DE2202731A1 - Magnetic head - Google Patents

Description

DR. BERG DIPL.-ING. STAPF

PATENT LAWYERS 8 MUNICH 8O. MAUERKIRCHERSTR. 45

Dr. Berg Dipl.-Ing. Stapf, 8 Munich 80, Mauerkirdierstraöe 45

Kabushiki Kaisha Ricoh Tokyo / Japan

Magnetic head

Your reference Your letter Our reference Date L · Ui JaPIt XQli,

22 4

Lawyer file 22 o4o

The invention relates to a magnetic head for a magnetic one Recording and playback system.

To obtain high-frequency signal components on a recording medium, for example a magnetic tape or a magnetic drum, to record and play back, the relative

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speed between the magnetic head and the magnetic Recording media are enlarged or the gap width, that is, the distance between the adjacent surfaces of the North and south pole pieces of the magnetic head can be reduced. In general, the relative speed can be over a can be increased beyond a certain value, and therefore the gap width of the magnetic head is narrowed as much as possible must in order to improve the frequency characteristic. If the magnetic medium, for example the magnetic tape, because of uneven tension exerted on the magnetic tape due to non-uniformity of the material of the magnetic tape or is not precisely aligned with the air gap of the magnetic head due to inaccuracies in the tape guiding devices, the magnetic strips and the signal recording on the magnetic tape are also not precisely aligned with the air gap, when the tape is being fed. As a result, signals recorded with different polarities run or parts of adjacent, magnetized areas or recorded signals at the same time past the air gap, that the waveforms of the high frequency components of the reproduced signals are distorted; the output level is therefore reduced and fluctuates because of the misalignment of the signal records with respect to the air gap of the magnetic head gets bigger. In some cases, there will be none at all

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Output signal received. In addition, the degree of misalignment of the recorded signals with respect to the changes Air gap when the tape is being transported, which also reduces the output level of the high-frequency signal components is constantly changing.

When the gap width of the magnetic head is decreased by To improve the frequency response in the high frequency range, greater changes in the output signal level occur as a result the misalignment of the magnetic tape and thus the signal drawings with respect to the air gap, so that the highest frequency, the actual one, can be reproduced, is limited. Further, as the gap width is narrowed, the output level for the low frequency components becomes less.

The invention therefore provides a magnetic head for reproducing high frequency signals without any distortion, by itself when a magnetic recording medium makes an angle to the precise direction in which the recording medium is must be transported. Furthermore, according to the invention, a magnetic head for reproducing signals in a certain frequency band is created so that the level of reproduced signals in the low frequency range is not noticeable is lower than that of those reproduced

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Signals in the high frequency range.

According to the invention, the gap width of the air gap of a magnetic head, that is, the distance between the neighboring Areas of the north and south pole pieces changed along the length of the air gap; that is, the air gap has a narrower and a wider gap area or such areas. The high frequency components are reproduced by means of the narrower gap area or such areas, while the low frequency components are reproduced by means of of the wider gap area or such areas. Since the narrower gap area is short, run at an angle to the exact direction in which the magnetic recording media are transported the recording medium should be transported, the signals with different polarity or the high-frequency signals in the adjacent magnetized areas do not pass the air gap at the same time. The high frequency components can therefore be reproduced at a high level without distortion. The low frequency components can by the wider gap area or the wider gap areas of the air gap of the magnetic head with a high Level can be reproduced sufficiently. Thus, signals in a wide frequency band with a relatively

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output level can be reproduced accurately.

Here and in the claims, the air gap width is always to be understood as the distance between the two pole pieces will.

