DE621522C - Device for sound recording on magnetizable sound carriers - Google Patents

Description

The magnetic sound recording takes place in the. usual speech heads in such a way that the sound carrier 3 runs past two poles 1, which are slightly offset in the running direction and which touch the sound carrier either from the same or from different sides. The magnetic flux of the two coils 2 then runs in the gap formed by the offset in the longitudinal direction of the buckle carrier. With all such spy heads it cannot be avoided that stray fluxes 4 occur which are directed opposite to the working magnitude and which cause a weakening of the magnetization of the sound carrier. It is well known that such leakage fluxes are present in all magnetic circuits when the path of the line of force has any air gaps, joints between two different materials or sharp bends, or when the magnetizing coil is not evenly distributed over the entire iron path. All of these requirements apply here. Is obtained even when fully enclosed outer iron circuit relatively high _scattering: rivers, opposite to the Magneüsierungsrichtung in the gap, and are affect the magnetization of the sound carrier unfavorable - influences.

This influence is illustrated by the magnetization curve (Fig. 2). To erase an earlier lettering or to pre-magnetize it, the tape is usually exposed to a strong magnetic direct current field. When leaving this device, the band uniformly has the maximum remanence B. Now the considered part of the Batide enters the first stray field 6 of the speaking head. A direct current superimposed with speech current flows in the speech head. The stray field 6 due to the latter has the same direction as the erasing magnetization. The induction in the strip rises after C to fall again to the highest possible remanence value B before entering the gap. This entire process did not have any effect on the strip, from which it can be seen that the leakage flux at the inlet point of the strip is harmless under the conditions mentioned. The actual speech magnetization now takes place within the gap. The current maximum causes an induction change up to D; the point on the tape shifted by half a wavelength is magnetized according to the current minimum up to E. The first point of the band enters the second leakage flux behind the gap, which increases its induction to F again. Outside the stray field, the remanence G then remains on the band. Correspondingly, the position of the minimum receives the remanence //. Since the stray field is also weaker for this point, corresponding to the small field in the gap, a smaller remanence difference G, H is obtained between maximum and minimum than in the absence of the stray field /, K- The consequence of this phenomenon is less. Dynamic range. According to the invention, the harmful leakage flux 4 occurring behind the speaking head is compensated for by a magnetic field, the flow of which is opposite to the leakage flux. In the simplest example, this is achieved by a coil 5 of suitable size and shape wound around the sound carrier. Since the magnetization in the gap takes place through direct current with superimposed speech current, the compensation coil must also have the same direct and speech current flowing through it. If the speech current Hein is against the direct current, the compensation of the leakage flux Sj due to the direct current is sufficient to obtain a significantly larger modulation range.

Claims (2)

Patent claims: 1. Device for sound recording on magnetizable sound carriers, characterized by, one immediately behind the Speaking head (related to the direction of travel of the: sound carrier) provided compensation magnetic field, that compensates for the harmful leakage flux that occurs there. 2. Apparatus according to claim 1, characterized by a coreless compensation coil wound around the sound carrier, which is traversed by the direct or direct and alternating current flowing in the headset. 1 sheet of drawings