Title :
Non-linear interactions in a series of transitions [magnetic recording]
Author :
Taratorin, Alexander ; Fitzpatrick, James ; Wang, Shan X. ; Wilson, Bruce
Author_Institution :
Guzik Tech. Enterprises, San Jose, CA, USA
fDate :
1/1/1997 12:00:00 AM
Abstract :
A theoretical model and experimental measurements are presented that demonstrate that when a series of transitions is written on the magnetic medium, each transition in series has different value of Non-Linear Transition Shift (NLTS). NLTS values oscillate between larger and smaller levels and gradually settle to a steady value. The oscillations of NLTS explain the observed differences between the values of NLTS measured by spectral elimination and by the pseudo-random methods. Experimental data supports the theoretical prediction that NLTS levels measured by spectral elimination method are 10-20% larger than those measured by pseudo-random techniques. When the magnetic medium has initial magnetization, NLTS interacts with hard transition shift and NLTS oscillations do not settle. These oscillations have been experimentally demonstrated for inductive and MR heads. Experimental studies of PRML system performance demonstrate that interactions of NLTS with hard transition shift degrade error rate of PRML systems and limit effectiveness of NLTS precompensation
Keywords :
compensation; digital magnetic recording; oscillations; partial response channels; MR heads; NLTS precompensation; PRML channel performance; error rate; high density magnetic recording; inductive heads; magnetic medium; nonlinear interactions; nonlinear transition shift; oscillations; pseudorandom methods; series of transitions; spectral elimination; theoretical model; Degradation; Electric variables measurement; Frequency domain analysis; Frequency measurement; Magnetic heads; Magnetization; Magnetostatic waves; Pulse measurements; Quantum mechanics; Random sequences;
Journal_Title :
Magnetics, IEEE Transactions on
