Dynamic magnetic information storage or retrieval – Automatic control of a recorder mechanism – Controlling the head
Reexamination Certificate
1999-09-23
2002-07-16
Hudspeth, David (Department: 2651)
Dynamic magnetic information storage or retrieval
Automatic control of a recorder mechanism
Controlling the head
Reexamination Certificate
active
06421199
ABSTRACT:
FIELD OF THE INVENTION
This application generally relates to hard disc drives and more particularly to an apparatus and method for optimizing the disc orientation on a disc drive motor spindle in a disc drive head disc assembly.
BACKGROUND OF THE INVENTION
In a hard disc drive magnetic data storage device, servo data and user data are magnetically written and read from magnetic tracks laid cut on an upper and/or lower surface layer deposited on a flat rotating disc in the drive. Accurate location of the tracks and accurate positioning of the read/write heads carried by an actuator assembly is critical to the optimal operation of these drives. The concentricity of the tracks with respect to the rotational center of the drive motor spindle is paramount to facilitating closer and closer track spacing as the demands for higher densities of data storage increase with each generation of disc drives. However, there is always some error present in the concentricity of the tracks with respect to the disc center and the drive motor spindle center. The non-concentricity error is termed Once Per Revolution (OPR) positional error.
There are two basic methods of writing servo tracks on these drives. The first method is to write the servo tracks in a servo track writer (STW) on each disc individually prior to drive assembly, separate from the disc “pack”, and then stacking the discs on the drive motor spindle to assemble the pack and the overall drive. This method requires a separate, single disc servo track writer, into which each disc is placed and written. The second method is to assemble the drive motor onto the drive base plate, the discs onto the drive motor spindle in the drive into a disc “pack”, and then insert the partially assembled drive into a “Pack-writer” to write the servo tracks on the discs in the pack. This pack-writer utilizes the drive's actuator assembly to write the tracks and utilizes apertures in the disc drive housing in conjunction with a laser interferometer to index and position the heads or a push pin contact with an external positioner to position the heads during the STW process.
This latter, pack-writing process is an extra step in the drive manufacturing sequence that can be avoided if the servo tracks on the discs are previously written in the single disc STW process. One problem in a single disc STW process, however, is that OPR positional errors, resulting from non-concentricity of the drive motor spindle with the inner edge of the disc, are compounded with written-in OPR positional errors, resulting from non-concentricity of the STW spindle and the inner edge of the disc. As each disk is stacked on the drive motor spindle there can be an error in concentricity of the disc with the drive center. Further, during the single disc STW process, there is a dimensional tolerance between the disc inner diameter (ID) and the STW spindle outer diameter (OD). These two different tolerances can introduce compounded error in the concentricity of the written servo tracks with respect to the disc center in the actual disc drive. Further, when several discs written by the single disc STW process are stacked on a drive spindle during drive manufacture, these non-concentricity errors or OPR errors can further compound such that the peak to peak OPR error in the assembled stack can be several mils or more.
The single disc STW uses the STW spindle center as the base reference for determining the track locations. A single disc STW can generate errors in track writing once per revolution (OPR) errors from head to head across 100's of tracks. These errors compound when such written discs are assembled into an actual disc drive. Therefore there is a need for a method for accurately reducing the potential peak to peak OPR errors that can result when single disc STW process is used.
Because it is preferable that the magnetic tracks on a disc be concentric with the drive motor spindle, there is a need for an invention that would position the discs, during the disc pack assembly process, such that the potential peak to peak OPR errors are minimized, meaning that the average outer edge dimensions of the respective discs are concentric with the rotational center of the drive motor spindle.
SUMMARY OF THE INVENTION
The method and apparatus in accordance with the present invention addresses the above identified need. The method involves loading the discs onto a drive motor spindle with the motor mounted on a disc drive base plate assembly, measuring, for each disc, the location of the outer edge of the disc at various phase angles, adjusting each disc so as to minimize the peak to peak OPR error, and clamping the discs into the disc assembly.
This method reduces the non-concentricity of the disc's outer edge with respect to the drive motor spindle. By orienting the disc in this fashion, the non-concentricity of its magnetic tracks with respect to the drive motor spindle is minimized.
These and various other features as well as advantages which characterize the present invention will be apparent from a reading of the following detailed description and a review of the associated drawings.
REFERENCES:
patent: 3716845 (1973-02-01), Chaffin, III
patent: 3974524 (1976-08-01), Griffiths et al.
patent: 5975839 (1999-11-01), Ashby
McKenzie Lealon R.
Murphy Robert D.
Hudspeth David
Merchant & Gould P.C.
Phillips John B.
Seagate Technology LLC
Wong K.
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