JPS5938920A - Multi-channel thin film magnetic head - Google Patents

Abstract

PURPOSE:To fix the terminal group of a head element substrate and the lead group of a flexible wire with high accuracy, by bonding collectively to connect both groups. CONSTITUTION:A flexible wire 8 contains a lead group 9, a fixing pattern part 23a, a pierced hole 24a, etc. A heat insulated member 33 and an auxiliary member 34 are provided under the wire 8. For the wire 8, an Sn-Pb alloy 35 is fused and cooled to be fixed on the member 34 of Cu through the part 23a and the hole 24a. At the same time, a conductor terminal pattern 7 is joined to the projected part of the group 9 of the wire 8 by bonding collectively. The wire 8 is connected to the 2nd flexible wire, and a connector having a connector pin is connected to the other end of the 2nd flexible wire.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to an inductance type or magnetoresistive type multi-channel thin film magnetic head, and particularly to a head structure in which terminals are drawn out by batch bonding.

Conventional configurations and their problems Thin-film magnetic heads, in which magnetic head elements are created using thin-film process techniques such as vapor deposition and photofabrication, are easy to microfabricate, as seen in IC process techniques, and can therefore be made smaller. In addition to its narrow track width, it has particularly excellent characteristics as a magnetic head for channel recording.

In an inductance-type thin-film magnetic head, at least one magnetic core on one side is composed of a thin-film magnetic material.
In principle, the recording leakage flux in the working gap during recording is steep, the recording characteristics are excellent at short wavelengths, and the above-mentioned narrowing of the track is possible, making it suitable as a magnetic head for high-density recording. Furthermore, although magnetoresistive thin-film magnetic heads are used only for playback, they directly respond to the magnetization recorded on the recording medium, making them suitable for high-density recording as mentioned above, as well as providing high output even during playback at low speeds. can be obtained.

For these reasons, as a magnetic head for audio PCM recording that enables high-quality recording and playback of audio signals, an inductance-type multi-channel thin-film magnetic head is used for recording, and a magnetoresistive-type multi-channel thin-film magnetic head is used for playback. A system using a head has been put into practical use.

These inductance-type or magnetoresistive-type multichannel thin-film magnetic heads have the above-mentioned characteristics, and because the magnetic head elements are created using vapor deposition and photofabrication techniques, the characteristics can be made uniform. Although there are cost advantages such as high yield and simultaneous mass production, as the number of devices increases, the terminal draw-out part
There are some parts of the pheasant that are relatively expensive to manufacture compared to other parts.

Next, a conventional example will be explained using FIGS. 1 and 2. Figure 1 shows the main components of a thin film magnetic head.
A protective cover (4) is adhered to the element surface (2) of the thin film substrate (1) that constitutes the thin film magnetic head element.
A multi-channel actuating element is located in the adhesive gap +ei between the tape sliding surface (3) of the protective cover (4) and the tape sliding surface (5) of the protective cover (4), and in the case of an inductance type, a pair of magnetic The non-magnetic layer sandwiched between 111# of the body constitutes a recording gap, and in the case of a magnetoresistive type, a magnetic layer serving as a magnetoresistive element constitutes an rl raw gap. Elongation of the element surface (2) of the thin film substrate (1).

A conductor terminal pattern (7) for lead connection is provided at the end, and a number of leads (9) exposed at one end of the flexible wire (8) are connected to this. The substrate (1) and the flexible wire (8) are bonded and fixed to the head base OL eyelet, which has good conductivity and is made of Cu, A12, or the like. ) indicates a magnetic recording medium.

Figure 2 is an overall schematic diagram. A protective cover (4) is adhered to the element surface (2) of the thin film substrate (1) on which the y"F membrane element is formed, covering the element, and a first flexible wire (8) is attached to the rear end. It has a conductor terminal pattern (7) made of an All film for connection to the lead (9).The first flexible wire (8) is connected to the second flexible wire (1) at the other end, and the second A connector α force having a connector pin θ force is connected to the other end side of the flexible wire 01).The first flexible wire θ force and the second flexible wire θ force are They are bonded to each other by the covering flexible wire fixing member Ore, and have the role of protecting the connecting part 0◆ of the two flexible wires (8) Ol), supplementing their mechanical strength, and fixing the flexible wire (8) 0p to the equipment. I'm letting you do it.

