Title :
Read-back nonlinearity in longitudinal keepered recording
Author :
Wilson, Bruce A. ; Wang, Shan X. ; Coughlin, Thomas M.
Author_Institution :
Dept. of Electr. Eng., Stanford Univ., CA, USA
fDate :
1/1/1998 12:00:00 AM
Abstract :
Read-back from media with a high permeability saturable keeper over-layer is nonlinear. These nonlinearities are most pronounced at bias levels where the media demagnetization fields are comparable to the head bias field. We propose a simple model for read-back from keepered media. In this model, the medium demagnetizing field modulates the size of the region in which the keeper is saturated and thus modulates head efficiency. This effect distorts the flux waveform. The read voltage, as the derivative of this distorted flux waveform, shows timing asymmetry and shape asymmetry. We demonstrate that distortion of the flux waveform can be treated as a memoryless nonlinear operator over a wide range of recording densities. We demonstrate a method for estimating this memoryless operator and briefly examine strategies for linearizing the read channel
Keywords :
demagnetisation; magnetic flux; magnetic heads; magnetic permeability; memoryless systems; bias levels; flux waveform; head bias field; head efficiency; high permeability saturable keeper; longitudinal keepered recording; media demagnetization fields; medium demagnetizing field; memoryless nonlinear operator; read channel linearisation; read voltage; read-back nonlinearity; recording densities; shape asymmetry; timing asymmetry; Circuits; Coils; Demagnetization; Magnetic heads; Magnetic recording; Magnetic separation; Pulse measurements; Pulse shaping methods; Shape; Space vector pulse width modulation;
Journal_Title :
Magnetics, IEEE Transactions on
