Efficient simulation of hard disk drive operational shock response using model order reduction

Lin, W. Z.; Ong, Ee Ping; Ong, Eng Shi

doi:10.1007/s00542-009-0799-0

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B Experiments Verification1

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“…Fig. 2 shows the position where the displacement was measured by LDV [7]. The direction of the shock was perpendicular to the base of the HDD (vertical direction).…”

Section: B Experiments Verificationmentioning

confidence: 99%

Feasibility of Modeling Air Bearing as Linear Springs in Hard Disk Drive Dynamics Simulation

et al. 2009

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A model to predict the shock response of a 1.8-inch hard disk drive (HDD) is developed and validated by experiment. The headactuator assembly (HAA), spindle disk and flexible base are included in the proposed model. The feasibility of modeling the air bearing as linear springs is investigated for HDD operating shock simulation. Result shows that as far as the vibration of the arm-suspension assembly is concerned, the air bearing between the disk and slider can be modeled by linear springs to speed up the simulation. However, if head/disk interface is concerned, the air bearing should not be modeled as linear springs in the studies of head-disk interface.

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“…Fig. 2 shows the position where the displacement was measured by LDV [7]. The direction of the shock was perpendicular to the base of the HDD (vertical direction).…”

Section: B Experiments Verificationmentioning

confidence: 99%