DE619924C - Method for effective resistance compensation on induction coils - Google Patents

Description

Method for effective resistance compensation on induction coils Patent 479 506 describes a method for improving the dragging of an induction coil with two or more windings, in which, in addition to the inductance: the frequency-dependent components of the loss resistance of the windings are also balanced.

According to the invention, the effective resistance compensation with the help of Short-circuit turns or by choosing a special core material da.ß in series with: the windings to be matched line or several additional coils are switched, each for itself on a special core with a closed iron path are upset.

It has already been suggested for the compensation of inductances of toroidal coils to use auxiliary coils, which are arranged on a separately Core are attached. Such a facility can not also be used for the Compensation: from. Use impedance differences as it is not possible to when using a common core for the additional coils on both half sides independently from the inductance of the additional coils, the effective resistances of the individual additions to influence. Rather, this is only possible if according to the invention for special cores are used for the additional coils on both half sides.

So far, the differences in resistance have probably been obtained with the help of short-circuit windings I or tried to compensate for this by choosing a special core material but no special cores for: the additional coils are used, only the performed various operations on the coils themselves.

Compared to the previously known methods, the comparison has by additional coils, each of which is on a special core with a closed line Eisenweg are applied, the great advantage that this coil arrangement has an extraordinarily: precise resistance adjustment is permitted, as it was not achieved by any of the previously known Methods that was made possible; and that one does not have to rely on it by trial and error first determine the point at which there is an additional winding: or short-circuit windings have the desired success on the main core. When balancing according to the invention rather only needs through its simple measurement Size and sign of the original symmetry to be determined, which is then due to an additional coil nut corresponding Impedance value can be compensated.

It is advisable to choose a material for the cores of the additional coils large loss, for example appropriately treated iron-nickel alloys with i or without the addition of other metals. With consideration for the lowest possible Dispersion is necessary; cores with a closed iron path must be used. Around The core dimensions are preferred to have the smallest possible space requirement chosen so that in a known manner the cores in the winding hole of the, for example, annular Main coil can be accommodated.

An additional coil according to the invention now always also has an inductive one Component. Has the half-side that has the additional coil to increase the effective resistance is added, at the same time also the lower inductance, then according to the further invention, the additional coil dimensioned so that they simultaneously compensate of effective resistance and inductance is used. However, there is the lower inductance on the half side; which has the greater loss resistance, then according to the further Invention of each half-side an additional coil connected upstream, one of which; one preferably inductive and the other legs preferably real impedance Has. In many. Cases - however, it is sufficient to compensate for the effective mutual asymmetry: e with the help of only its additional coil, since the inductive component of the additional coils is so It can be kept small that the permissible tolerance of the inductance symmetry is not exceeded even if the half-side that precedes the additional coil will, in itself, have the greater inductance. Of course you can also help other measures for. Adjustment of the inductance the - induction unbalance before the adjustment of the effective resistance asymmetry can be changed in such a way - that one always gets by with an additional coil.

The real impedance component of an additional coil according to the invention is frequency-dependent, namely it has a frequency dependency that does not completely match the frequency dependence of the effective resistance asymmetry 6 , since the additional coil itself has a greater degree of loss than the main coil.

According to the further invention. hence the balance in frequency carried out, at the - at the highest and lowest in consideration Frequency occurring original symmetries serve amounts according to approximately the same size.

Claims (6)

PATENT CLAIMS: .i. Procedure for effective resistance compensation on induction coils, especially on load coils for telephone lines, according to patent 479 5o6 the effective resistance compensation with the help of short-circuit windings or by choice a particular core material is achieved, characterized in that in series one or more additional coils are switched with the windings to be adjusted, each applied to a special core with a closed iron path are. 2. The method according to claim i, characterized in that the cores of the additional coils Made from iron-nickel alloys with or without the addition of other metals will. 3. The method according to claim i and 2, characterized in that the core dimensions be chosen so that the additional coils are housed in the winding hole of the main coil can be. q :. Method make claim i and the following; characterized, that the additional coil also compensates for the inductance asymmetry serves. 5. The method according to claim i and following, characterized in that each Half-side an additional coil is connected upstream, one of which is a predominantly real one and the other has a predominantly inductive component. 6. Procedure, according to Claim i and following, characterized in that the compensation is carried out in this way that the i occurring at the highest and lowest frequencies in question Unsymm.etrien_ are roughly equal in amount.