Title :
Study of head/disc interface dynamics using a thermal asperity sensor
Author :
Sundaram, Ramesh ; Yao, Wei ; Ku, Roger C. ; Kuo, David
Author_Institution :
Recording Media Group, Seagate Technol., Fremont, CA, USA
fDate :
9/1/1999 12:00:00 AM
Abstract :
Thermal asperity (TA) sensors have been used to study head/disc interface dynamics. TA sensor voltage output fluctuates in proportion to the head to disc spacing changes directly above the sensor. Spacing fluctuations occur in response to system resonances and other excitations. By analyzing the frequency content of the TA sensor output, the excitation sources have been identified. The TA sensor is found to detect disc run out, micro waviness, disc flutter, suspension modes, air bearing resonance and slider body vibrations. Collapse of the interface, i.e., the unsteady slider dynamics, following collision with a “triggering asperity” is also investigated
Keywords :
disc drives; fluctuations; hard discs; magnetic heads; spatial variables measurement; temperature sensors; air bearing resonance; disc flutter; disc run out; excitation sources identification; frequency content; head to disc spacing changes; head/disc interface dynamics; micro waviness; slider body vibrations; spacing fluctuations; suspension modes; system resonances; thermal asperity sensor; unsteady slider dynamics; Capacitance; Fluctuations; Frequency; Magnetic flux; Magnetic heads; Magnetic sensors; Probes; Surface topography; Temperature sensors; Thermal sensors;
Journal_Title :
Magnetics, IEEE Transactions on
