DE526076C - Protection transformer circuit for high voltage transformers - Google Patents

Description

Protection transformer circuit for high voltage transformers It is known. Transformers operate in cascade connection in order to achieve high Stresses to split the total stress in the steady state into partial stresses, which, in terms of insulation, can be mastered with simpler xl means.

The experiment shows, however, that the non-stationary states such as sudden discharges and flashovers, trigger waves, which are by no means adhere to the favorable distribution of the voltage between the various transformers, but hit the first transformer with the full force of the "total voltage".

The invention relates to a protective transformer circuit for high voltage transformers, «-Which, following the well-known example of choke coils, such jump waves die down target. For this purpose, according to the invention, the high-voltage transformer to be protected is used Upstream small protective transformer with its exciter winding in staggered connection in this way to a limited winding section serving as an auxiliary winding of the "transformer to be protected" switched that with appropriate choice the potential position of this auxiliary winding the occurring voltage difference in both Transformers is reduced to the minimum. As a result of this circuit it follows that the protection transformer insulation and winding technology only to be built for a fraction of the voltage of the zri protective transformer needs, while with series connection, as has already been proposed, the protection transformer would have to be isolated from earth for full voltage. So you are here with one for 3o ° ;. protection transformer calculated from the voltage of the transformer to be protected for practice already reach the extreme limit of the dimensions of the same.

The present protection transformer fulfills the same end purpose like a choke coil; but it can also for purely structural reasons therefore cannot be compared with a choke coil, because such a coil is always a the current flowing through it causes a proportional voltage drop, which is the case with the present protection transformer circuit is not the case.

The schematic drawing serves, for example, to illustrate the invention. The high-voltage transformer to be protected, which is provided with thrust windings e in a known manner, is denoted by A and the protective transformer provided to protect it against surge waves is denoted by B. The latter shows the usual design. Its excitation winding b is fed by a winding section a of the main transformer A serving as an auxiliary winding, and accordingly it is only calculated for a fraction of the voltage of the transformer A to be protected in terms of insulation and winding. Like this, it can also be provided with thrust windings, the resistance value of which is adjusted so that the attenuation of the jump waves is a maximum. The protective transformer B can be switched on to the high-voltage transformer A in such a way that its internal voltage is directed in the same way or in the opposite direction to the total voltage. It can be designed with increased intrinsic capacitance, provided with a high level of internal attenuation and, together with an also increased inductance, have a large characteristic impedance.

As can be seen from the drawing, the high-voltage winding b1 or another part of the protection transformer B where the high voltage is removed is, in a manner known per se, by a spark gap connected in parallel c, the jump waves that may occur with or without damping resistance d, which exceed the safety limit of the transformer, under reduction the amplitude can pass and designed according to horns or spheres or in some other way can be. Instead of such a spark gap, any other could be used use equivalent device. In addition, it should be noted that it is natural is free, the connection of the secondary winding b1 of the protective transformer B to the to accomplish the supply line corresponding to the highest potential of the main transformer A.

Claims (1)

PATENT CLAIM: Protection transformer circuit for high voltage transformers, characterized in that the high voltage transformer to be protected (A) Upstream small protective transformer (B) with its exciter winding in staggered connection (b) to a restricted winding section (a) of the transformer to be protected is connected from the appropriate potential position.