KR100688558B1 - A magnetic head and driving system employing the same - Google Patents

Abstract

A read sensor, first and second magnets located on both sides of the read sensor, and a third magnet located behind the read sensor with respect to a magnetic recording medium, wherein the first to third magnets are used to determine the initial magnetic direction of the read sensor. Disclosed are a magnetic head and a drive system employing the same.

Description

A magnetic head and driving system employing the same

1 is a cross-sectional view schematically showing the structure of a conventional magnetic head.

FIG. 2 is a perspective view showing a portion of FIG. 1;

Figure 3 is a perspective view showing the main part of the magnetic head according to the present invention.

4 is a cross-sectional view of a magnetic head according to an embodiment of the present invention.

5 shows the sensitivity distribution of a read sensor in a conventional magnetic head.

Figure 6 shows the sensitivity distribution of the read sensor in the magnetic head according to the present invention.

7 shows an example of a hard disk drive system to which a magnetic head according to the present invention is applied.

8 is a plan view of the magnetic head slider of FIG. 7.

<Description of Symbols for Main Parts of Drawings>

10 ... magnetic head 11 ... read sensor

12,13,15 ... Magnet

The present invention relates to a magnetic head and a drive system employing the same. More particularly, the present invention relates to a magnetic head capable of increasing the sensitivity of the read sensor while maintaining the initial magnetization of the read sensor stably and to a drive system employing the same. will be.

Like a hard disk drive system, a drive system that writes data to a magnetic recording medium by a magnetic recording method and reads a signal recorded on the magnetic recording medium has a magnetic head for performing a write and / or read operation. have. The magnetic head writes or reads information by magnetizing or detecting a magnetic field on a magnetic recording medium such as a hard disk surface. The magnetic head is installed in a magnetic arm feeder of a swing arm drive type, and is moved to a desired track position on the hard disk in accordance with the rotation of the swing arm of the magnetic head feeder to perform a write or read operation.

The magnetic head includes a read sensor and an induction recording head for recording. As the read sensor, a magnetoresistive head may be used. The magnetoresistive head senses and reads the magnetic signal recorded on the hard disk. The induction recording head has a top pole for forming a leakage magnet to the hard disk, a bottom pole, and a recording coil in which a magnetic field is generated when a current is supplied, thereby hardening a desired magnetic signal. It writes to disk.

GMR (giant mangetoresitance) head, a kind of magnetoresistive head, is a magnet between two layers of a free layer whose magnetic direction is changed by magnetism from the hard disk and a pinned layer having a fixed magnetic direction. The data from the hard disk is read using the change of the resistance value along the direction. At this time, the free layer should have a constant magnetic direction at the beginning without the influence of an external magnetic field. For this horizontal bias, a hard magnet is placed to the left and right of the read sensor to create the initial magnetic direction of the free layer. Giving.

1 is a cross-sectional view schematically showing the structure of a conventional magnetic head 1, and FIG. 2 is a perspective view showing a portion of FIG.

1 and 2, a conventional magnetic head 1 forms a read sensor 2, hard magnets 3 and 5 positioned on the left and right sides of the read sensor 2, and an electrical passage. Leads 7a and 7b and upper and lower shields 8 and 9 are provided. There is a predetermined gap G1 'between the lower shield 8 and the hard magnets 3 and 5 and the read sensor 2, and the upper shield 8 and read sensor 2 and the leads 8a and 8b. ) There is a predetermined gap G2 '.

The hard magnets 3 and 5 positioned on the left and right sides of the read sensor 2 serve as horizontal biases of the read sensor 2, and are used as initial magnets in the free layer of the magnetoresistive head used as the read sensor 2. Make direction.

The magnitude of magnetism by the hard magnets (3) and (5) affects the instability and amplitude (sensitivity) of the magnetic head (1). Worse, and vice versa.

Therefore, the conventional magnetic head 1 structure as described above has a limitation in simultaneously improving these two parameters (instability and amplitude).

The present invention has been made in view of the above, and an object thereof is to provide a magnetic head and a drive system employing the same, which are capable of simultaneously improving instability and amplitude.

