DE917816C - Method of recording magnetograms - Google Patents

Description

Method of recording magnetograms The method of magnetic Sound recording only took place after the introduction of electron tubes into technology Obtained practical importance, because the speech head emitted without amplification Currents were too small. A direct current bias was applied which in the modulation pauses due to the irregularity of the magnetic sound carrier particles resulted in a relatively strong background noise. A major step forward in the field of magnetic sound recording brought the high-frequency bias process, the main thing is that the low frequency voltage, which is magnetic is to be recorded, a high frequency voltage is superimposed. Affected thereby the high-frequency field, regardless of the size of the low-frequency modulation, the sound carrier. With this method it is first achieved that in the modulation pauses the sound carrier is completely demagnetized by the high-frequency alternating field and therefore during playback when the sound carrier slides past the playback head magnetically no voltages can be induced and, secondly, that by the high-frequency premagnetization the linear modulation range of the sound carrier is enlarged. According to the information provided by B r a u n mü h 1 -W e b e r, it results in this way an increase in dynamics of at least 16 db.

The sound recording according to the high frequency method comes from this comes about that the high-frequency field symmetrical in the modulation pauses in superposition a low-frequency voltage becomes asymmetrical and the result when the High frequency field resulting component as magnetization remains on the sound carrier.

About optimal conditions in terms of dynamics, harmonic distortion and frequency range To obtain it is necessary to adjust the size of the high frequency bias exactly ei, nzuregel.n. This setting is very critical and must be different from one another Different types of sound carriers can be selected.

It is sufficient to completely delete existing sound recordings usually the intensity of the high-frequency field required for sound recording not from. It is necessary to delete existing sound recordings to provide a special facility, e.g. B. a stronger high or low frequency field or a strong constant field. The Höc'hfrequenzverfahren described is both used for wire-shaped as well as band-shaped magnetogram carriers.

The invention is based on the idea when recording Magnetograms do not show the high frequency voltage with the voltage to be recorded, for example a low-frequency voltage, but never high-frequency voltage to change itself so that a magnetization of the magnetogram as a function from the voltage to be recorded.

According to the invention there is provided a method for recording magnetograms proposed of the type in question, which is characterized in that by the time modulation of at least one edge the width of the, positive or negative Part of the originally .symmetrical high-frequency oscillation as a function of the unbalanced, for example a low-frequency oscillation to be recorded is made so .that the modulation. component caused by the disturbance of the symmetry remains on the magnetogram carrier as remanent magnetization. While with the previously 'known magnetic mandrel recording method in the straight part of the magnetization curve work has to be carried out in order to avoid distortions, one is with the proposed, Procedures working with time modulation are not tied to it, but can here the recording media up to the bend of the magnetization loop, d. H. can also be controlled magnetically to saturation without being in contrast in addition to the known methods, an increase in the distortion factor or the noise he follows. The achievable dynamic is thereby compared to others. known procedures still increased. Further advantages of the method of the invention are as follows Description given.

An exemplary embodiment of the new method will be described with reference to FIGS. Fig. Z shows the time course of a high-frequency magnetic field (0 = f [t]) that acts on a magnetogram carrier. It has a meandering course and is symmetrical, ie the area mean of the field has the value zero. This high-frequency field is made so strong that all possible magnetogram carriers are magnetically controlled far into the saturation area and therefore all previous recordings are completely erased. In this way, compared to the known methods, an erasing head is no longer required, since the erasing takes place immediately before the recording by the speaking head itself.

For example, wanders through a module ation process, which later will be discussed in more detail, the trailing edge of the high-frequency alternating field in the low-frequency Rhythm; as interpreted in Fig. z am, by a certain amount a-b to the left and on the right, this has the consequence that the symmetry of the high-frequency field is disturbed and a remanent magnetization corresponding to the low frequency on the Magnetogram carrier remains, which in the usual way by means of a hearing head from this can be removed again. For example, the curve shape according to Figure 2 remains a negative flux d 0 returns on the tape. By suitable choice of the modulation range it is in the hand to control the M.agnetogram.mträger so that a maximum dynamics with the lowest distortion factor. Compared to the previously common high-frequency recording method With the new type of recording, any tape or wire material can be used without Changes in the high-frequency amplitude can be used, since the entire magnetization loop is always used is run through.

In this context it is intended to refer to a magnetic recording process pointed out, which also makes use of a pulse length modulation, but differs from the new method in that there is not a high frequency, Instead, a sound frequency of r80 Hz is modulated with direct current values and true to the curve is recorded, while with the new method the high frequency itself does not remain on the tape as magnetization after it has passed through the speaking head.

The described modulation of the high frequency current with the one to be recorded Low frequency can be done in the most varied of ways. It does not matter whether only one flank or both flanks. be modulated and whether the frequency remains constant or is also modulated, since it only depends on the area average, which remains on the tape as remanent magnetization.

A particularly simple type of modulation is to use a multivibrator modulate with the low frequency in push-pull, as shown in Fig. 3 is. The tubes r and 2 are connected to the capacitors 3 and q., The anode resistors 5 and 6 as well as the grid discharge resistors 7 and 8 in the usual way as multivibrato- switched. The speaking head g is in series with the resistor ro between the two Anodes of the tubes and a meandering current flows through it. If the tubes and the other switching elements are completely identical, the curve shape is this Stromes symmetrical, deviations from symmetry can be balanced with the rheostat i i. The other tube i has one corresponding fixed resistor 12 in the cathode line. It's another benefit of the new recording method that you can get the noise floor in an electrical way can adjust. The multivibrator oscillation is modulated via the transformer 13 in push-pull to the two control grids of the tubes. The frequency remains the oscillation largely constant, while both pulse edges are time-modulated.

Claims (4)

PATENT CLAIMS: i. Method of recording magnetograms, in which the magnetogram carrier is exposed to a high-frequency magnetic field that is symmetrical in the modulation pauses and 'in which the recording by disturbing the symmetry of this field depending on the desired recording takes place, characterized in that by time modulation at least one edge the width of the positive or negative part of the originally symmetrical high-frequency oscillation depending on the one to be recorded, for example a low-frequency one Vibration is made asymmetrical, so that by disturbing the symmetry Occurring modulation component as remanent magnetization on the magnetogram carrier remains. 2. The method according to claim i, characterized in that the used Magnetogram carrier! Can be controlled magnetically until saturation. 3. Procedure according to claims i and 2, characterized in that the high frequency field with a multivibrator is generated, which is in push-pull with the oscillation to be recorded is controlled so that a time modulation of the edges occurs. 4. Procedure according to claims i to 3, characterized in that the symmetry of the multivibrator is adjustable. Attached publications: German patent specifications No. 743 411, 848 869; U.S. Patent No. 1,886,616.