SU720607A1 - Device for differential protection of transformer - Google Patents

Description

one

The invention relates to electrical engineering, namely, relay protection devices and can be used to protect transformers, generator-transformer blocks and motors.

Devices are known in which reactive relays are connected to the secondary windings of intermediate saturated saturating transformers, the primary windings of which are connected to a differential protection circuit (1),

It is also known a device for differential protection of a transformer containing current transformers installed at the ends of a protective object whose secondary windings are included in a differential circuit, a braking unit made in the form of secondary windings of saturable transformers connected in an "open triangle" circuit and through a rectifying bridge connected to the brake input of the reacting organ of directional action, the working unit made in the form of secondary windings of saturable transformers, which also connected in an "open triangle ri" through a straightening bridge connected. with a working input of the reacting organ (2 |. The disadvantages of the known device are unsatisfactory detuning from inrush currents when the transformer is turned on at idle and the sensitivity is not enough.

The aim of the invention is to improve the sensitivity of the transformer differential protection.

To do this, in a device for differential protection of a transformer, containing: current transformers installed at the ends of the protected object, the secondary windings of which are phase-wired according to a circuit with circulating currents, saturating transformers, the primary windings of which are included in a differential circuit of circulating currents and connected according to "Stars, brake unit, made in the form of secondary windings of saturable transformers

Claims (2)

0 differential circuits connected according to the open triangle scheme and through a rectifying bridge connected to the braking input of the response organ of the directional action, the working unit made in the form of secondary windings of saturable differential circuit transformers, which are also connected according to the open triangle scheme and through the rectifying bridge is connected to the working input of the reacting body, the secondary windings of the saturable differential circuit transformers entering the working unit are phase-wise connected to rectifying bridges that are interconnected by opposite-sided clamps. FIG. 1 shows the electrical circuit of the differential protection of a two-winding transformer; in fig. 2 shows the distribution of currents (voltages) along the primary windings of the NTT in a two-phase short circuit; in fig. 3, the principle of determining the voltage at the terminals of an open triangle in a two-phase short circuit is explained. From different sides of the protected transformer 1, current transformers 2 are installed, which are connected according to the "star and triangle" schemes and are interconnected according to a differential scheme. Circuit currents in the arms of the circuit include the primary windings of the saturable transformers 3. The primary windings of these transformers are taped off and turn on the current so that the voltage on the secondary windings during operation of the protected transformer under load is zero. One group of secondary HTB windings of the NTT is connected according to the "open triangle" scheme and connected to rectifier 4. Another group of secondary windings is connected to rectifiers 5, which are interconnected by different polarity clamps. The rectifier 4 is connected to the brake winding 6 of the reactive organ (PO), and the rectifier 5 to the working winding 7 RO. FIG. Figure 2 shows the distribution of currents in a two-phase short circuit in the zone of differential protection from the winding side of the protected transformer connected in a star. FIG. 3 explains the principle of determining the voltage at the terminals of a "closed triangle in a two-phase short circuit in the area of differential protection. When the protected transformer is turned on under voltage, there is a surge of magnetization current (BTN), a detuning from which is achieved in some cases due to saturation of the NTT (when aperiodic components exist in all phases), in others - due to deceleration by PO current from an "open triangle" (when in one phase the current has no aperiodic component). In the case of short circuiting in the protected zone, the operating current, which is determined by the arithmetic sum of the secondary voltages of the saturable transformers, is always greater than the braking current, due to the geometric sum of the voltages as well, which ensures the operation of the PO. The proposed device for differential protection of transformers has several advantages over known devices of the same purpose. Improving the detuning from BTN makes it possible to increase the sensitivity of transformer differential protection. The proposed device is more reliable in operation. It is simpler than the known devices, since it is single-system. The proposed device consists of elements that are commercially available commercially. This simplifies its manufacture and configuration. In order to bring it to industrial use, it is necessary to clarify the parameters of such individual elements as NTT, PO and others. Formula of the Invention A device for transformer differential protection containing current transformers installed at the ends of an object to be protected, the secondary windings of which are phasewise connected according to a circuit with circulating currents saturated transformers, the primary windings of which are included in a differential circuit of a circuit with circulating currents and connected according to the “star” scheme, the brake unit made in The secondary windings of saturable differential circuit transformers connected in an "open triangle" circuit and through a rectifying bridge connected to the braking input of the response organ of a directional action, the working unit made in the form of the secondary windings of saturable differential circuit transformers, which are also connected in an "open triangle" and through a rectifying bridge, they are connected to the working entrance of the reacting organ, characterized in that, in order to increase the sensitivity, secondary The windings of the saturable differential circuit transformers, included in the working unit, are phase-wise connected to rectifying bridges, which are interconnected by different polarized clamps. Sources of information taken into account during the examination 1. USSR author's certificate No. 576639, cl. H 02 H 3/28, 1975. 2. USSR author's certificate for application No. 2448229 / 24-07, cl. H 02 H 3/28, 1977. ..- l: 2jiZ .-. Xr.T.:i5J i2B z: S ta: -. 43.109 Figure 1% / d Ul J Ui H HJ HZH} .3