JPS6339114A - Manufacture for thin film magnetic head - Google Patents

Abstract

PURPOSE:To reduce the manhour by forming a projection of a through hole coil and the 1st coil by one conductor and arranging the 2nd coil on the 1st coil via the through hole coil in multi-layer so as to reduce the thin film process. CONSTITUTION:The conductor 8 is formed on a substrate 1 to have the thickness being the sum of the thickness of the 1st coil 2 and the thickness of the through hole coil 3 and the pattern of the 1st coil 2 is formed to have the thickness of the 1st coil 2 on the conductor 8 by etching and fine processing. Then the part formed to be the through hole coil 3 on the 1st coil 2 is protected by a photo resist or the like and the entire conductor 8 is formed to have the thickness of the through hole coil 3 by etching and fine processing to form the 1st coil 2. In removing the photo resist in this case, the 1st coil 2 and the through hole coil 3 are made of the conductor 8. Further, in using the through hole coil 3 to form a protection/insulation layer 6 by a photo resist or the like and removing the insulation layer on the through hole coil 3 as soon as the photo resist is removed, the insulation layer 6 and the through hole coil 3 are formed.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a method of manufacturing a thin film magnetic head used in a magnetic recording/reproducing device.

BACKGROUND OF THE INVENTION In recent years, in the field of magnetic recording, multi-layer, narrow-track thin film magnetic heads have become necessary in order to improve recording density. However, if this type of magnetic head is implemented using a magnetic induction type thin film magnetic head, there will be a restriction on the space in which the coils used for recording and reproduction can be inserted, making it impossible to wind a large number of coils on the same plane. Therefore, in many cases, efforts are being made to wind more coils in a limited space by arranging coils in multiple layers, and how to form multilayer coils using thin film processes has become an important issue. ing.

FIG. 5 is a perspective view showing the structure of a conventional thin film magnetic head of magnetic induction type in which coils are arranged in multiple layers. Fifth
In the figure, 1 is a substrate on which a lower magnetic layer and an electrically insulating layer are formed, 2 is a first coil, 3 is a through-hole coil,
4 is a second coil, and 6 is an upper magnetic layer.

Such a thin film magnetic head is manufactured by the thin film process described below. Figure e a, b.

' * d + e + f r q shows this process as a cross-sectional view of a thin-film magnetic head.

First, in order to create a conductor of the thickness and thickness of the first coil 2 on the substrate 1 (Fig. 6a), the pattern of the first coil 2 is protected with photoresist, etc., etched, and finely processed.
A first coil 2 is formed (FIG. 6b). Next, an insulating layer 6 is formed (FIG. 6C), and a through hole 7 is etched on the top of the first coil 2 to form a through hole coil 3 (FIG. 6 d). A conductor is generated and a through-hole coil 3 is formed (FIG. 6e).

Thereafter, a second coil 4 is formed using the same method as the first coil 2 via the through-hole coil 3 (sixth
Figure f). Finally, by forming the upper magnetic layer as shown in FIG. 6q, the magnetic induction type thin film magnetic head having the configuration shown in FIG. 5 is completed.

Therefore, in order to arrange the coils in two layers like this,
In addition to simply forming the coil in two layers, a through-hole coil 3 is required to connect the first coil 2 and the second coil 4.

Problems to be Solved by the Invention However, the thin film process for forming the above-mentioned through-hole coil includes the following main processes from the formation of the first coil to the formation of the second coil: (1) the formation of the first coil conductor; generation, (2) first coil formation, (3) generation of an insulating layer,
(4) Through hole formation, (5) Through hole conductor generation, and (6) Through hole coil formation. It had become. Further, the necessity of many processes also causes a deterioration in the manufacturing yield of this type of thin film magnetic head. This problem becomes more important as the number of layers of coils increases.

In view of the above problems, the method for manufacturing a thin film magnetic head of the present invention shortens the conventional thin film process of arranging coils in multiple layers to 30%, reduces the number of man-hours for manufacturing a thin film head, and at the same time improves manufacturing yield. This provides a thin film magnetic head that is cheaper.

Means for Solving the Problems In order to achieve the above object, in the method for manufacturing a thin film magnetic head of the present invention, the conductor for forming the first coil is
The thickness of the first coil is the sum of the thickness of the through-hole coil, and this is divided into two parts, the thickness of the first coil and the thickness of the through-hole coil, and then etched using photolithography technology. It is being processed. and,
A first coil and a convex portion of a through-hole coil are formed on the same conductor, and a second coil is arranged in multiple layers on the first coil via the through-hole coil.

