Class / Patent application number | Description | Number of patent applications / Date published |
360123130 | For longitudinal recording head | 7 |
20150092302 | METHODS FOR BIASING ELECTRICALLY BIASABLE STRUCTURES - A method according to one embodiment includes biasing, by a biasing circuit, an electrically conductive structure to a predefined and/or selected voltage. A resistive link is coupled to both the biasing circuit and the electrically conductive structure, the electrically conductive structure being positioned proximate to a media hearing surface. A method according to another embodiment includes biasing, by a biasing circuit, a conductive bus to a predefined and/or selected voltage, the conductive bus being coupled to at least one of a plurality of transducers and a plurality of electrically conductive structures. Resistive links are electrically coupled between the conductive bus and the electrically conductive structures and/or the transducers. | 04-02-2015 |
360123170 | Plural separate coils | 2 |
20130286506 | SERVO WRITE HEAD - An assembly comprises a plurality of laterally spaced front blocks, a magnetic post coupling each of the front blocks to a common back bar, and a common front bar magnetically coupled to the back bar. A write gap spacer is positioned between the front bar and each of the plurality of front blocks, and a write gap element comprising write gaps couples the front bar to each front block across the write gap spacer. A coil is configured to generate magnetic flux in each magnetic post, and the front blocks are configured to direct the magnetic flux across the write gaps. | 10-31-2013 |
20140036393 | DEVICE SELECT SYSTEM FOR MULTI-DEVICE ELECTRONIC SYSTEM - In one general embodiment, a system includes a first device on a first substrate; a second device on a second substrate; and a device select system coupled to the first and second devices. The device select system includes: a first portion having an array of first electrical contacts; a second portion having an array of second electrical contacts, there being more second electrical contacts than first electrical contacts, the second portion being coupled to the first and second devices, each of the first electrical contacts being associated with at least two of the second electrical contacts; and a select mechanism for selectively placing each of the first electrical contacts in electrical communication with one of the second electrical contacts associated therewith. | 02-06-2014 |
360123180 | Single plane coil | 4 |
360123370 | Shielding/protection | 4 |
20110075295 | SLANTED BUMP DESIGN FOR MAGNETIC SHIELDS IN PERPENDICULAR WRITE HEADS AND METHOD OF MAKING SAME - Embodiments provide a slanted bump magnetic shield in a perpendicular write head and a method of making the shield. The slanted bump magnetic shield provides a small throat height to maximize magnetic flux for writing to a magnetic media such as a magnetic storage disk in a hard disk drive, while avoiding saturation. An etch process is used to form a taper in non-magnetic gap material. The magnetic shield is then deposited on the taper, forming the slanted bump of the shield. The etch process may be a multiple etch process to provide better edge and thickness control when forming the taper. | 03-31-2011 |
20110310511 | APPARATUS INCLUDING MODIFIED WRITE POLE TIP - An apparatus that includes a write element including a write element tip having a leading edge, a trailing edge, and first and second side edges connecting the leading edge to the trailing edge, wherein the trailing edge is non-planar; a trailing shield proximate the trailing edge of the write element; a first side shield proximate the first side edge; and a second edge proximate the second side edge. | 12-22-2011 |
20120069471 | CURRENT-PERPENDICULAR-TO-PLANE (CPP) READ SENSOR WITH FERROMAGNETIC BUFFER, SHIELDING AND SEED LAYERS - A current-perpendicular-to-plane (CPP) tunneling magnetoresistance (TMR) or giant magnetoresistance (GMR) read sensor with ferromagnetic buffer, shielding and seed layers is proposed for high-resolution magnetic recording. The ferromagnetic buffer layer is preferably formed of an amorphous Co—X (where X is Hf, Y, Zr, etc.) film. It provides the CPP read sensor with microstructural discontinuity from a ferromagnetic lower shield, thus facilitating the CPP read sensor to grow freely with preferred crystalline textures, and with ferromagnetic continuity to the ferromagnetic lower shield, thus acting as a portion of the ferromagnetic lower shield. The ferromagnetic shielding layer is preferably formed of a polycrystalline Ni—Fe film. It exhibits magnetic properties exactly identical to those of the ferromagnetic lower shield, thus acting identically as the ferromagnetic lower shield, and a uniform columnar grain morphology, thus initiating a uniform large grain morphology in the CPP read sensor. | 03-22-2012 |
20120069472 | CURRENT-PERPENDICULAR-TO-PLANE (CPP) READ SENSOR WITH FERROMAGNETIC BUFFER AND SEED LAYERS - A current-perpendicular-to-plane (CPP) tunneling magnetoresistance (TMR) or giant magnetoresistance (GMR) read sensor with ferromagnetic buffer and seed layers is proposed for high-resolution magnetic recording. The ferromagnetic buffer layer is preferably formed of an amorphous Co—X (where X is Hf, Y, Zr, etc.) film. It provides the CPP read sensor with microstructural discontinuity from a ferromagnetic lower shield, thus facilitating the CPP read sensor to grow freely with preferred crystalline textures, and with ferromagnetic continuity to the ferromagnetic lower shield, thus acting as a portion of the ferromagnetic lower shield. The ferromagnetic seed layer is preferably formed of a polycrystalline Ni—X (where X is Pt, Pd, Rh, Ru, etc.) film. It exhibits a face-centered-cubic (fcc) structure and does not exchange-couple with the antiferromagnetic pinning layer. It provides the CPP read sensor with microstructural continuity, thus facilitating the CPP read sensor to grow with preferred crystalline textures and exhibiting good magnetic and TMR properties, and with ferromagnetic continuity to the ferromagnetic lower shield, thus also acting as another portion of the ferromagnetic lower shield and defining the lower bound of a read gap with its upper surface. | 03-22-2012 |