DE379526C - Procedure to prevent interference caused by multi-phase resonance currents of the fifth or one higher harmonic occurring in capacitively loaded networks - Google Patents

Description

Method of preventing interference by in capacitively loaded Networks occurring polyphase resonance currents of the fifth or a higher harmonic. Networks fed by alternators via transformers become capacitive loaded, one observes currents of higher frequency under certain operating conditions, which superimpose the primary as well as the secondary current and their amplitudes the Can reach or exceed the amplitude of the fundamental wave current. The cause This phenomenon can be due to the fact that in the curve of the E. M. K. des Generators find higher harmonics, as well as that saturation of the transformer the linear dependence of the magnetic flux on the magnetizing current cancels. For the latter reason, large transformers are often weakly saturated, and you get a significantly higher iron weight than with normal saturation.

How the harmonic currents come about as a result of iron saturation is easy to see, even assuming the generator voltage itself does not have any higher harmonics. The generation of a sinusoidal Counter-voltage causes a field that runs sinusoidally over time. The field generating In this case, ampere-turns are only in the straight-line part of the saturation curve of the transformer proportional to the field. With increasing iron saturation, it grows the size of the required excitation current according to the decrease in permeability. In the case of high iron saturation, the curve of the magnetizing current therefore shows in Near the amplitude value of the field curve a peak, and the analysis of the so The resulting current curve shows the presence of strong third, fifth and higher harmonic waves. The deviation of the magnetizing current from the pure Sinusoidal shape is therefore necessary to achieve a sinusoidal counter voltage and therefore cannot be avoided without further ado. As a result of the always existing reactances of the Circuits also get the harmonics when the voltage drops in the primary circuit expressed, so that thereby the corresponding harmonics also affect the primary voltages of the transformer. On the other hand, this again causes an increase the amplitudes of the relevant harmonics, so that the intensity of this phenomenon works up to an inadmissible height by itself.

In striving to develop the harmonic currents in their training to limit and to prevent their excessive growth, but must proceed in this way that the formation of the sinusoidal field is not inhibited will. This can be achieved according to the method of the invention in that the necessary for free magnetization 'multiphase currents of the fifth or a higher Harmonics are fed to a transformer, which in a known manner with a delta winding is provided to compensate for overcurrents by adding this Winding with one from a capacitor machine or from another capacitor arrangement existing tuned oscillation circuit to eliminate the fifth and higher Harmonics is associated. So they can magnetize freely required multi-phase currents to the transformer through a special synchronous, multi-phase excitation machine are supplied. This exciter machine must be like this be built so that they also take into account the higher harmonic tensions really generated what by appropriate training of the exciting magnet system can be reached. The drive of this exciter machine can be connected to the network lying synchronous motor. But it can also run freely as a synchronous motor be operated by their no-load current of the auxiliary winding fed by it of the transformer. In Fig. I the new method is based on an exemplary embodiment of the type mentioned explained in more detail. It means N, a three-phase network, P a to NI connected transformer, which is above the straight part of the saturation curve works, P the primary winding of T, the secondary winding of T, H one on the Transformer iron located auxiliary winding, N2 that with the winding Q connected secondary network, E a three-phase exciter, S the slip rings from E, F the field excitation, from E, B a direct current battery for supplying the field excitation F.

The arrangement of the transformer T with that connected in triangle Auxiliary winding H is known per se. This auxiliary winding is namely suitable that lead to the necessary third harmonic currents for free magnetization. Since these currents run in phase in all three phase windings of .P and Q, so the triangular winding H represents a short-circuited single-phase winding for the third harmonic represents in which for this current the three winding parts (a, ß, y) simply in series are switched. To suppress the fifth, seventh, etc. upper harmonics Currents, the auxiliary winding H alone is not sufficient because the harmonic higher order in the three phase windings of the three cores not as in-phase Currents occur. In this case, they run in three phases and can therefore only can be compensated by three-phase power sources. Serves as such according to the invention the synchronous excitation machine E, whose slip rings with the terminals of the winding H are connected and which has poles formed in such a way that they except the Counter voltage from the fundamental frequency still has a pronounced harmonic of the one in question coming higher frequency generated. The field winding F of this machine is through the DC battery B is energized. The free-running synchronous exciter E removes of the winding H, as already mentioned, the no-load power by a current of the fundamental frequency and in turn sends a magnetizing current of the frequency of the harmonic to be suppressed into the winding H. So this stream will is no longer taken from the network Ni or N2, and it does not close via the Operating capacity of the network.

Instead of the exciter E, according to Fig. 2, one from the Series connection of an inductance L and a capacitance C formed oscillation circuit occur, which is tuned for the harmonic frequency in question in resonance is located. Due to this oscillation circuit, the auxiliary winding is also multi-phase for the running higher harmonics short-circuited, and it therefore conducts outside the current of the third harmonic, a current of the harmonic to which the oscillation circuit (L + C) is coordinated. In Fig. 2 the meaning of the letters is the same as in Fig. _. Instead of the exciter E, as can be seen, the arrangement of the with the self-inductance L of the capacitance C connected in series.

According to the invention, the necessary for free magnetization are carried out Multi-phase currents of higher frequency through the transformer T in the manner explained special facilities too, then the operating transformer can operate normally be saturated without disturbing resonance phenomena in the network to be expected.

Claims (6)

PATENT CLAIMS: i. Procedure to prevent interference from in capacitively loaded networks occurring polyphase resonance overcurrents of the fifth or a higher harmonic, characterized in that the for free magnetization necessary currents of the transformers connected to the network through a triangular winding located on them is supplied by this known per se Delta winding with one from a capacitor machine or from another capacitor arrangement existing tuned oscillation circuit to eliminate the fifth or higher Harmonics is associated. 2. The method according to claim i, thereby characterized in that the currents necessary for free magnetization in a special Exciter machine are generated. 3. The method according to claim 2, characterized in that that the exciter is operated as a free-running synchronous machine. q .. procedure according to claim r, characterized in that the Triangular winding through a multi-phase oscillation circuit tuned to a specific harmonic is short-circuited. 5. The method according to claim: 1, characterized in that the connection of the oscillation circuit via an intermediate transformer, which in in this case the triangular winding is obtained. 6. The method according to claim 2 and characterized in that as a triangular winding located on the transformer a special auxiliary winding is used, which is also known per se Way, serves as a single-phase short for the third harmonic.