Magnetic head according to the present invention for achieving the above object, the read sensor; First and second magnets positioned at both sides of the read sensor; And a third magnet positioned behind the read sensor with respect to the magnetic recording medium, wherein the first to third magnets make an initial magnetic direction of the read sensor.

In order to achieve the above object, the present invention provides a drive system comprising a magnetic head for recording information on a magnetic recording medium and / or reading information recorded on the recording medium, the magnetic head comprising: a read sensor; First and second magnets positioned at both sides of the read sensor; And a third magnet positioned behind the read sensor with respect to the magnetic recording medium, wherein the first to third magnets make an initial magnetic direction of the read sensor.

The read sensor may have a magnetic layer for horizontal bias to determine the initial magnetic direction of the free layer.

Hereinafter, a preferred embodiment of a magnetic head and a drive system employing the same will be described in detail with reference to the accompanying drawings.

3 is a perspective view showing the main part of the magnetic head 10 according to the present invention, Figure 4 shows a cross-sectional view of the magnetic head 10 according to an embodiment of the present invention. 3 and 4, only the portion of the magnetic head 10 according to the present invention which serves as a read head for reading data from a magnetic recording medium such as a hard disk is shown. The present invention is characterized in that it improves the portion of the magnetic head that contributes as the read head. The recording head portion contributing to the magnetic recording may have various structures that are well known in the field of the magnetic head, and therefore the illustration and description thereof are omitted here.

3 and 4, the magnetic head 10 according to the present invention includes a read sensor 11, first and second magnets 13 and 15 positioned at both sides of the read sensor 11, And a third magnet positioned behind the read sensor 11 with respect to the magnetic recording medium.

In addition, the magnetic head 10 further includes leads 17a and 17b and lower and upper shields 18 and 19 for forming an electrical passage. There is a predetermined gap G1 between the lower shield 18, the first to third magnets 13, 15, 12, and the read sensor 11, and the upper shield 19, the read sensor 11, and the lead. There is a predetermined gap G2 between (17a) and 17b.

The read sensor 11 may include a magnetoresistive head of one of a magnetoresistance (MR), a giant mangetoresitance (GMR), and a tunneling magnetoresistance (TMR) head.

Hard magnets may be used as the first and second magnets 13 and 15. In addition, a hard magnet or a permanent magnet may be used as the third magnet 12. The first to third magnets 13, 15, and 12 are used to act as horizontal biases of the read sensor 11, to create an initial magnetization direction of the read sensor 11, and to stabilize the initial magnetization direction. Keep it as

That is, no matter which of the three magnetoresistive heads is used as the read sensor 11, the magnetoresistive head is fixed with a free layer whose magnetic direction is changed by magnetism from the magnetic recording medium. Data from the magnetic recording medium is read using a change in resistance value according to the magnetic direction between two layers of the pinned layer having the magnetic direction.

At this time, the free layer should have a constant magnetic direction at the beginning without the influence of an external magnetic field, and the first to third magnets 13, 15, and 12 have an initial phase of the free layer for such a horizontal bias. Make your own direction.

At this time, it is preferable that the thickness of the first and second magnets 13 and 15 positioned on both sides of the read sensor 11 by using the third magnet 12 be thinner than in the related art. As such, the third magnet 12 is placed behind the stack of read sensors 11 and the thickness of the first and second magnets 13 and 15 is reduced instead, thereby reducing the thickness of the read sensors 11. It is possible to increase the sensitivity of the read sensor 11 while maintaining the initial magnetization stably.

This effect of improving the sensitivity in the magnetic head 10 of the present invention becomes clearer by comparing the following FIGS. 5 and 6.

5 shows the sensitivity distribution of the read sensor 2 in the conventional magnetic head 1, and FIG. 6 shows the sensitivity distribution of the read sensor 11 in the magnetic head 10 according to the invention. In FIG. 5 and FIG. 6, the darkness indication appearing in the read sensor 2 and 11 part indicates the sensitivity of the read sensor 2 and 11.

