with the help of which the control of a throw of the magnetized Current of power transformers lj is formed. The disadvantage of this device is the absence of rounding of the half-wave current at the base, which changes the spectral composition of 6poQKa magnetizing current, increasing the second harmonic by 15%, and causes non-differentiability of the function at this point. This leads to errors in test results, especially if the input device of the relay is a transreactor. Closest to the invention. is a device for simulating the magnetizing current surge of a power transformer, containing a voltage source of industrial frequency, a DC source, saturating and non-absorbing transformers and a linear choke i2J. The disadvantages of the known device are the lack of separate amplitude adjustment and the base of the magnetizing current roll , the dependence of the form of the simulated throw on the model parameters and the absence of the damping of the throw, which reduces the reliability of the tested or tuned transf Matora. The purpose of the invention is to improve the accuracy of the simulated magnitude of the magnetizing current -. The goal is achieved by the fact that the device for simulating a surge of magnetizing current of a power transformer containing sources of alternating and direct current, a linear choke, additionally introduced a nonlinear throttle C; split windings and switching unit at the moment of transition eg. zero across, the AC source is connected to the output terminals of the device through a series-connected switch-on unit at the time of voltage transfer 71, the zero, linear and nonlinear chokes, and the DC source is connected to the common connection point of the split windings with a single clamp, and others to their second conclusions. The drawing shows the proposed device. The device contains an alternating current source 1, a switch-on unit 2, a linear choke 3, a split non-linear choke consisting of two cores 4 and 5, a constant-current source 6, an amplifier 7. The switch-on unit 2 provides switching on the alternating current source at the moment of voltage transfer through zero and can be performed on analog or digital principle. Line choke 3 provides the time constant of the magnetizing current surge. The nonlinear choke forms the magnitude and sign of the residual flux linkage. It is made of high-grade steel, which ensures a low magnetization current in a steady state and a surge current in a transient energization mode. Structurally, the core of the throttle is filled with split. On one core 4, the winding contains ttw turns, on the other - (1 - zb) (“), and between them they are connected in series, and the total number of turns on both cores is always constant (about - coefficient less than 1). The direct current source 6 sets the limit residual induction in each core of the opposite sign. If the number of turns of the windings is the same, then the throttle core has zero residual induction. By varying the number of turns of the windings QtM and (1 -ot) W, a different amount of residual flux linkage can be obtained. A large-scale amplifier 7 can be used to control the amplitude of the simulated current. The proposed device is simpler than known, since it does not require special powerful sources of direct current, it provides a damped surge of magnetizing current with given initial characteristics: amplitude and osc. 311362474

ovany. Its application will allow the furnace to save time and increase more accurately and comprehensively test the stability of the relay relay device operation, which provides light protection.

Claims (1)

DEVICE FOR MODELING-. NII THROWING OF A MAGNETIZING CURRENT OF A POWER TRANSFORMER, containing alternating current and direct current sources, a linear inductor, characterized in that, in order to increase the accuracy of the modeled value of the magnetization current, a non-linear inductor with split windings and an on-time block at the moment of voltage transition through zero are additionally introduced into it, moreover, the AC source is connected to the output terminals of the device through a series-connected switching unit at the time of voltage transition through zero, linear and non-linear throttle inductors, and the direct current source is connected by one-clamp to the common point of connection of the first terminals of the split windings, and the other to their second terminals. whether / ssesr 1 -H 1 * 2208 Z ’Ί ί L ί 1 6 4208 1