Title :
High frequency characterization and recording performance of NiFe and laminated FeN heads
Author :
Hu, H.L. ; Weresin, Walt E. ; Home, D. ; Gallagher, T. ; Robertson, N. ; Re, M.
Author_Institution :
IBM Corp., San Jose, CA, USA
fDate :
9/1/1996 12:00:00 AM
Abstract :
A simple high frequency characterization technique extended from DC disk erasure is presented to measure the write field degradation for frequencies up to 500 Mfc/s (250 MHz) on plated NiFe and sputtered laminated FeN heads. The results show that eddy currents appear to be the main cause for high frequency write field degradation. Overwrite recording measurements, which may be used to approximate the non-linear write effects, also indicate that FeN heads, despite low efficiency, may be adequate for writing up to 100 MHz on a disk with a coercivity of 2500 Oe. This disk is capable of supporting 5-10 Gb/in2 densities
Keywords :
eddy current losses; hard discs; iron alloys; iron compounds; magnetic heads; magnetic multilayers; magnetic recording noise; magnetic thin film devices; nickel alloys; soft magnetic materials; 1 to 250 MHz; Al2O3 lamination; DC disk erasure; FeN-Al2O3; NiFe; coercivity; eddy current loss; high frequency characterization; nonlinear write effects; overwrite recording measurements; plated NiFe heads; pulsed erasure measurements; recording performance; sputtered laminated FeN heads; write field degradation; Coercive force; Degradation; Disk recording; Frequency; Magnetic heads; Pulse generation; Pulse measurements; Space vector pulse width modulation; Testing; Voltage;
Journal_Title :
Magnetics, IEEE Transactions on
