JP2638874B2 - Magnetic head device for magneto-optical recording - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to a magnetic head device for magneto-optical recording, particularly for overwriting.

[Summary of the Invention]

The present invention relates to a magnetic head device for magneto-optical recording, comprising: a first coil group formed in a row on a base; and a coil located between the first coil group and the first coil group. By providing the second coil group formed so as to be positioned, a substantially uniform magnetic field can be generated.

[Conventional technology]

As a recording method for the magneto-optical memory, a light modulation method and a recording magnetic field modulation method are conventionally known. However, in order to perform overwriting, as shown in FIG. 10, a laser beam (32) is
Magnetic field (35) from magnetic head (34) while irradiating 3)
The method of recording with is considered to be influential. In the figure, (36) is a glass substrate, (37) is an MO film, (38) is a reflective film, and (39) is an objective lens. The magnetic head (34) conventionally used is, for example, a coil (41) wound around a ferrite core (40) as shown in FIG.

An important part of the magnetic field modulation system is a magnetic head, and a high-efficiency magnetic head is required. However, in the case of such a conventional magnetic head (34), the high frequency loss of the core (40) becomes a problem, and only about 1 MHz can be used. Therefore, in order to solve such a problem, a coil (43) is mounted on a base (42) made of ferrite, a non-magnetic material or the like by using a thin film technique as shown in FIG.
Is proposed as a magnetic head device (44) having a spiral shape. According to the magnetic head device (44) according to this configuration,
High frequency loss can be reduced regardless of whether it is air-core or back cored.

[Problems to be solved by the invention]

As shown in FIGS. 13 and 14, during magneto-optical recording, it is necessary to apply an effective magnetic field to the range in which the laser beam moves on the disk (45). To perform fine tracking by moving in the radial direction of 45), the optical tracking area (46)
The magnetic field must be applied over a range of about ± 0.1 mm. Also, the optical pickup is fixed,
When data is recorded / reproduced in the effective movable range of the tracking by moving only the objective lens, access within the field of view is required in order to minimize the need for attaching the optical pickup to the disk (45). The range of the magnetic field required for the area (46) is as large as about ± 0.5 mm. Then, as shown in Fig. 15, disk (45)
If a magnetic field is applied in a wide range in the radial direction, a considerably large coil 43 is required. FIG. 2B shows the distribution of the magnetic field. As a result, at the operating frequency (for example, 20 to 30 MHz), the impedance Z becomes large, so that a drive amplifier cannot be formed, or the resistance becomes large, so that the heat generated by the magnetic head becomes large, making it impractical. Also,
As shown in FIG. 16, when a plurality of coils (43) are arranged in a row, the magnetic field between the coils (43) is weakened as shown in FIG. There is a problem that the current to be flowed becomes large.

SUMMARY OF THE INVENTION The present invention provides a magnetic head device for magneto-optical recording that can solve the above problems.

[Means for solving the problem]

The present invention is directed to a recording medium (2) facing a recording medium (2).
A magnetic head device for magneto-optical recording in which a required bias magnetic field is applied to a position where a light beam is applied to
A first coil group (3) including a plurality of coils (3a) formed in a row on a base (1); and a first coil group (3) located on the first coil group (3a). A plurality of coils (4a) formed to be located between the coils (3a) of (3).
And a second coil group (4) made up of coils (3a) and (4a) at positions corresponding to the irradiation position of the light beam.

[Action]

According to the present invention, since the coils (3a) and (4a) of the first coil group (3) and the second coil group (4) themselves can be small, impedance and resistance can be reduced. Moreover, since the second coil group is formed between the coils (3a) of the first coil group (3), the magnetic field strength between the coils (3a) and (4a) may be weakened. And a substantially uniform magnetic field can be obtained.

〔Example〕

First, as shown in FIG. 1B, a first coil group (3) is provided by forming a plurality of coils (3a) in a row in a radial direction X of a disk (2) on a base (1). I do. In FIG. 1A, (4) is a track. Then, a coil (4a) having the same size as the coil (3a) of the first coil group (3) is positioned on the first coil group (3) between the lower coils (3a). The magnetic head device (5) for overwriting is manufactured by forming a plurality of coils as described above and disposing the second coil group (4).

When actually forming such a two-package coil,
Various configurations can be adopted. For example, as shown in FIG. 5, a first coil group (3) is formed on a substrate (1) by a thin film technique and covered with an insulating film (6) made of resist. Later, the coil (4a) of the second coil group (4) can be formed by the same thin film technique so as to be located between the lower coils (3a). (7) is a terminal, but may be a through hole. In addition, as shown in FIG.
a) is formed in a single layer pattern on a substrate (8), and this substrate (8) is formed on a substrate (1) by a first coil group (3) and a second coil group.
The magnetic head device (5) can be manufactured by disposing such that the coil group (4) is formed.
(9) is a drawing pattern. As shown in FIG. 7, the coil (3a) is formed vertically on a substrate (8) as a two-layer pattern, and the substrate (8) is placed on a substrate (1) to form a first coil group (3). Also, by arranging them so as to form the second coil group (4), the magnetic head device (5) can also be manufactured.

