Title :
Lumped-element RC model for high-data-rate thin-film heads
Author :
Dimitrov, Dimitar V. ; Rea, Chris ; Klarqvist, Karsten ; Subramanian, Krishnan ; Mack, Anthony
Author_Institution :
Seagate Technol. LLC, Bloomington, MN, USA
fDate :
3/1/2003 12:00:00 AM
Abstract :
We have developed a lumped-element model for a thin-film giant magnetoresistive head with an inductive writer and used it to study the effect on the data rate capability. Our work shows that the reader can be approximated well by a resistor (Reff) and a capacitor (Ceff) in parallel. The paper discusses the relative importance of different contributors to Ceff and addresses the effect of Ceff on the spectrum of the read-back signal and the electrical reader pulsewidth (PW50) in detail. The model predictions and spin-stand data agree reasonably well. The paper also reports on our study of the amount of writer-to-reader coupling in the transducer. Our work points out the importance of minimizing the parasitic capacitance between elements in the writer and reader and avoiding direct coupling between the writer and reader leads.
Keywords :
digital magnetic recording; electromagnetic coupling; equivalent circuits; giant magnetoresistance; lumped parameter networks; magnetic disc storage; magnetic heads; modelling; thin film devices; capacitor; data rate capability; disk drives; electrical reader pulsewidth; giant magnetoresistive head; high-data-rate thin-film heads; inductive writer; lumped-element RC model; magnetic disk storage; magnetic heads; model predictions; parallel configuration; parasitic capacitance minimization; read-back signal spectrum; resistor; spin-stand data; thin-film GMR head; transducer; writer-to-reader coupling; Capacitors; Couplings; Giant magnetoresistance; Information retrieval; Magnetic heads; Parasitic capacitance; Predictive models; Space vector pulse width modulation; Transducers; Transistors;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2003.808593
