R.G. Hirko scite author profile

The maximum recording speed of a magnetic data storage device depends on the components in the recording channel, viz. electronics, interconnects, heads and media. The projected increase in device data rate (6-fold in 5 years) is that for the electronics (silicon switchfold in 5 years). Driving the write head meets with "driving point impedance" limitations, linking the required MMF, the interconnect and head inductance, supply voltage and write current switching speed. Novel write drivers can break this link.Interconnect limitations and distributed readlwrite electronics are discussed. Write field waveforms and their dependence on the write current are presented. Various ways of improving the head switching time are treated. Finally, for the projected data rate increase to materialize, one has to solve all component limitations virtually simultaneously.

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Ion-implantation conditions and annealing effects for contiguous disk bubble devices

Hirko

1980

IEEE Trans. Magn.

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Writing and reading at high data rates

Klaassen

Hirko

1996

IEEE Trans. Magn.

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Propagation of 1-µm Bubbles in Contiguous Disk Devices

Hirko

et al. 1981

IBM J. Res. & Dev.

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R.G. Hirko

Nonlinear, eddy current damped, thin-film write head model

High speed magnetic recording

Ion-implantation conditions and annealing effects for contiguous disk bubble devices

Writing and reading at high data rates

Propagation of 1-µm Bubbles in Contiguous Disk Devices

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