DocumentCode
1084591
Title
Clock jitter in a servo-derived clocking scheme for magnetic disk drives
Author
Yada, Hiroaki
Author_Institution
Devices Dev. Dept., Sony Corp., Kanagawa, Japan
Volume
32
Issue
4
fYear
1996
fDate
7/1/1996 12:00:00 AM
Firstpage
3283
Lastpage
3290
Abstract
The performance of a simple servo-derived clocking scheme for magnetic disk recording channels is presented. Using a theoretical model, the bit clock jitter is analyzed by computer simulation, and it is shown that in the bit clock jitter the mechanical-component (velocity jitter) is more influential than the jitter component which originates from the position noise in the detected clock mark readback pulse. Cancellation error of an eccentricity jitter component between writing and reading moments due to PLL (Phase-Locked Loop) gain variation can be reduced by a feed-forward eccentricity suppression technique. Part of simulation results are verified by jitter measurements using an experimental recording channel, a patterned magnetic disk and an MR/Inductive head. Bit clock jitter of less than 2.5 ns(rms) is obtained for a spindle with air-bearing, supporting the analytical results. The simple servo-derived clocking scheme can be used in magnetic disk drives with a data rate of 20 Mbit/s or more
Keywords
clocks; feedforward; jitter; magnetic disc storage; magnetic recording; magnetic recording noise; servomechanisms; 20 Mbit/s; MR/inductive head; PLL gain; air-bearing spindle; bit clock jitter; cancellation error; computer simulation; feed-forward eccentricity suppression; magnetic disk drive; mechanical jitter; model; patterned medium; position noise; recording channels; servo-derived clocking; velocity jitter; Clocks; Computer errors; Computer simulation; Disk recording; Jitter; Magnetic analysis; Magnetic noise; Noise cancellation; Phase locked loops; Writing;
fLanguage
English
Journal_Title
Magnetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9464
Type
jour
DOI
10.1109/20.508393
Filename
508393
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