Design and Analysis of Disk Bump to Improve the Unloading Performance in Hard Disk Drives

Most hard disk drives use ramp load/unload (L/UL) technology because of its many advantages. However, L/UL does have some unresolved drawbacks, such as slider-disk contact during fast unloading. The main objective of our research is to examine the use of a bump on the outer edge of the disk to prevent contact with the disk by the rebounding slider and to improve ramp unloading performance. In particular, this paper focuses on experimental verification of the design of the disk bump that resulted from our previous research. We formed the disk bump on the disk surface using mechanical pressing with tungsten tips and tested the effect of the bump in unloading experiments. An investigation of the acoustic emission burst signal and its power spectrum confirmed that the optimal disk bump prevented slider-disk contact. This improves the ramp unloading performance.Index Terms-Disk bump, load/unload, mechanical pressing method, slider-disk contact, unloading performance.

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Advanced Unloading Analysis Considering Lateral Velocity and Disk RPM Drop in Emergency Parking

Lee

Kim

et al. 2009

IEEE Trans. Magn.

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A conventional unloading analysis was carried out in no consideration for fast lateral velocity and disk rpm drop during the emergency parking. However, current hard disk drive (HDD) systems need an improved performance in the portable aspect. Therefore, much faster emergency parking is absolutely necessary to protect the system from sudden power-off or an external shock. In case of fast emergency parking, the fast lateral velocity causes an effective skew, and then there is a flying height (FH) loss which does not occur in a normal unload. Also, the FH loss induced by a disk rpm drop occurs at an unloading point in case that a portable small form factor HDD like 1.8 in is suddenly parking from inner diameter to outer diameter. This means that the unloading performance considering the effective skew becomes lower than one of the conventional unloading analysis. In this paper, we propose the advanced unloading analysis that can be applied to the fast emergency parking velocity. To do so, we investigate the FH loss by the fast lateral velocity and the disk rpm drop, and introduce the result of the advanced unloading analysis.Index Terms-Disk rpm drop, emergency parking, flying height loss, lateral velocity, unloading analysis.

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Design and Analysis of Disk Bump to Improve the Unloading Performance in Hard Disk Drives

Cited by 3 publications

References 8 publications

An efficient scheme for analyzing unloading process

An efficient scheme for analyzing unloading process

Improving Hard Disk Drive Unloading Performance With a Disk Bump

Advanced Unloading Analysis Considering Lateral Velocity and Disk RPM Drop in Emergency Parking

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