Dynamic magnetic information storage or retrieval – Head mounting – For shifting head between tracks
Reexamination Certificate
2003-01-31
2004-11-09
Tupper, Robert S. (Department: 2652)
Dynamic magnetic information storage or retrieval
Head mounting
For shifting head between tracks
C360S264900
Reexamination Certificate
active
06816343
ABSTRACT:
BACKGROUND OF THE INVENTION
CROSS-REFERENCE TO RELATED APPLICATIONS
Not applicable.
1. Field of the Invention
The present invention relates generally to disk drives, and in particular to a disk drive including an actuator coil with side segments equally overlapping inner and outer magnet sets.
2. Description of the Prior Art
The typical hard disk drive includes a head disk assembly (HDA) and a printed circuit board assembly (PCBA) attached to a disk drive base of the HDA. The head disk assembly includes at least one magnetic disk, a spindle motor for rotating the disk, and a head stack assembly (HSA). The spindle motor includes a spindle motor hub that is rotatably attached to the disk drive base. The hub has an outer hub flange that supports a lowermost one of the disks. Additional disks may be stacked and separated with annular disk spacers that are disposed about the hub. The head stack assembly has an actuator assembly having at least one transducer head, typically several, for reading and writing data from and to the disk. The printed circuit board assembly includes a servo control system in the form of a disk controller for generating servo control signals. The head stack assembly is controllably positioned in response to the generated servo control signals from the disk controller. In so doing, the attached heads are moved relative to tracks disposed upon the disk.
The head stack assembly includes an actuator assembly, at least one head gimbal assembly, and a flex circuit cable assembly. A conventional “rotary” or “swing-type” actuator assembly typically includes an actuator having an actuator body. The actuator body is configured to rotate on a pivot assembly between limited positions about an axis of rotation. A coil support extends from one side of the actuator body. A coil is supported by the coil support and is configured to interact with one or more permanent magnets to form a voice coil motor. One or more actuator arms extend from an opposite side of the actuator body. A head gimbal assembly includes a transducer head, typically a magneto-resistive (“MR”) head, which is distally attached to each of the actuator arms. To facilitate rotational movement of the actuator, the actuator assembly further includes the actuator body that has a bore and a pivot bearing cartridge engaged within the bore. Each magnetic disk includes opposing disk surfaces. Data may be recorded on a single surface or both along data annular regions. As such, the head stack assembly may be pivoted such that each transducer head is disposed adjacent the various data annular regions from adjacent the outer diameter to the inner diameter of each disk.
The actuator assembly has various natural modes of vibration. One such mode is referred to as a “butterfly” mode or the first principal bending mode. During such a butterfly mode, the actuator arms and the coil support slightly flex or bend toward and away from each other in a plane orthogonal to the axis of rotation and the heads move away from its position on the disk. This is due to those electromagnetic forces in a direction perpendicular to a longitudinal axis of the actuator produced by the current through the coil and the electromagnetic forces interaction with the magnetic field of the magnets. Thus, if the natural frequency of the butterfly mode is 5 kilo hertz and the applied current into the coil has a 5 kilo hertz component, then this will result in the potential for undesirable excitation of the butterfly mode. While a filter, such as a notch filter, may be used to remove the frequency component corresponding to the natural frequency of the butterfly mode, that may negatively impact the capability of the actuator servo control system by reducing its bandwidth. Accordingly, there is a need in the art for a disk drive having an improved actuator coil and magnet design in comparison to the prior art.
SUMMARY OF THE INVENTION
An aspect of the present invention can be regarded as a disk drive including a disk drive base. The disk drive further includes an actuator rotatably coupled to the disk drive base. The actuator includes an actuator body configured to pivot about an axis of rotation and a coil support extending from the actuator body. The disk drive further includes a magnetic element coupled to the disk drive base and defining a magnet periphery. The magnetic element includes an inner magnet set including first and second inner magnets having opposing field directions. The magnetic element further includes an outer magnet set including first and second outer magnets. The first outer magnet is circumferentially disposed along the first inner magnet and has a field direction opposite the field direction of the first inner magnet. The second outer magnet is circumferentially disposed along the second inner magnet and has a field direction opposite the field direction of the second inner magnet. The disk drive further includes a coil attached to the coil support and disposed overlapping within the magnet periphery. The coil includes an inner segment, an outer segment, and a pair of side segments electrically connecting the inner and outer segments. The inner segment is disposed overlapping with the inner magnet set. The outer segment is disposed overlapping with the outer magnet set. Each of the side segments is disposed equally overlapping with the inner and outer magnet sets.
According to various embodiments, the first inner magnet, the second inner magnet, the first outer magnet, and the second outer magnet may have substantially equal surface areas disposed towards the coil support. The first inner magnet, the second inner magnet, the first outer magnet, and the second outer magnet may be generally arced rectangular shaped. The coil may be generally oval shaped, generally rectangular shaped, or generally trapezoidal shaped. The outer segment may be longer than the inner segment. The coil may be disposed within a plane orthogonal to the axis of rotation. The field directions of the first inner magnet, the second inner magnet, the first outer magnet, and the second outer magnet may be parallel to the axis of rotation. The magnetic element may be a first magnetic element and the magnet periphery may be a first magnet periphery. The disk drive may further include a second magnetic element coupled to the disk drive base and define a second magnet periphery. The coil may be disposed between the first and second magnetic elements. The second magnetic element may includes an inner magnet set including first and second inner magnets having opposing field directions, and an outer magnet set including first and second outer magnets. The first outer magnet may be circumferentially disposed along the first inner magnet and having a field direction opposite the field direction of the first inner magnet. The second outer magnet may be circumferentially disposed along the second inner magnet and having a field direction opposite the field direction of the second inner magnet.
REFERENCES:
patent: 5295031 (1994-03-01), Wasson
patent: 5523911 (1996-06-01), Mita et al.
patent: 5621591 (1997-04-01), Rahimi et al.
patent: 5764441 (1998-06-01), Aruga et al.
patent: 6104581 (2000-08-01), Huang et al.
patent: 6225712 (2001-05-01), Miyamoto et al.
patent: 6633457 (2003-10-01), Lin et al.
C. Kim, Esq. Won Tae
Shara, Esq. Milad G.
Stetina Brunda Garred & Brucker
Tupper Robert S.
Western Digital Technologies Inc.
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