DE602956C - Installation on asynchronous or synchronous reactive power machines to keep the line voltage constant when the line voltage increases - Google Patents

Description

Setup on asynchronous or synchronous reactive power machines to keep the line voltage constant when the line voltage increases, reactive power machines, which serve by delivering reactive power to an existing alternating current network To keep its tension constant must occur in the event of undesired increases in tension can be regulated quickly. In general, this regulation has so far been implemented with the help of Complicated relay controls or the like. Made.

The invention relates to a simple automatic device to regulate the excitation of reactive power machines in order to keep the Mains voltage. The reactive power machine is mechanically operated by one with it coupled exciter with ancillary exciter excitation winding. According to the invention In addition to the shunt excitation winding, the excitation machine also has a counter-excitation winding. In the event of a line voltage increase, this counter-excitation winding depresses the overall excitation on the exciter and thus also on the reactive power machine. the Reactive power machine then acts by reducing the line voltage increase Delivery of reactive power against.

There are already known arrangements in which for the excitation the exciter machine. a reactive power machine two oppositely connected Voltages are provided. These voltages are in separate transformers generated and fed to the excitation winding in counter-circuit. In contrast possesses in the arrangement according to the invention, the exciter itself besides the Shunt excitation winding still a counter excitation winding. This arrangement is first much easier, in addition, it is also very strong under all circumstances If the line voltage drops or rises, a strong excitation or. De-excitement the reactive power machine guaranteed. This. can be attributed to the fact that the secondary excitation winding even if the mains voltage drops to a large extent is still effective.

The simplified circuit is shown in the FIGURE a device designed according to the invention shown. i means a three-phase network, at. that the -asynchronous reactive power machine 2 'is connected. The excitement the reactive power machine takes place via the slip rings 3 through a commutator rear machine q., which is provided with a shunt excitation winding 5, for example. These Exciter q. has a second counteracting the shunt excitation winding Pathogen Winding 6, which is connected to the secondary winding via the frequency converter 7 of the current transformer 8 is connected. The current transformer 8 is on the primary side switched into the circuit of the choke coil 9 provided according to the invention, which is connected to the network i. The machines 2, q. and 7 are with each other coupled.

As soon as the mains voltage over a increases in a certain value, changes the excitation current which the choke coil records. As a result, the secondary voltage of the current transformer 8 also rises sharply on, and a stronger current flows through the counter excitation winding 6 of the exciter q., so that the excitation and thus that of the reactive power machine to the network i output reactive power is greatly reduced. As a result of reducing this emitted capacitive reactive power makes itself the influence of the inductive Reactive currents caused voltage drop on the line again strongly noticeable, so that the mains voltage automatically goes back to the desired value. Is the - choke with an iron core. provided, so the excitation of the reactive power machine weakened to a greater extent than the tension increased.

The invention is also applicable to synchronous machines. Are synchronous machines With DC excitation used as reactive power machines, so is the frequency converter by an AC-DC converter, e.g. B. by the well-known Danielsohn converter, replaced. Rectifiers of any design can also be used.

Claims (3)

PATTERN CLAIM: i. Setup on asynchronous or synchronous reactive power machines, those of one with them. mechanically coupled exciter with shunt exciter winding be excited to keep it constant. the mains voltage in the event of mains voltage increases, characterized in that the exciter apart from the shunt exciter winding (5) still has a counter excitation winding (6). 2. Installation on asynchronous reactive power machines according to claim i, characterized in that the generator exciter winding of the exciter machine via a frequency converter (7) from the secondary winding of a current transformer (8) whose primary winding is fed by the inductor current: one connected to the mains Flow through the throttle coil (9). 3. Device according to claim 2, characterized in that that the choke coil has an iron core which is highly saturated. -q .. establishment on synchronous reactive power machines according to claim i, characterized in that the counter-excitation winding of the excitation machine via an AC-DC converter fed by the secondary winding of a current transformer, its primary winding is traversed by the choke coil current of a choke coil connected to the network. Facility according to claim q., characterized in that as an alternating current-direct current converter Rectifiers are used.