When operating the magnetic head device (5) having such a structure, as shown in FIG. 4 (the case where three coils (3a) are shown), the track address is set to the laser address by the addressing circuit (10). By specifying the track that matches the output, the specified signal is supplied to the switch (13) by the switching control circuit (12) and the switching signal synchronized with the timing signal to the coils (3a) and (4a). A magnetic field is generated by switching every predetermined track area. (14) is a drive amplifier. When the magnetic head device (5) according to FIG. 1B is driven by using such a driving circuit, FIG.
As shown in (1), a necessary and sufficient magnetic field can be obtained for an arbitrary area.

Further, a magnetic head device having a two-stage structure according to the present invention (5).
As another embodiment, as shown in FIG. 2A, the size of the coil (3a) of the first coil group (3) is the same as that of the above-mentioned embodiment, but the second coil group (4 ) Coil (4a)
Can be made smaller than the lower coil (3a). When the magnetic head device (5) having such a structure is operated, the distribution of the magnetic field by the second coil group (4) becomes narrow as shown in FIG. 2A, but there is an advantage that it is easy to manufacture. . Also, as shown in FIG.
A large coil (3a) and a small coil (3b) are alternately arranged as a coil group (3), and the same two types of coils (4a) and (4b) are formed thereon as a second coil group (4). The magnetic head device (5) is manufactured by shifting the coil (4a) or (4b) one by one. Note that one lower coil (4a) and one upper coil (3b) may be integrally formed. By adopting such a structure, it is possible to improve a point where a difference in efficiency and a difference in heat radiation occur when the size of the upper and lower coils is changed.
FIG. 3B shows a magnetic field distribution when the magnetic head device (5) is operated.

The coil formed in this embodiment may be a circular coil (15) as shown in FIG. 9, but the formation of an elliptical coil (16) as shown in FIG. It is effective to make it smaller.

In the manufacture of the head device according to the above configuration, it is preferable to take out the lead wire from the base in the following steps. That is, as shown in FIGS. 17A-1 and A-2, a hole (22) is formed in a portion of the base (21) made of ceramics or the like where a through hole is to be formed in each magnetic head device.
Next, as shown in FIGS. 17B-1 and B-2, (B-2 is
B-1 is a cross-sectional view taken along the line AA 'of FIG. 1, and a coil (2) made of copper, gold, or the like on a base (21) by vapor deposition, sputter, plating, or the like.
3) When forming the terminal (24), a conductive material is also applied to the side wall in the hole (22) to form a through hole (25).
Next, as shown in FIG. 17C, if a simple protective film is required, it is formed and then cut for each magnetic head device.
Thereafter, the lead wire (27) is soldered to obtain a magnetic head device (26).

In the case of the flying head structure, after forming a thick protective film (28) as shown in FIG. 18A, the surface is polished and flattened as shown in FIG. 18B. Install the wire (27). According to such a manufacturing method, reduction in manufacturing cost and reduction in variation can be achieved.

〔The invention's effect〕

ADVANTAGE OF THE INVENTION According to the magnetic head device which concerns on this invention, when generating a magnetic field long in the radial direction of a disk, such as a tracking area and an access area in a visual field, without increasing inductance (or impedance) and resistance,
A magnetic field of a required intensity can be generated substantially uniformly.

[Brief description of the drawings]

FIG. 1 is a diagram for explaining an embodiment, FIGS. 2 and 3 are diagrams for explaining another embodiment, FIG. 4 is a circuit diagram of the embodiment, FIG. 5, FIG. 6, and FIG. FIGS. 8 and 9 are diagrams for explaining the coil, FIGS.
Fig. 11 is a conventional configuration diagram, Fig. 11 is a perspective view of a conventional magnetic head, Fig. 12 is a perspective view of a magnetic head device, Fig. 13 is a plan view of a disk, Fig. 14 is a diagram used for explaining tracking,
FIGS. 15 and 16 are views for explaining a conventional example, and FIGS. 17 and 18 are process diagrams of another embodiment. (1) is a base, (2) is a disk, (3) is a first coil group, (4) is a second coil group, (3a) and (4a) are coils, and (5) is a magnetic head device. is there.

Claims (1)

(57) [Claims] 1. A magnetic head device for magneto-optical recording, in which a required bias magnetic field is applied to a position where a light beam is applied to a recording medium, the plurality of recording heads being formed in a row on a substrate. A first coil group consisting of coils; and a second coil group consisting of a plurality of coils located on the first coil group and formed between the coils of the first coil group. A magnetic head device for magneto-optical recording, characterized in that a coil at a position corresponding to the irradiation position of the light beam is sequentially switched to be energized.