KR920001146B1 - Magnetic resisfance aqqeet magnetic head - Google Patents

Abstract

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Description

Magnetoresistance type magnetic head

1 is an enlarged plan view of the main portion of a conventional magnetoresistive magnetic head.

2 is an enlarged cross-sectional view taken along the line A-A of FIG.

3 is an enlarged plan view of a main portion of an example of a magnetoresistive magnetic head according to the present invention;

4 is an enlarged cross-sectional view taken along line B-B in FIG.

* Explanation of symbols for the main parts of the drawings

1: magnetic gas 2: bias conductor

4: magnetoresistive effect element 3,5: insulating layer

6,7: Magnetic core

The present invention relates to a magnetoresistance effect type magnetic head.

In the magneto-resistive effect (hereinafter referred to as MR) type reproducing magnetic head, a rear magnetic head is proposed in which the MR element is disposed at a retreat position rather than a contact surface with a magnetic medium. For example, as shown in FIG. 1, an enlarged weak linear plan view of the recess is shown in FIG. 1, and an enlarged cross-sectional view along the AA line is shown in FIG. 2, for example, a magnetic gas made of Ni-Zn-based ferrite. On (1), a bias conductor 2 made of a target conductive film serving as a current path for magnetic field generation for imparting a bias magnetic field to the MR element is deposited thereon, for example, Ni- through an insulating layer. An MR element 4 made of a Fe-based alloy or a Ni-Co-based thin film or the like is deposited, and a pair of magnetic cores 6 made of a magnetic layer such as a Ni-Fe-based alloy is formed thereon through the insulating layer 5. And (7) are formed in the direction crossing the element 4, and on the element 4 through the required interval, that is, discontinuity G. The outer end of one magnetic core 6 is opposed to the magnetic body 1 through at least one of the nonmagnetic insulating worms 3 and 5, and between the core 6 and the magnetic body 1 Magnetic gap g is formed. The outer end of the other magnetic core 7 is made to be connected to the magnetic body 1 through a window formed through the insulating layers 3 and 5. The non-magnetic insulating protective layer 8 is covered with these bias conductors 2, the MR elements 4, the magnetic cores 6, and 7, and the protective gas 10 is covered by the adhesive layer 9 thereon. ) Is bonded. Then, the outer end side of the magnetic core 6 of both bases 1 and 10 is cut and polished to form a contact surface 11 with the magnetic medium. In this way, the magnetic gap g faces the opposing surface 11, and a closed path including the magnetic gap g and the MR element 4 is formed to form the magnetic head element h. For example, a plurality of elements h are formed in parallel between the common bodies 1 and 10, and a multichannel magnetic head is formed. The magnetic path of each magnetic head element is formed by the magnetic gas 1-magnetic gap g-magnetic core 6-MR element 4-magnetic core 7-magnetic body 1. That is, the MR element 4 is disposed through the insulating layer 5 in the discontinuous portion G between the magnetic cores 6 and 7. As shown in FIG.

In such a configuration, the bias conductor 2 is provided with the required bias magnetic field to the MR element 4 through the current I ₈ for bias magnetic field generation, and the current I flows through the MR element 4. A signal magnetic field by recording magnetization recorded thereon from the magnetic recording medium opposite to or opposite to the magnetic gap g is applied to each MR element 4, whereby an electrical signal based on a resistance change, i.e., a reproduction output signal, is generated. It is obtained at both ends of the MR element 4.

By the way, in this type of magnetic head, the human body, for example, the human body accumulates in the human body in the case of contact with the magnetic core 6 facing the terminal of the magnetic head or the contact surface 11 with the magnetic medium. Due to discharge of static electricity or induction potential, between the MR element 4 and the bias conductor 2, between the magnetic core 6, 7 and the MR element 4, and further, the bias conductor 2 ) And each insulating film 3 or (5) between the magnetic cores 6 and 7, causing insulation breakdown between each other, or disconnection in each part of a thin film MR element or the like. Causes

The present invention is to provide a magnetoresistance effect type magnetic head which solves such a drawback.

In the present invention, the MR element is disposed in a discontinuous portion formed in addition to the magnetic gap of the magnetic core forming the waste path as in the MR type magnetic heads described in FIGS. 1 and 2, and the bias magnetic field for the MR element is In an MR type magnetic head provided with a bias conductor provided to obtain, the magnetic core, the MR element, and the bias conductor are substantially electrically connected.

EMBODIMENT OF THE INVENTION Next, the Example of this invention is described in detail according to drawing.

3 and 4 show an example in which the present invention is applied to a multichannel MR magnetic head. FIG. 3 is an enlarged weak ship plan view of the main portion thereof, and FIG. 4 is an enlarged cross-sectional view of the BB line, and in FIG. 3 and FIG. 4, the same reference numerals are attached to the corresponding parts of FIGS. 1 and 2. Omit. In the present invention, for example, an electrical connection 12 made of a non-irritating conductive layer is formed in a gap between the discontinuities G, that is, both magnetic cores 6 and 7, in addition to the magnetic gap g to the waste. These cores 6 and 7 are contacted and deposited between both cores 6 and 7.

Then, the connecting body 12, thus the magnetic cores 6 and 7, the MR element 4, and the bias conductor 2 are substantially electrically connected. For example, one end of the conductor 2 is, for example, the ground potential, one end of each MR element 4 is the ground potential, and furthermore, by the connecting body 12 and thus the connecting body 12. The magnetic cores 6 and 7 electrically connected to each other are set to the ground potential so that they are substantially connected electrically. In addition, since the insulating layer 5 on each MR element 4 is very thin, in order to prevent a short circuit at the discontinuous portion G between the connector 12 and the MR element 4, the connector 12 of the MR element 4 is prevented. May be removed.

In the above-described example, the case where the magnetic body 1 is insulative is explained. However, when the magnetic body 1 has electrical conductivity, the insulating layer is coated on the base 1, and the bias conductor 2 is formed thereon. In the above-described example, the present invention is applied to a multichannel magnetic head, but the present invention can also be applied to a multichannel magnetic head.

With the above-described configuration, when a human body or the like comes into contact with the magnetic head, the static electricity destroys the insulating layer interposed between the magnetic core 6 (7), the MR element 4, and the bias conductor 2, respectively. Discharge, or an induction potential caused by static electricity, for example, between the human body can be avoided, and an accident can be avoided, and a highly reliable MR magnetic head can be obtained.

Claims (1)

In a magnetoresistance type magnetic head in which a magnetoresistive element is disposed in a discontinuous portion formed in addition to a magnetic gap of a magnetic core forming a closed path, and a bias conductor is applied to the magnetoresistive element. And a magnetoresistance effect type magnetic head formed by electrically connecting the magnet core, the magnetoresistance effect element and the bias conductor.

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