Referring to FIG. 5, the sensitivity of the conventional magnetic head 1 is lowered due to the influence of the hard magnets 3 and 5 around the hard magnets 3 and 5. In addition, the sensitivity of the side far from the magnetic recording medium (the opposite side to ABS described later) is also inferior.

In contrast, according to the magnetic head 10 according to the present invention as shown in FIG. 6, the third magnet 12 is positioned behind the stack of the read sensors 11, and the first and second magnets 13 and 15 are disposed. Reducing the thickness of the conventionally, it can be seen that when comparing the sensitivity distribution in Figure 5 and the sensitivity distribution in Figure 6, the sensitivity characteristics in the read sensor 11 is improved.

In this way, for example, even if the thickness of the first and second magnets 13 and 15 is reduced, and the magnetic force is reduced as compared with the conventional art, since the third magnet 12 holds the initial magnetic direction of the read sensor 11 behind, The performance of maintaining the initial magnetization stably without sacrificing the amplitude of the magnetism is good, and the magnetic direction of the read sensor 11 can be changed well according to the magnetic signal of the magnetic recording medium, thereby exhibiting good read sensitivity.

Hereinafter, a hard disk drive system to which the magnetic head 10 according to the present invention is applied will be described.

Referring to FIG. 7, the hard disk drive system 100 includes a hard disk 120 rotatably installed on a base 110 and recording predetermined information, and a magnetic head slider 20 for recording and reading information. Is moved to a desired track position on the hard disk 120.

The magnetic head feeder includes a magnetic head assembly 130 on which the magnetic head slider 20 is mounted and rotatably installed around the rotation shaft 134 provided on the base 110, and the magnetic head assembly 130. ) Is provided with a driving unit (140) for rotating by electromagnetic force.

The magnetic head assembly 130 includes a suspension 131 coupled to an end of the actuator arm 132 rotatably coupled to the pivot shaft 134, and a magnetic head slider 20 mounted to the suspension 131. It is configured to include).

The magnetic head slider 20 is biased toward the hard disk 120 by the suspension 131, and when the hard disk 120 starts to rotate, by the air dynamic pressure generated by the rotation of the hard disk 120, Flying with respect to the hard disk 120 (flying).

Referring to FIG. 8, the magnetic head 10 is positioned at the tip portion of the slider surface 20a positioned on the hard disk 120 side of the magnetic head slider 20. As described above, the magnetic head 10 records information on the hard disk 120 and reads information recorded on the hard disk 120.

On the slider face 20a of the magnetic head slider 20, an ABS (Air Bearing Surface) 21 which generates sound pressure so as to stably maintain the flying height of the magnetic head slider 20 when the hard disk 120 rotates. , 23, 25, 27 are provided. In the magnetic head 10 according to the invention, the third magnet 12 is located behind the stack of read sensors 11, ie behind the ABS 21.

The magnetic head according to the present invention as described above, in addition to having a magnet on both sides of the read sensor, further includes a magnet behind the read sensor stack, thereby increasing the sensitivity of the read sensor while maintaining stable initial magnetization of the read sensor. have. In addition, it is possible to reduce the thickness of the magnet located on both sides of the read sensor as compared with the conventional.

Claims (4)

A read sensor; First and second magnets positioned at both sides of the read sensor; And a third magnet positioned behind the read sensor with respect to a magnetic recording medium, wherein the first to third magnets make an initial magnetic direction of the read sensor. 2. The magnetic head of claim 1 wherein the read sensor has a magnetic layer for horizontal bias to orient the initial magnetic direction of the free layer. A drive system comprising a magnetic head for recording information on a magnetic recording medium and / or reading information recorded on the recording medium, The magnetic head is A read sensor; First and second magnets positioned at both sides of the read sensor; And a third magnet positioned behind the read sensor with respect to a magnetic recording medium, wherein the first to third magnets make an initial magnetic direction of the read sensor. 4. The drive system of claim 3, wherein the read sensor has a magnetic layer for horizontal bias to direct the initial magnetic orientation of the free layer.

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