초록 ▼

An apparatus, system, and method are disclosed for fly height detection. The apparatus includes an actuator configured to induce vibrations in a glide head that is configured to detect physical asperities on a disk surface. The apparatus may also include a second end of the suspension arm coupled wi

An apparatus, system, and method are disclosed for fly height detection. The apparatus includes an actuator configured to induce vibrations in a glide head that is configured to detect physical asperities on a disk surface. The apparatus may also include a second end of the suspension arm coupled with the glide head and a sensor module that is configured to communicate with a control module in response to the glide head coming in contact with at least one physical asperity. The system includes the apparatus, a disk having a surface comprising physical asperities, and a head gimbal assembly configured to calibrate a fly height margin for the disk. The method includes inducing vibrations in a glide head, detecting physical asperities on a disk surface, and communicating with a control module in response to the glide head coming in contact with at least one physical asperity.

대표청구항 ▼

What is claimed is: 1. An apparatus for fly height detection using controlled excitation of air bearing mode, the apparatus comprising: an actuator coupled with a first end of a suspension arm and configured to induce oscillating vibrations in a glide head, the actuator further configured to contin

What is claimed is: 1. An apparatus for fly height detection using controlled excitation of air bearing mode, the apparatus comprising: an actuator coupled with a first end of a suspension arm and configured to induce oscillating vibrations in a glide head, the actuator further configured to continuously increase a peak to peak amplitude of the oscillating vibrations of the glide head until the glide head contacts at least one physical asperity; the glide head configured to detect physical asperities on a disk surface, the glide head coupled with a second end of the suspension arm; and a sensor module configured to communicate with a control module in response to the glide head coming in contact with the at least one physical asperity. 2. The apparatus of claim 1, further comprising a touchdown height detector configured to measure the amplitude of vibration of the glide head. 3. The apparatus of claim 2, wherein the touchdown height detector comprises a laser Doppler velocimeter. 4. The apparatus of claim 1, wherein the touchdown height detector comprises a laser Doppler vibrometer. 5. The apparatus of claim 1, wherein the sensor module is configured to control a vibration sensor. 6. The apparatus of claim 5, wherein the vibration sensor comprises a piezoelectric sensor configured to transmit an electrical signal to the sensor module in response to glide head contact with a physical asperity. 7. The apparatus of claim 1, wherein the actuator comprises an acoustic emission sensor. 8. The apparatus of claim 1, wherein the control module further comprises a calibration module configured to calibrate the vibration of the glide head, induce a vibration in the glide head, measure the vibration of the glide head, and correlate the vibration with a drive level. 9. A system for fly height detection using controlled excitation of air bearing mode, the system comprising: a disk configured to record data, the disk having a surface comprising physical asperities; a head gimbal assembly configured to calibrate a fly height margin for the disk, the head gimbal assembly comprising a glide head coupled to a suspension arm; an actuator coupled with a first end of the suspension arm and configured to induce oscillating vibrations in the glide head, the actuator further configured to continuously increase a peak to peak amplitude of the oscillating vibrations of the glide head until the glide head contacts at least one physical asperity; the glide head configured to detect physical asperities on the disk surface, the glide head coupled with a second end of the suspension arm; and a sensor module configured to communicate with a control module in response to the glide head coming in contact with the at least one physical asperity. 10. The system of claim 9, further comprising a touchdown height detector configured to measure the amplitude of vibration of the glide head. 11. The system of claim 10, wherein the touchdown height detector comprises a laser Doppler velocimeter. 12. The system of claim 10, wherein the touchdown height detector comprises a laser Doppler vibrometer. 13. The system of claim 9, wherein the sensor module is configured to control a vibration sensor. 14. The system of claim 13, wherein the vibration sensor comprises a piezoelectric sensor configured to transmit an electrical signal to the sensor module in response to glide head contact with a physical asperity. 15. The system of claim 9, wherein the actuator comprises an acoustic emission sensor. 16. The system of claim 9, wherein the control module further comprises a calibration module configured to calibrate the vibration of the glide head, induce a vibration in the glide head, measure the vibration of the glide head, and correlate the vibration with a drive level. 17. A computer program product comprising a computer useable medium having a computer readable program, wherein the computer readable program when executed on a computer causes the computer to: induce oscillating vibrations in a glide head, wherein an actuator coupled with a first end of a suspension arm is configured to induce the oscillating vibrations in the glide head and the glide head is coupled with a second end of the suspension arm; continuously increase a peak to peak amplitude of the oscillating vibrations of the glide head until the glide head contacts at least one physical asperity; detect physical asperities on a disk surface; and communicate with a control module in response to the glide head coming in contact with the at least one physical asperity. 18. The computer readable program of claim 17, wherein the computer readable program causes the computer to measure the amplitude of vibration of the glide head. 19. The computer readable program of claim 17, wherein the computer readable program causes the computer to control a vibration sensor. 20. The computer readable program of claim 17, wherein the computer readable program causes the computer to transmit an electrical signal to the sensor module in response to glide head contact with a physical asperity. 21. The computer readable program of claim 17, wherein the computer readable program causes the computer to calibrate the vibration of the glide head by inducing a vibration in the glide head, measuring the vibration of the glide head, and correlating the vibration with a drive level. 22. A method for fly height detection using controlled excitation of air bearing mode, the method comprising: inducing oscillating vibrations in a glide head, wherein an actuator coupled with a first end of a suspension arm is configured to induce the oscillating vibrations in the glide head and the glide head is coupled with a second end of the suspension arm; continuously increasing a peak to peak amplitude of the oscillating vibrations of the glide head until the glide head contacts at least one physical asperity; detecting physical asperities on a disk surface; and communicating with a control module in response to the glide head coming in contact with the at least one physical asperity. 23. The method of claim 22, wherein the method comprises measuring the amplitude of vibration of the glide head. 24. The method of claim 22, wherein the method comprises controlling a vibration sensor. 25. The method of claim 22, wherein the method comprises transmitting an electrical signal to the sensor module in response to glide head contact with a physical asperity. 26. The method of claim 22, wherein the method comprises calibrating the vibration of the glide head by inducing a vibration in the glide head, measuring the vibration of the glide head, and correlating the vibration with a drive level. 27. An apparatus for fly height detection using controlled excitation of air bearing mode, the apparatus comprising: means for inducing vibrations in a glide head, wherein an actuator coupled with a first end of a suspension arm is configured to induce the oscillating vibrations in the glide head and the glide head is coupled with a second end of the suspension arm; means for continuously increasing a peak to peak amplitude of the oscillating vibrations of the glide head until the glide head contacts at least one physical asperity; means for detecting physical asperities on a disk surface; and means for communicating with a control module in response to the glide head coming in contact with the at least one physical asperity.