Head base (11 is the first flexible wire (
8) 5n-pb on the entire surface or part of the surface on the side that contacts the wheel.
A material with good wettability with a soft brazing material such as a gold alloy or In, for example, S+1. A fixed pattern is formed by electrodeposition or vapor deposition of a substance such as Cu, Au, or Ag.

Alternatively, the entire head base OI is made of said material.

Figures 8 and 4 show the first flexible wire (8), which is placed on a flexible film made of polyimide resin or the like with a thickness of 10 to 500 μm.
Paste a sheet made of Cu with a thickness of about 0 to 100 μm,
Leads (91BY) and flexible wires (8
) is formed with a grounding lead that also serves as reinforcement.

In addition, one end of the lead (9) group has the same pitch as the niI conductor terminal pattern (7) group, and protrudes from the flexible film a0 by a certain amount (approximately 0.8 to 2+ nm), and the other end has a predetermined surface plane from the terminal. The flexible film 09 is removed at predetermined intervals at the position shown in FIG.
It constitutes a lead terminal part Q1) for connection with the lead terminal part Q1). Furthermore, in order to protect the leads (IIlO), the insulator resist (support) is attached to the group of leads (9) protruding from the flexible film 0 and the leads in the connection lead terminal part Qυ (
b) Group and multiple identification pattern section (28a x 28
All but b) were applied. Fixing pattern part (288
X? ! 8b) are provided with through holes (24a) and (24b). Sn is electrodeposited on the lead (!l) group, (a) Ba, and the fixing pattern portions (2aa) and (28b) from which the coating of the edge resist ('3) has been removed.

The second flexible wire α1) is for grounding and also serves as reinforcement for the lead (c) group and the second flexible wire 01) for connection to the lead a) group of the first flexible wire (8) on the flexible film. A lead (1) is formed. Furthermore, a first flexible wire (8) and a second flexible wire (11)
In the state in which the first flexible wire (8) is positioned, the through hole (24b) in the fixing pattern part (28b) of the first flexible wire (8) (2) The corresponding part (2) The fixing pattern part made of 5n-Pb alloy, In, etc. (b) is a provision. Furthermore, an insulator resist is applied to the parts other than the connection parts between the fixing pattern part (b), the connector attachment part, and the first flexible wire (8).

Next, the work procedure will be explained. The board (1) on which the protective cover (4) is glued and the conductor terminal pattern (7) for lead connection is formed is attached to the board mounting part (10) of the head base (10).
Glue to the company). After that, head base Qf) Noah j
', the first flexible wire (8) is brought into close contact with the surface of the first flexible wire (8), which is in contact with the first flexible wire (8), and the first flexible wire (8) is placed in the center of the conductor terminal pattern (7). While observing the protruding part of the lead (9) I with a microscope etc., perform accurate positioning with high precision, and when the position matches, fix the fixed pattern part (28a) of the first flexible wire (8). From above, 5n-P
b) onto the alloy and adhere it to the melted S.
A part of the n-Pb alloy (g) passes through the through 3N hole (24a), and the 5n-Pb alloy (g) is solidified by the head base (
1 (the hook and the first flexible tie (8) are fixed.

At this time, it is necessary to additionally heat the head base 01 from below the head base 00 using a heater or the like. Thereafter, the protruding parts of the lead (9) group of the first flexible wire (8) are bonded to the conductor terminal pattern (7) using a bonding tool.
) to form an Au-5n eutectic alloy, and multi-channel lead terminals are bonded all at once. After that, to protect the bonding part, mold it with some kind of fat.

If the mechanical strength is insufficient for fixing the head base (lfi) and the first flexible wire (8) using only 5n-Pb alloy, use resin etc. to fix the head base 01 and the first flexible wire (8) to strengthen the fixing force. It is also possible to pour it between the flexible wires (8).After that, the tape sliding surface is finished.4.
Do nige. Next, the conductor terminal pattern (7) and the lead of the first flexible wire (8) (!11 In the same way as the positioning and fixing method of the group, the first flexible wire (8) and the second flexible wire OI) Connect with. After that, complete the process by gluing the flexible wire fixing member (lie). Of course, the first flexible wire (8) and the second flexible wire (
It may also be a flexible wire integrated with the member.

