Modeling and signal processing for the nonlinear thin film recording channel

Author

Barndt, R.D. ; Wolf, J.K.

Author_Institution

California Univ., San Diego, La Jolla, CA, USA

Volume

28

Issue

5

fYear

1992

fDate

9/1/1992 12:00:00 AM

Firstpage

2710

Lastpage

2712

Abstract

The implementation of high-density partial response channels in disk drives has been hampered by nonlinear interactions between transitions occurring in the write process. The degree of nonlinearity is not characterized by the density relative to the isolated transition pulsewidth, but rather by the transition spacing in relation to the transition width. For this reason the authors ignore the read process entirely and focus on the written magnetization, or write channel output. The origins of the nonlinearities are discussed. A simple generalization of the linear superposition model which is valid at higher densities is introduced. The Euclidean distance of suspected minimum distance paths is plotted versus density to estimate the performance roll-off of the nonlinear channel when maximum likelihood sequence detection is used

Keywords

interference (signal); magnetic disc storage; magnetic recording; magnetic thin films; magnetisation; signal processing; Euclidean distance; disk drives; high-density partial response channels; linear superposition model; maximum likelihood sequence detection; minimum distance paths; nonlinear thin film recording channel; performance roll-off; signal processing; transition spacing; transition width; write channel output; write process; zigzag transition profile; Detectors; Disk drives; Disk recording; Magnetic recording; Pulse measurements; Pulse shaping methods; Shape; Signal processing; Space vector pulse width modulation; Transistors;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/20.179604

Filename

179604