Patent application number | Description | Published |
20080239581 | Apparatus for determining contact of head slider and method of determining contact of head slider - An AC power source is connected to a write coil mounted on a head slider for determination of contact of a head slider with a storage medium. The AC power source outputs the alternating current having a specific frequency. A measuring circuit measures a sequence of indices for the alternating current supplied to the write coil. A component corresponding to the specific frequency is extracted from the sequence of the indices. This serves to eliminate components corresponding to frequencies other than the specific frequency, namely noise. A detecting circuit detects contact between the head slider and the storage medium based on a change in the amplitude of the sequence appearing at the specific frequency. The contact can thus reliably be detected between the head slider and the storage medium. | 10-02-2008 |
20090059432 | HEAD SLIDER OF MAGNETIC DISK DEVICE - Lubricant on a rotating recording medium can attach to a slider, particularly on the pad formed in the proximity of the trailing edge. In the slider of this invention, lubricant is not accumulated in the vicinity of the trailing edge and can be drawn to the trailing edge and dispersed constantly. The head slider includes a center pad formed on an air bearing surface in the vicinity of the center of a trailing edge of the slider. A trailing pad is formed so as to bridge a trailing edge of the center pad and the trailing edge of the slider. The trailing pad is formed lower than a highest surface of the center pad and higher than a lowest surface of the slider. | 03-05-2009 |
20090103213 | Magnetic head slider for absorbing vibrations - A magnetic head slider disposed opposite to a surface of a magnetic disk, includes a slider main body, a magnetic head element that reads and reproduces data from the magnetic disk, and a vibration absorbing unit that absorbs vibrations generated due to contact between any portion of the slider main body and the surface of the magnetic disk, and that is provided on the slider main body at a predetermined position. | 04-23-2009 |
20090196129 | ATMOSPHERIC PRESSURE MEASURING APPARATUS AND METHOD OF MEASURING ATMOSPHERIC PRESSURE - An atmospheric pressure measuring apparatus allows a transmitter to transmit an acoustic wave for measurement of the atmospheric pressure. Air propagates the acoustic wave. A receiver receives the acoustic wave. Since the intensity of the acoustic wave changes to follow the variation of the atmospheric pressure, the atmospheric pressure can be measured based on the intensity of the acoustic wave received at the receiver. The atmospheric pressure is in this manner measured with such a simplified structure. | 08-06-2009 |
20090244781 | MAGNETIC HEAD SLIDER AND MAGNETIC DISK DRIVE - A magnetic head slider includes a magnetic head element for reading or writing data from or into a magnetic recording medium. The magnetic head slider flies over the magnetic recording medium by an air flow generated by rotation of the magnetic recording medium. The magnetic head slider includes a slider substrate including a center pad for supporting the magnetic head element, the center pad having a sliding surface opposing the magnetic recording medium and a side surface at a downstream side of the air flow, the slider substrate including a concave portion having a bottom surface recessed from the sliding surface; and an insulating layer covering the side surface of the slider substrate, the insulating layer having an edge surface adjacent to the bottom surface of the concave portion, the edge surface having substantially the same plane with the bottom surface of the concave portion. | 10-01-2009 |
20090288491 | ATMOSPHERIC PRESSURE MEASURING APPARATUS AND METHOD OF MEASURING ATMOSPHERIC PRESSURE - A receiver receives an acoustic wave in an atmospheric pressure measuring apparatus. Since a variation in the intensity of an acoustic wave reflects a variation in the atmospheric pressure, the atmospheric pressure can be measured based on the intensity of the acoustic wave received at the receiver. The atmospheric pressure can in this manner easily be measured with a simplified structure. | 11-26-2009 |
20100002339 | HEAD SLIDER, MAGNETIC STORAGE APPARATUS AND METHOD OF FABRICATING HEAD SLIDER - A head slider includes a medium opposing surface configured to oppose a recording surface of a magnetic recording medium, a head element provided on the medium opposing surface, and an outlet end surface provided on a downstream side of the head element in a direction in which the magnetic recording medium moves relative to the head element, and extending substantially in a perpendicular direction from the medium opposing surface. The outlet end surface has a surface free energy greater than a surface free energy of the medium opposing surface. | 01-07-2010 |
20100002341 | MAGNETIC HEAD SLIDER AND MAGNETIC DISK APPARATUS - A magnetic disk apparatus includes a magnetic recording medium that records information, a magnetic head slider flying over a surface of the magnetic recording medium to read or write information from or to the magnetic recording medium, a rear rail having a rear ABS and a rear stepped bearing surface on an air outflow side from which air flows out from the magnetic head slider, the rear stepped bearing surface being deeper than the rear ABS, and at least one closed vibration attenuation groove that is formed on the rear ABS of the rear rail with a depth greater than the rear ABS and has the rear stepped bearing surface on an air inflow side. | 01-07-2010 |
20100020444 | HEAD SLIDER IN MAGNETIC DISK DRIVE - A head slider in a magnetic disk drive wherein provisions are made to facilitate the evaporation of lubricant adhering to the slider and thereby substantially reduce the chance of the fly height of the slider becoming unstable due to a lubricant drop. A head element, a heat generating element, and a multilayered heat conducting structure formed from multiple layers stacked along a longitudinal direction of the slider, with at least one layer extending up to portions near both lateral sides of the slider, are embedded into a nonmagnetic insulating layer formed in an air exit end portion of the slider. The heat generated by the heat generating element is efficiently conducted throughout the nonmagnetic insulating layer to heat the entire structure of the nonmagnetic insulating layer. As a result, the lubricant adhering to any portion of the nonmagnetic insulating layer is efficiently heated, causing the lubricant to evaporate or flow. | 01-28-2010 |
20100103556 | STORAGE DEVICE - According to one embodiment, a storage device includes a storage medium, a head slider, and a heating element. The storage medium has a lubricating film on the surface. The head slider faces a surface of the storage medium on the medium facing surface. The heating element is embedded in the head slider, and applies heat to the lubricating film from the medium facing surface. | 04-29-2010 |
20100103560 | HEAD SLIDER - According to one embodiment, a head slider includes a slider main body, an element embedded film, a head element, and a plurality of recesses. The head element is embedded in the element embedded film. The recesses are distributed in a predetermined area formed on the trailing end surface of the element embedded film. | 04-29-2010 |