Effect The present invention eliminates the need for a thin film process to newly generate a conductor for forming a through-hole coil, since the convex portion of the through-hole coil is already formed on the first coil by the method described above. Become. Furthermore, if the through-hole coil section is protected with a photoresist or the like and an insulating layer is formed on this, an electrically insulating layer with the second coil can be formed.Moreover, when the protective resist is removed, the through-hole coil Since the upper insulating layer can also be removed, good electrical communication can be maintained between the through-hole coil and the second coil. Furthermore, since the through-hole coil is embedded in the insulating layer and has an open top, there is no need to form through holes in the insulating layer. Therefore, there is no need to generate a conductor for a through-hole coil or to form through-holes in an insulating layer, as in the conventional case.

EXAMPLES Hereinafter, examples of the present invention will be described with reference to the drawings. FIGS. 2a and 2b are perspective views of multilayered coils used in a magnetic induction type thin film magnetic head.

In FIG. 2, 2 and 2' are first coils, 4° 4' are second coils, and 3 and 3' are through-hole coils that connect the first coil and the second coil.

Figure 2a shows the case where the coils are arranged in two layers and placed in the center of the through-hole coil.
The configuration of a multilayer coil is shown when the through-hole coil is moved to one side.

A thin film magnetic head with coils arranged in multiple layers is
It can be manufactured by the thin film process described below. Figure 1 a, b, c, d, e, f shows the thin film process of this example.
It is shown as a cross-sectional view of a thin film magnetic head.

In FIG. 1, 1 is a substrate on which a lower layer and an insulating layer are formed, 2 is a first coil, 4 is a second coil, and 3 is a through hole connecting the first coil 2 and the second coil 4. Coil, 6 is the upper magnetic layer, 6 is the insulating layer, 8 is the first coil 2
and a conductor for forming the through-hole coil 3.

First, a conductor 8 is formed on the substrate 1 to a thickness equal to the sum of the thickness of the first coil 2 and the thickness of the through-hole coil 3.
Figure a), the pattern of the first coil 2 is etched and finely processed on the conductor 8 to the thickness of the first coil 2 (first
Figure b). Next, on top of the first coil 2, through-hole coil 3. The first coil 2 is formed by protecting the portion where the conductor 8 is to be formed with a photoresist or the like, etching the entire conductor 8 to the thickness of the through-hole coil 3, and microfabricating it. At this time,
By removing the above-mentioned 7 photoresists, the first coil 2 and through-hole coil 3 made of the conductor 8 can be formed (FIG. 1C). Furthermore, if the through-hole coil 3 is protected with a photoresist or the like, an insulating layer 6 is generated, and the insulating layer on the through-hole coil 3 is removed at the same time as the photoresist is removed, the insulating layer 6 and the through-hole coil 3 are formed. (Fig. 1d). Through the through-hole coil 3,
By forming the second coil 4 (FIG. 1e) and finally forming the upper magnetic layer 6 on the insulating layer 6 (FIG. 1f), a thin film magnetic head according to an embodiment of the present invention is formed. can be completed.

If the first coil 2 having the convex portion of the through hole 3 is formed in this way, it becomes unnecessary to newly generate a conductor for forming the through hole coil, and it is not necessary to perform a process for forming the through hole. Therefore, a method for manufacturing a thin film magnetic head for manufacturing such a coil is shown in FIGS. 3a, b, and c.
, d will be explained in more detail using perspective views of the coils.

In FIG. 3, 9 is a photoresist that protects the through-hole coil 3, and all other numbers are the same as those shown in FIG. Form the pattern of the first coil 2 on the conductor 8 (Fig. 3a).
A photoresist 9 for etching protection is formed on the through-hole coil forming portion of the coil 2 (FIG. 3C). Thereafter, the entire conductor 8 is etched so that the pattern of the first coil 2 remains at a predetermined thickness, and a photoresist 9 is applied.
By removing , the first coil 2 having the convex portion of the through-hole coil 3 can be formed (FIG. 3d).

Next, other embodiments of the present invention are shown in FIGS. 4a, b, and c.

d is a perspective view of the coil, similar to FIG. 3.