In this way, since the soft brazing material and a substance with good wettability, such as Sn, Cu, Au, Ag, etc., are directly electrodeposited or vapor-deposited on the head base 61, and the entire head base is made of the above-mentioned ladle, 5 from above the fixed pattern part (28a) of the flexible wire (8)
The n-Pb alloy is melted to form a y-dobase (the first
In the process of identifying the flexible wire (8), the temperature of the portion of the head Boehme surface that is separate from the 5n-Pb alloy must be higher than the melting temperature of the Sn-Pb alloy.

However, the fixed pattern part (28a) of the first flexible wire (8) has an area of about 2 man x 2 m+n, and a small through hole (24a) with a diameter of about 1 mm in the center.
), put 5n-('b gold alloy on top of this,
The S n-Pb alloy is melted using a soldering iron or the like, and a part of the melt flows through the through hole (24a) onto the head base 61, thereby increasing the surface temperature of the head base (10), but the temperature of the head base Qf increases. The size is 14X14X
Since the volume is about 4 (t) mm, which is larger than that of a 5n-Pb alloy kite, it is difficult to make the surface of the hectobase OI higher than the melting temperature of the 5n-Pb alloy. Furthermore, although it is possible to provide a heater or the like under the head base/10, it not only complicates the jigs and tools for 4S'l alignment, but also causes a decrease in alignment accuracy due to heat. It is also possible to use a powerful soldering iron, etc.
Flexible film (lli and insulator resist■
There were drawbacks such as causing damage to the

Purpose of the Invention The present invention aligns the leads of a flexible wire with a group of terminals on a head element substrate when partially bonding the terminals of an inductance type or magnetoresistive type multi-channel thin film magnetic head. The object of the present invention is to provide a head that can be easily fixed without deteriorating its accuracy.

[Structure of the Invention] In order to achieve the second object, the present invention has a head base in which a soft brazing material and a small volume member with good wettability are integrated on a heat conductive member via a heat insulating material. and bonding a head element substrate so as to be in direct contact with the thermally conductive member,
A pattern portion made of a soft brazing material and a substance with good wettability, which is provided on a part of a flexible wire for drawing out a terminal, is positioned over a small volume that has good wettability with the soft brazing material. Fix the Herad base and the flexible wire, and attach the head, Nanako J, l:, Di7.
The l'+ct child jtl and the lead 71Y of the flexible wire are partially connected by bonding to form an i definition.

Description of examples An embodiment of the present invention is shown in the drawings below. (I will explain next.

FIGS. 4(a) and 4(b) show the multi-channel thin film of the present invention.
A magnetic head is shown. The thin 11-piece magnetic head element is made up of a substrate (2) with a 2% cover (4).
) has a conductor terminal notch turn (7) made of an Au film at the rear end for connection to the first flexible wire (8), and the substrate (1) is attached to the head base c1.
J% Itadori Gunbe 611 is joined. Head base (I is made of AJ?, Cu9 material with good thermal conductivity)
On top of the heat conductive member (a) to be mixed, place a material such as polyimide [1] and a soft wax material such as S n
- A flexible fixing auxiliary member made of a material such as a Pb alloy and a CIJ having a small body type and a thin plate thickness and having good interstitial properties is integrated and a flexible film is installed.

The board mounting part Op is provided on a member with good thermal conductivity.The first flexible wire (8) is connected to the lead (9) group and the fixing pattern part (2) as in the conventional example.
8a), a through hole (24a), etc., and the thermal insulation member (
g) and the auxiliary member (c) are located at least below these. The first flexible wire (8) is connected to the fixing pattern part (28a) and the through hole (24a).
n-Pb alloy (9 is the head base...) is melted, cooled, and fixed on the flexible fixing auxiliary member (2) made of Cu. Part of the protruding portion of the lead (9) group is joined by bonding.
The flexible wire (8) is further connected to a second flexible wire, and the other end of the second flexible wire is connected to a connector having a connector pin. The first flexible wire (8) and the second flexible wire are bonded to each other by a flexible wire fixing member that covers the connection part, which protects the connection part of the two flexible wires, supplements its mechanical strength, and also protects the connection part of the two flexible wires. It has the role of fixing it to equipment. In this way, a multi-channel thin film magnetic head is constructed. Of course, the first flexible wire and the second flexible wire may be integrated.

