SU82906A1 - Device for self-excited synchronous generator - Google Patents

Description

A device for self-excitation of a synchronous generator, consisting of a system of solid rectifiers, and a stabilizing transformer, is proposed.

Devices of this kind are known in which transformers have a shunt and serial primary windings and a secondary winding to which these rectifiers are connected. The disadvantages of such devices are the mutual influence of the primary windings and the complexity of the transformer calculation.

In the proposed device, these drawbacks are eliminated due to the fact that the core of the stabilizing transformer is divided into two separate parts, one of which has a shunt winding wound, and the other serial winding, and the secondary winding simultaneously covers both these parts.

FIG. 1 of the drawing is a diagram of the proposed device, and FIG. 2 - sketch of a stabilizing transformer.

The device consists of a stabilizing transformer T, which has two primary windings - shunt 1 and serial 2, and one secondary winding 3, and a system of solid rectifiers B.

The core of the transformer T is divided into two parts 4 and 5.

The main core 5 transmits magnetic flux during idling and the load of the synchronous generator. This core is made of electrical steel and encompasses the primary shunt winding, which is driven directly to the terminals of the stator winding of the synchronous generator.

The second core 4 is also made of electrical steel and is covered by the primary serial winding 2, the beginning of the turns of which is connected to the stator winding clamps together with the shunt winding, and the ends are outputted to the output terminals of the synchronous generator.

A series winding 2 is designed to regulate the voltage of the synchronous generator under load and is wound in such a direction that its magnetic flux is added to the stream of a shunt winding.

No. 82906-2 -

In addition to the shunt and serial windings, both cores are covered by a common secondary winding 3 supplying solid rectifiers B.

The device works as follows: after starting the synchronous generator and when it reaches approximately synchronous speed, the button X is pressed, which short-circuits the two phases of the generator. At the same time, a large current will flow through the serial winding 2 of the transformer. The voltage thus amplified from the residual magnetism acting on the terminals of the winding 1 is transmitted to the excitation winding of the generator; thanks to this, the generator quickly reaches its full voltage (the button / C is quickly released).

When idling, solid rectifier B is powered by a shunt winding / transformer G.

When the generator load on the serial winding 2 flows the load current. This current creates additional current turns, which increase the total magnetic flux of the transformer.

Serial current turns are selected or calculated so that the voltage at the terminals of the excitation winding of the generator does not decrease with an increase in its load. In this case, the excitation current will increase, compensating for the demagnetizing effect of the core reaction and the voltage drop in the generator and the serial winding 2.

The transformer T will then automatically adjust the voltage of the synchronous generator, keeping it almost constant.

Subject invention

A device for self-excitation of a synchronous generator, consisting of a system of solid rectifiers and a stabilizing transformer with a shunt and serial primary windings and a secondary winding, to which these rectifiers are connected, characterized in that the core of the latter is subdivided into two separate parts, one of which is threaded by a shunt winding, and on the other series and which carry the secondary winding common to them.

Power stator

Go to the Excite Switch.