First, on the conductor 8 (FIG. 4a), the pattern of the through-hole coil 3 is etched and finely processed to the thickness of the through-hole coil 3 (FIG. 4b).

Next, a 7-hole resist 9 is formed on the pattern of the first coil 2 including the through-hole coil 3 (FIG. 4C). Thereafter, by etching the entire conductor 8 and removing the photoresist 9, the first coil 2 having the convex portion of the through-hole coil 3 can be completed.

- The process after forming such a first coil 2 is similar to that shown in FIGS. 1d, e, f. In the explanation of this embodiment, the method of manufacturing a coil arranged in two layers was described, but the method is similar to the case where coils are arranged in multiple layers and these are connected by a through-hole coil. The method for manufacturing the thin film magnetic head of this embodiment can be applied to this embodiment.

Therefore, in the conventional example, the main thin film processes from the first coil formation to the second coil formation are (1) conductor generation for the first coil formation, @) first coil etching, and fine etching. processing, (3) insulating layer generation, (4) through hole etching process, (5) conductor generation for through hole formation,
(6) Through-hole coil etching and microfabrication are the six items, but in the thin film process of this example, (1)
Conductor generation for forming the first coil and through-hole coil, (2) Etching and microfabrication of the through-hole coil or the first coil, (3) Etching and microfabrication of the first coil or the through-hole coil, ( 4) Formation of an insulating layer, which eliminates the need for the process of forming through holes in the insulating layer and the process of generating conductors for forming through holes.

Effects of the Invention As described above, according to the method for manufacturing a thin-film magnetic head of the present invention, when forming a multilayer coil, the manufacturing process for one layer of the coil can be reduced to 50%.

In addition, the more layers there are, the more the process of forming this multilayer coil becomes dominant in the man-hours required to manufacture a thin-film magnetic head.
can be reduced to Furthermore, reducing the number of manufacturing steps in this manner also has the effect of improving the manufacturing yield of thin film magnetic heads, making it possible to manufacture thin film heads at lower cost.

[Brief explanation of drawings]

FIG. 1 is a cross-sectional view of a thin film magnetic head showing a method for manufacturing a thin film magnetic head of the present invention, FIG. 2 is a perspective view showing the structure of the multilayer coil, and FIGS. 3 and 4 are multilayer coils of the present invention. FIG. 6 is a perspective view of a coil showing a single layer manufacturing process; FIG. 6 is a perspective view showing the structure of a magnetic induction type thin film magnetic head; FIG. 6 is a cross-sectional view of a thin film magnetic head showing a conventional multilayer coil manufacturing process. It is. 1... Board, 2, 2'... First coil, 3, 3'... Through-hole coil, 4.4
'...2nd (7): If le, 6...Top magnetic layer, 6...Insulating layer, 7...Through hole, 8... ...Conductor, 9...Photoresist. Name of agent: Patent attorney Toshio Nakao and 1 other person1
. . 4.4' - 2nd country 4th rule 3
Figure q-m-7 Odrejnut No. 4 Fig. 5 Fig. 6?

Claims (3)

[Claims] (1) A conductor with a thickness equivalent to the sum of the thickness of the first coil and the thickness of the through-hole coil of the conductor that communicates the first coil and the second coil is generated on the substrate at once, and the first The first coil and the convex part of the through-hole coil above the first coil are made of the same conductor by etching and micromachining the thickness of the first coil and the thickness of the above-mentioned through-hole coil in two steps. A method for manufacturing a thin film magnetic head, in which a second coil is formed in a multilayer manner on a first coil via the through-hole coil. (2) When forming the first coil and through-hole coil,
First, an amount corresponding to the thickness of the first coil is etched and the pattern of the first coil is microfabricated.
Protect the through-hole coil forming part on the first coil with photoresist or the like, and form the convex part of the through-hole coil on top of the first coil by etching and fine-machining an amount equivalent to the thickness of the through-hole coil. A method for manufacturing a thin film magnetic head according to claim 1, characterized in that: (3) When forming the first coil and through-hole coil,
First, an amount corresponding to the thickness of the through-hole coil is etched and microfabricated into a pattern of the through-hole coil. Next, the forming part of the first coil, including the convex part of the through-hole coil, is protected with photoresist or the like. A thin film magnetic head according to claim 1, characterized in that the first coil having a convex portion of a through-hole coil is formed by etching and fine processing an amount corresponding to the thickness of the first coil. Production method.