Multi-channel inductance type thin film 11t (in the case of ζ, L head, it is designed to obtain a large recording magnetic field by reducing the number of turns, and in the case of multi-channel magnetoresistive thin film magnetic head, it is designed to obtain a large recording magnetic field)) To improve resolution,
It is necessary to reduce the distance between the magnetoresistive element film and the shield film, which naturally reduces the thickness of the shield film.
Due to reasons such as an increase in lead resistance, the head portion becomes hot.

Therefore, it is desirable that the head base has good thermal conductivity and good heat dissipation. However, when fixing the first flexible wire on the head base with a soft brazing material such as 5n-pb gold alloy, it is necessary to rapidly raise the temperature of the head base surface to a temperature higher than the melting point of the soft brazing material. . Therefore, it is desirable for soft soldering materials and soldering materials to have a small volume, which is contrary to the above. As in the present invention, the above-mentioned conflicting requirements can be satisfied by integrating a soft mouth material and a small-volume C and IJ material with good wettability via an insulating phase on a material with good thermal conductivity. was completed. The head base has a thickness of 10 to 500μ on a thermally conductive material.
A flexible film integrated with CLI foil of approximately 10 to 100 μm is pasted on a polyimide film of approximately 100 μm.]
By doing so, it can be easily manufactured at low cost. For example, as shown in Fig. 4, if a Cu foil with a thickness of about 201 tm is used only under the fixed pattern through-hole of the first flexible wire, the thickness will be □ - culm compared to the volume of the entire conventional head base. It is possible. Therefore, it is easy to raise the surface temperature of the C11 foil under the through hole to the melting KiU degree of the soft brazing material, and at the same time, it is possible to prevent the temperature of the head element portion from rising.

Effects of the Investigation According to the present invention, since the head base and the flexible wire can be fixed easily and instantly, the positioning of the head conductor pattern and the flexible wire during bulk bonding can be performed with high precision, and the flexible wire, etc. It has the advantage that it can be manufactured without damage.

[Brief explanation of the drawing]

Figure 1 shows the main parts of the conventional example.
Figure 2 is an overall schematic plan view showing the conventional example, and knee j-5, B (a) and (h) are plane views of the first flexible wire (
4(a) and 4(b) are a plan view and a sectional view taken along the line A-A of the same, showing an embodiment of the present invention. (1) Thin film substrate, (2) Element surface, (4)
...Retainer5 cover, (8)...First flexible wire, (())...Lead, 0υ...Second flexible wire, (28a) (28b)...Fixing pattern part , (24a) (24h)-Inn Oana CW
t-・Head base, 00... Board publication department, (12・
-・Thermal conduction member, (2)...Thermal insulation member, (2)...Auxiliary member for flexible fixing, (2)...S n-Pb alloy agent Yoshihiro Aoki Figure 1 Figure 2 Figure M3// (2) (Ton Figure 4 (&)

Claims (1)

[Claims] 1. A head base in which a soft brazing material and a small volume member with good wettability are integrated on a thermally conductive member via a thermal insulating material, and a head base is provided on the thermally conductive member. The head element substrates are bonded so that they are in direct contact with each other, and a pattern portion made of a soft solder material and a substance with good wettability provided on a part of the flexible wire for leading out the terminal is connected to the soft solder material in a small volume with good wettability. A multi-channel thin film magnetic head, in which the helad base and the flexible wire are fixed by the soft brazing material, and the terminal group of the head element substrate and the lead group of the flexible wire are connected by collective bonding. '2. The heat insulating shrine and the small-volume part having good wettability with the soft brazing material are made of a flexible sheet in which Cu is integrated on a polyimide film. .