The invention is described below on the basis of preferred exemplary embodiments explained in more detail, for which purpose reference is made to the accompanying drawings. Show it:

Fig. 1 is a schematic diagram of a magnetic recording and reproducing head;

Fig. 2 is an illustration for explaining the type of reproduction by means of the known magnetic head or its error;

Fig. 3 is a perspective view of an embodiment of a magnetic head according to the invention;

Fig. 4 is an illustration for explaining the type of reproduction by means of the magnetic head shown in Fig. 3;

Fig. 5 is a graph showing characteristics for explaining the type of reproduction with a magnetic head according to the invention and

6a-6F are schematic representations of modifications of the magnetic head shown in FIG.

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In magnetic recording and reproducing systems, a magnetic recording medium 1 such as a magnetic tape or a magnetic drum (a magnetic tape is used in the present embodiment) transported at a predetermined speed is brought into contact with a magnetic head 2 for magnetic recording or reproduction. The illustrated magnetic head has a coil 3 and an air gap 4. In order to record high frequency components with the magnetic head 2 described, the relative speed between the magnetic tape 1 and the magnetic head 2 must be increased or the gap width must be reduced. In general, the relative speed cannot be increased beyond a certain limit, so that the gap width must be reduced as much as possible in order to record and reproduce the electrical signals over a wide frequency range. The signal recordings on the magnetic tape are not precisely aligned with the air gap of the magnetic head if the tension exerted on the magnetic tape and the magnetic tape material are not uniform or if the tape guides are not made with the appropriate accuracy, so that the magnetic tape is transported with respect to the magnetic head goes wrong, as shown in FIG. In Fig. 2 is a sectional view in the direction of the arrows AA in Fig. 1 is shown, wherein the magnetic tape 1, the magnetic head 2, the

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Air gap 4 and the signals 5 recorded on the magnetic tape 1 are shown. If the gap width is so small, and if the signals recorded on the magnetic tape are not precisely aligned with respect to the air gap 4 during tape transport then the waveforms of the reproduced high frequency components become for the reasons described above distorted. Because of this, the highest signal frequency that can be reproduced by the magnetic head is limited. In In some cases, no output signal is generated at all when the misalignment of the received signals 5 with respect to of the air gap 4 is too large.

In Fig. 3 the magnetic head according to the invention is shown, which has an air gap 4 with wider and narrower areas has, and which is beveled at the point 6. When such a magnetic head is used for reproduction, im The difference to the known magnetic heads with a parallel air gap is the level change of the reproduced signals reduced to a minimum in the high frequency range and the output level increased in the low frequency range.

In Fig. 4, the same reference numerals are used to denote the same Parts used; although the acquired signal 5 is at an angle to the air gap 4, the change in level of the

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High frequency components are reduced to a minimum, since the air gap 4 has a length L ₁ which is smaller than the length Lp. On the other hand, the gap width for reproducing the low frequency components of the recorded signals is g. is increased to g _{2 in} accordance with the length L ₂ so that the output level of the low-frequency components is greater. These geometrical relationships can be seen clearly from the drawing, to which reference is expressly made.

In the graphic representation of frequency characteristics according to FIG. 5, the frequency is plotted on the abscissa and the reproduced output voltage is plotted on the ordinate. The characteristic curve 1 is that of the magnetic head 2 with the gap width g ₂ and the length L ₃ . Curve 2 is the characteristic for the air gap g. and curve 3 shows the characteristic of the magnetic head shown in FIGS. 3 and 4 according to the invention. The highest frequency f i of characteristic curve 2 is v / 2 g., Where ν is the belt speed; the output voltage is reduced by 6 db / octave. The magnetic head with the characteristic curve 2 is therefore only used in the frequency range designated by A because of the change in the output level described above. The highest frequency that is reproduced with the magnetic head with the characteristic curve 1 is f ₂ = v / 2 g ₂ , because the gap width

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is enlarged; However, the output level in the low frequency range is higher than that of characteristic curve 2, since it depends on the Point c has increased to point d. In the magnetic head according to the invention with the characteristic 3 is the highest Frequency f., As in the case of curve 2; at this frequency the output level has decreased from point a to b because the length is reduced from L "to L." In the low frequency range the output level is higher than that of characteristic curve 2 and approaches that of characteristic curve 1. That is, there the changes in the output level in the high frequency range are reduced, the frequency band is compared with that known magnetic head, enlarged from area A to area B.

