Title :
Evaluation of High Data Rate Performances of PMR Components
Author :
Shaoping Li ; Feng Liu ; Zhang, Boming ; Bai, Dongbi ; Li, Zuyi ; Majumder, Ritwik ; Lin, E. ; Elliott, Chip ; Pan, Tian-Fu ; Mao, Shiwen
Author_Institution :
Western Digital, Inc., Fremont, CA, USA
Abstract :
An effort has been made on evaluating magnetic and electrical performances of perpendicular recording (PMR) components at high recording data rates (2.0-3.0 Gbit/s). In general, a fully functional PMR recording subsystem up to 3.0 Gbit/s has been demonstrated experimentally in spin-stand testing by using product recording heads, media, preamps, and channels. Particularly, we studied the influence of the novel pole structures of recording heads on the high data rate performances. The obtained experimental results show that the novel pole structure design of recording write head has some significant impact on the performance of the bit error rate, write ability, and other parametric data at high data rate situations.
Keywords :
error statistics; perpendicular magnetic recording; PMR components; bit error rate; electrical performance; high-data rate performances; magnetic performance; media; perpendicular magnetic recording; pole structure design; preamps; product recording heads; recording write head; spin-stand testing; write ability; Bit error rate; Disk drives; Magnetic heads; Media; Perpendicular magnetic recording; Signal to noise ratio; High data rate performances; magnetic recording head; perpendicular recording; write head design;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2157960
