DE740921C - Synchronous machine with damper winding - Google Patents

Description

Synchronous machine with damper winding Synchronous machines with damper windings are known per se. Especially when operating several synchronous machines in parallel the individual machines are equipped with damper windings to ensure stability to be increased in normal operation and to suppress oscillation. Here you have the machines have been provided with damper windings in recent years that exclusively dampen the longitudinal field. Occasionally one also has a mixed lateral and longitudinal field attenuation applied, in the opinion that in addition to the longitudinal reactance also the transverse reactance Must have the lowest possible value in order to effectively suppress pendulum arcs.

It is also known to operate synchronous machines with shock excitation, in order to prevent swings and falls out of the way in the event of shorts or shorts. It lay therefore close, to ensure stability in normal operation and in the event of short circuits to combine the two means, and one has lately made such considerations A damper winding in the shape, especially in machines with higher performance the usual cage armature with continuous short-circuit rings, d. H. with simultaneous Longitudinal and transverse damping, provided and used for shock excitation in the event of a short circuit.

The inventor has now found that the combined application of shock excitation and the damper windings do not always correspond to the expected result. It is particularly undesirable that with two-pole short circuits on the healthy conductor extraordinarily high overvoltages occur, on the one hand by the asymmetrical Load on the machine, but through the application of shock excitation experience an additional increase, which often makes operational safety normal measured Plant parts; endangered. With three-pole short circuits such overvoltages do not occur when using shock excitation, and it appears it is therefore advisable to provide means which only excite the shock in three-pole, but do not switch on in the event of two-pole short circuits. Only at the expense of stability In the case of two-pole short misses, impermissibly high overvoltages are avoided.

According to the invention it is now possible to eliminate these disadvantages and in normal operation on the one hand to suppress oscillations and on the other hand for all To prevent short circuits from falling out of step without having to do with two-pole short circuits the voltage of the healthy conductor assumes impermissibly high values. It becomes that because of it achieves that the machine is operated with impulse excitation for all short circuits and has a damper winding which mainly only dampens the transverse field. By the strong attenuation of the transverse field can make the transverse reactance much less than the longitudinal reactance can be made so that the ratio of the two reactances is the can assume the values required for low asymmetry voltages. Mostly will the exclusive attenuation of the transverse field is sufficient; with very strong cross-field attenuation However, a low longitudinal attenuation will often still be used. Apart from the strong reduction in overvoltages in two-pole short circuits has the predominant transverse field damping still has the advantage that then the shock excitation actually occurs only becomes fully effective and the damper winding itself with less copper can be executed.

Claims (1)

PATENT CLAIM: Synchronous machine with damper winding, in particular for parallel operation with preferably; similarly designed machines, thereby characterized that the machine operated with impulse excitation for all short circuits and has a damper winding, which mainly only dampens the transverse field, in such a dimension that on the one hand it suppresses oscillations during normal operation and on the other hand, in the event of a short circuit, it is prevented from falling out of the way, without that in the case of two-pole Short circuits the voltage of the healthy conductor assumes impermissibly high values. To the The subject of the application is differentiated from the state of the art in the granting procedure considered: German Patent No. 311 95o, 319480; Archive for Elektrotechnik, Vol. IX, 1920, p.73, Fig. 21.