DE296460C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

φ 76 - ·.;

CLASS 21 «. ^ GROUP - ^ h '\" t

SOCIETY FOR WIRELESS TELEGRAPHY m. B. H.

in Berlin.

Choke coil for high frequency power systems. Patented in the German Empire on July 15, 1915.

In high-frequency technology, especially in high-frequency machine systems, the task of transferring high-frequency voltages of different periods from an apparatus or a power source through interconnection to keep them from choke coils. Especially with large stations for wireless telegraphy and telephony is necessary in view of the many power lines, very many to apply such reactors.

According to the present invention, a part of these reactors can be saved, and it is possible to hold off high-frequency voltages in a simpler way with one Minimum of material and expenses.

There are then the choke coils, which hold voltages of different frequencies have so arranged that they are due to their location by mutual induction and concatenation get a higher self-induction value, which is included in the square of the total number of turns, while with the previous one, spatially separated arrangement of the choke coils their entire self-induction is only equal to the sum of the individual self-inductions.

For the practice of the invention, it does not matter whether the throttles as air or Iron chokes are run, or whether in the latter case they are on a closed iron or open core.

In the drawing, an embodiment of a throttle according to the present invention is shown schematically. The drawing shows, for example, three pairs of transformers A ₁ B and C of a period doubling system by means of static DC magnetized iron cores. For the sake of clarity, the alternating current windings on the cores 1, 2, 3, 4, 5, 6 of the period transformers and their connecting lines are omitted and only the direct current windings required for magnetization are drawn. D shows the choke forming the subject of the invention, which has the purpose of keeping the high-frequency voltages generated in the period transformers from a common direct current source E. As can be seen from the figure, the current of the direct current source E goes first via the choke 7, via the transformer pair A, then further via the choke 8 through the transformer pair B, then via the choke 9 through the transformer pair C and then via the choke 10 to DC power source E back.

In the practical implementation of this total inductor one becomes the individual parts the same have to be dimensioned so that the throttling effect of the individual parts for all Frequencies is as equal as possible. In this case you can get there with the least amount of effort of material. The points of view that you have to consider in the first place result for the individual cases that occur from the given ratios of the frequencies of the partial circles and the high-

Tensions. If, for example, the circumstances are such that the high voltages occurring in the individual parts of the circles. other are the same, one will essentially have to choose the number of turns solely with regard to the different frequencies. The number of turns of the individual parts of the choke coil would essentially have to be graduated in such a way that the squares of the number of turns behave inversely to the number of periods of the corresponding partial circles. However, this simplest case rarely occurs in practice. For example, in a period increasing system, as is the basis of the drawing, the voltages in the direct current windings of the various frequency levels A ₁ B ₁ C are not the same, but increase from level to level. If uniform increases in voltage occur, for example in such a way that the voltage increases proportionally with the increase in the number of periods, the number of turns of the individual parts of the choke coils 7, 8, 9, 10 would have to behave inversely to the number of periods of the increase levels. In reality, however, the increase in tension does not even occur in this simple way. B. already influenced by the fact that the last increase aggregate with the highest frequency is on the antenna. As a result, in the last stage in particular, significantly higher tensions can occur than would correspond to the ratio of the number of periods. It has therefore proven to be practical in frequency increase systems in wireless telegraphy and telephony to choose the number of turns of this last part of the choke coil, namely the coil 10, to be considerably larger than the ratio given above. For most practical cases in medium-sized systems, it proves to be expedient to design the coil part 10 in the same way as 7, so that one can achieve a considerable simplification of the manufacture. In this case, it is then no longer absolutely necessary to step down the two middle coil parts 8 and 9, which are already considerably smaller, in relation to one another. It is sufficient if these two parts are also made equal to one another. It has been shown that in this way both the common direct current source and the magnetization winding of the lower frequency stages are adequately protected.

Claims (1)

Patent-An saying: Choke coil for high frequency power systems to keep high-frequency high voltages away from apparatus, power sources or the like, characterized in that, that the coils of circuits of different frequencies or of parts of a circuit in which high voltages different frequencies occur, are united by magnetic concatenation, wherein the number of turns of the individual parts of the total inductor thus formed with Consideration of the frequencies and high-frequency voltages of the pitch circles is appropriate be graded so that the throttling effect is approximately the same for all frequencies. 1 sheet of drawings.