Media design for user density of up to 3 bits per pulse width

Author

Simmons, Ralph ; Davidson, Robert

Author_Institution

Hewlett Packard Co., Boise, ID, USA

Volume

29

Issue

1

fYear

1993

fDate

1/1/1993 12:00:00 AM

Firstpage

169

Lastpage

176

Abstract

It is noted that increasing the user density in digital recording by the use of linear equalization and sequence detection will provide new design opportunities and new constraints on the recording media. The authors have evaluated five head/media designs to determine how the media can benefit from systems operating at higher user density. They conclude that the limits to recording at high user density are nonlinearities in dibit amplitude and increases in the dibit amplitude jitter and correlation. The origins of the nonlinearities and noise are described by knockdown and recoil of the media magnetization. Head/media systems must be designed to avoid knockdown. The systems which will be the most successful in taking advantage of new channel techniques will be system using high-efficiency codes with multiple bits per flux change

Keywords

magnetic disc storage; magnetic heads; magnetic recording; dibit amplitude; digital recording; head/media designs; high density disc recording; high-efficiency codes; jitter; knockdown; linear equalization; media magnetization; multiple bits per flux change; noise; nonlinearities; recoil; sequence detection; user density; Decision feedback equalizers; Detectors; Digital signal processing; Disk recording; History; Linearity; Magnetization; Maximum likelihood detection; Nonlinear distortion; Space vector pulse width modulation;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/20.195565

Filename

195565