Of course, as shown in FIGS. 6A to 6F many modifications of the magnetic heads shown in Figs. 3 and 4 can be made. In Fig. 6A, the magnetic head north and south pole pieces with semicircular Cross-section so that the gap width has a minimum in the middle and a maximum on both sides. The in Fig. 6b illustrated magnetic head has north and south pole pieces with parallel surfaces and rounded edges. The in The magnetic head shown in Fig. 6C has north and south pole pieces with beveled and parallel faces. The in Fig.

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The magnetic head shown in Figure 6D has one pole piece with a flat surface, while the other pole piece is in cross-section is trapezoidal. The magnetic head shown in Fig. 6E has north and south pole pieces, both in the Cross-section represent a quadrant so that the gap width is a minimum on one side and a minimum on the other Side is a maximum. The magnetic head shown in Fig. 6F has a pole piece with a flat surface and a another pole piece with a flat surface parallel to the surface of the adjacent pole piece and curved Surfaces on.

The invention thus provides a magnetic head for a magnetic recording and reproducing system having an air gap with a narrower and a wider gap area or several such areas that the frequency response is significantly improved over a large area.

- patent claims -

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Claims (1)

Claims Magnetic head for a recording and reproducing system with an air gap, characterized in that the Air gap at least a narrower area (g.) And has at least one broader range (g ~). 2. Magnetic head according to claim 1, characterized in that the narrower air gap area (g.) Is used for recording and reproducing high-frequency components (5), while the wider air gap area (g _{?) Is used} for recording and reproducing low-frequency components. 3. Magnetic head according to claim 1, - characterized in that the narrower air gap region Cg ₁ ) is formed in the middle of the air gap (4). Magnetic head according to Claim 1, characterized in that the narrower air gap area
Air gap (Ό is formed. the narrower air gap area (g.) on one side of the - 12 - 209832/1 084 5. Magnetic head according to one of claims 1 to 3, characterized by an air gap in which, in cross section, both sides (L.) of the air gap ( ¹ J) run parallel in the middle and the air gap width (6) increases on both sides from the middle (Fig. 3). 6. Magnetic head according to one of claims 1 to 3, characterized in that that the air gap of a pair of spaced apart, semi-circular in cross-section Pole pieces is formed, the vertices of which are opposite each other in the middle of the air gap (Fig. 6A). 7. Magnetic head according to one of claims 1 to 3 »characterized in that that the air gap is through parallel adjacent surfaces of a pair of pole pieces with to both Sides of the center rounded edges is determined (Fig. 6B). 8. Magnetic head according to one of claims 1, 2 or 4, characterized characterized in that the air gap by parallel flat surfaces on one side of the air gap and by beveled mutually diverging surfaces on the other side of the air gap is determined (Fig. 6C). - 13 209832/1084 9. Magnetic head according to one of claims 1 to 3 » characterized in that the air gap is formed between two pole pieces, in which one of the pole pieces has a flat surface, while the other pole piece in the middle is a flat, parallel to the surface of the one pole piece has formed surface and beveled surfaces which increasingly recede outwardly from the surface of the other pole piece (Fig. 6D). 10. Magnetic head according to one of claims 1, 2 to ^J l, characterized by an air gap arrangement in which both pole pieces are quadrants in cross section and the gap width on one side of the air gap has a minimum (Fig. 6E). 11. Magnetic head according to one of claims 1 to 3, characterized by an air gap arrangement in which one pole piece has a flat surface, while the other pole piece has a flat surface formed in the center parallel to the surface of the one pole piece and curved surfaces which proceed continuously from the parallel surface and move away increasingly towards the outside from the flat surface of one pole piece (FIG. 6F). 209832 / 108A