SU790094A1 - Synchronous generator three-phase compounding device - Google Patents

Description

The invention relates to devices for automatic control of the excitation current of a three-phase synchronous generator, in particular, to its voltage regulators in the form of three-phase compounding devices. Three-phase compounding devices of a synchronous generator, made as simple (non-phase sensitive) and phase compounding devices are known. Phase compounding devices are most widely used, which respond to the absolute value of the generator load current, taking into account its phase and, consequently, providing higher accuracy of voltage regulation. Compounding devices of this type include a three-phase compounding transformer, for example, a three-winding, a compounding element and a three-phase rectifying excitation bridge. The role of the compounding element is then performed by the inductance, capacitance, magnetic shunt in the three-winding compounding transformer, or the air gap in the magnetic system of the compounding braking current transforma Ij. A three-phase synchronizing generator compounding device is known, which contains a compounding transformer, for example, a three-winding compounding element and a rectifying bridge, the output of which is connected to the exciter winding of the generator and the input winding of the compounding transformer connected in a star. This device provides the stabilization of the voltage of the synchronous generator with changes in its load, as well as forcing the excitation of the generator during short circuits in the generator voltage circuit 2j. However, the known three-phase compounding device does not allow to use zero-sequence currents, which constitute the current of the generator nprt, to force the generator excitation. single phase and two phase, i.e., asymmetrical short circuits to earth in the generator voltage circuit. As a result, at the named short circuits the relativity of the relay protection and stability of the parallel operation of synchronous generators would decrease. The purpose of the invention is to increase the forcing of the excitation of a synchronous generator when asymmetrical short circuits to earth in the generator voltage circuit. The goal is achieved by the fact that the well-known three-phase synchronizing generator compounding device containing a compounding transformer, for example a three-winding compounding element and a rectifying bridge, the output of which is connected to the generator excitation winding, and the drive. a star-connected output winding of a compounding transformer is equipped with a valve assembly with an average output and a zero-sequence current transformer in the stator generator winding circuit, the valve assembly is connected in parallel with the excitation winding, and its middle output is connected through the secondary winding of a zero-sequence current transformer zero point output winding of the compounding transformer. In addition, in order to further increase the generator excitation forcing the indicated short circuits to, the zero point at the input winding of the voltage of the three-winding compounding transformer is connected to the zero point of the stator winding of the generator. The drawing shows an electrical diagram of a three-phase compounding device of a synchronous generator. This device includes a three-phase synchronous generator 1, a stator winding 2 of the generator, a winding 3 of the generator, a valve with an output terminal 4, a zero sequence current transformer 5, a compounding element 6, a compounding transformer 7 and a rectifying bridge 8. Input winding voltage The supply of the transformer 7 dummy transformer 7, made of three full-lengths from a full-time one, is connected via a ring-type element 6, shown in the drawing as a throttle parallel to the stator winding 2 of the generator 1. The current winding is compound The transformer 7 is connected in series with the stator winding 2. The output winding of the compounding transformer is connected to the star and connected to the input of the rectifying bridge 8, the output of which is connected to the generator excitation winding 1. Parallel to the generator excitation winding is a valve with an average output 4, connected through the secondary winding of the transformer 5 zero-sequence current with the zero point of the output winding of the compounding transformer 7. Transformer 5 then ka zero sequence is installed in the stator winding circuit 2 of the generator 1 so that its magnetic core covers the conductors of all three phases of the generator. The connection of the zero point at the input winding of the voltage of the three-winding compounding transformer 7 with the zero point of the stator winding 2 of the generator 1 in the drawing is shown through the grounding of these points. Such a connection can also be made in the form of a separate current conductor, if the generator is made with an insulated neutral. With asymmetric (single-phase and two-phase) short-circuits to ground, arising in the generator voltage circuit, the zero-phase electromotive forces acting according to the secondary winding of the current transformer 5 are induced in the secondary winding of the current transformer 5 and in the output winding of the compounding transformer 7. As a result, a full-wave rectified zero-sequence current passes through the excitation winding 3, significantly increasing the generator excitation current 1. The use of the proposed three-phase synchronous generator compounding device will significantly increase the generator excitation forcing with unbalanced short circuits to ground in the generator voltage circuit. This will ensure an increase in the speed of relay protection and stability of parallel operation of synchronous switches. The inventive formula 1. Three-phase compounding device of a synchronous generator, containing

Claims (2)

Claim 1. Three-phase compounding device of a synchronous generator, content5 A living compounding transformer, for example a three-winding, compounding element and a rectifier bridge, the output of which is connected to the excitation winding of the generator, and the input to the output winding of the compounding transformer connected to a star, characterized in that, in order to increase the excitation forcing of the generator with asymmetric short circuits on ground in the generator voltage circuit, the device is equipped with a valve assembly with a middle terminal and a zero-sequence current transformer in the stator coil circuit ki generator, said valve assembly connected in parallel with the excitation winding, while its middle part is connected via a secondary transformer winding Subscription Circulation 783 790094 6 the left point of the output winding of the compound transformer. 2. The device according to π. 1, characterized in that, in order to further increase the excitation boost of the generator during asymmetrical short circuits to the earth in the generator voltage circuit, the zero point at the input voltage winding of the three-winding compound transformer is connected to the zero point of the stator winding of the generator.