Entries |
Document | Title | Date |
20080247090 | Head Holding Member, Disk Device With the Head Holding Member,
And Head Holding Method In The Disk Device - The present invention provides a head holding member and a head holding method of a head actuator having a very high impact resisting property by a simple construction, and a disk device using the head holding member and the head holding method. Concretely, a head support arm has a leaf spring portion for pressing the head support arm against a lamp portion ( | 10-09-2008 |
20080247091 | Stand-alone quasi-static tester - A quasi-static tester is disclosed. The quasi static tester comprises: a mount configured to fix a head gimbal assembly in a given position; a camera configured to observe the head gimbal assembly when the head gimbal assembly is fixed in the mount, wherein the camera is used to position the head gimbal assembly in an observation position; and a magnet for performing quasi-static testing of the head gimbal assembly when the head gimbal assembly is fixed in the mount, wherein the observation position and a testing position in a uniform area of the magnet are a predetermined distance apart. | 10-09-2008 |
20080247092 | STORAGE DISK DRIVING APPARATUS FOR DRIVING A STORAGE DISK AND A CASE THEREFOR - A storage disk driving apparatus for driving a storage disk includes a carriage holding a head slider at the tip of the carriage. A shroud surface is disposed upstream of an air flow generated by the rotation of the storage disk with respect to the carriage, such that a plane surface extending in parallel with an outer edge line of the storage disk and away from the outer edge of the storage disk downstream of the air flow. In this manner, the air is directed more towards the axis of the carriage, and away from the arms of the carriage. | 10-09-2008 |
20080259503 | Magnetic disk drive and soldering method of feed-through - Embodiments of the present invention help to achieve a solder joining structure having high reliability, in which even if a componential material of a flange of a feed-through of a sealed magnetic disk drive is an iron-based material such as kovar, and a componential material of a base of the drive is an aluminum-based alloy, leakage of low-density gas is dramatically reduced. According to one embodiment, a base has a stepped portion in the inside of a periphery of an opening, and an inclined surface extending to the outside of the base is formed at an edge of a surface of the stepped portion, on which a flange of a feed-through is placed, thereby when the stepped portion of the base is joined by soldering with the flange of the feed-through, a solder fillet is formed not only in the inside of the base, but also in the outside thereof. | 10-23-2008 |
20090080113 | Vision guided system and method for micro-scale flex cable/integrated lead suspension solder pad positioning in HDD assembling process - An apparatus for positioning a component relative to an associated component. The apparatus includes a component receiver and onto which the component is disposed. The apparatus also includes an associated component receiver and onto which the associated component is disposed. The component receiver orients the component into a position for retaining the component to the associated component. The apparatus further includes a retention device driver for inserting a retention device, the retention device retaining the component to the associated component in the position. The apparatus also includes an optical position verifier for verifying the position of the component and the associated component. | 03-26-2009 |
20090147405 | METHOD FOR MANUFACTURING MAGNETIC RECORDING MEDIUM, MAGNETIC RECORDING MEDIUM MANUFACTURED BY THE SAME, AND MAGNETIC RECORDING APPARATUS INCORPORATING THE MAGNETIC RECORDING MEDIUM - A method for manufacturing a magnetic recording medium which has a substrate and a magnetic layer formed on the substrate, the method including: forming the magnetic layer over a convexo-concave pattern provided on a surface of a mold, and releasing the mold from the magnetic layer formed on the substrate. | 06-11-2009 |
20090161258 | STORAGE DEVICE AND ASSEMBLY METHOD FOR THE SAME - A storage device includes a storage medium; a rotating shaft; a head actuator pivotally supported about the rotating shaft; a head fixed at an end of the head actuator for reading/writing information from/to the storage medium; and a magnetic circuit having a magnetic member and a magnet connected thereto. The magnet has a magnetic characteristic corresponding to the inertia of the head actuator. The storage device further includes a coil fixed at the other end of the head actuator. The coil generates a driving force proportional to the inertia when an electric current is flown through the coil by interaction with the magnetic circuit. The driving force causes the head actuator to be driven to adjust the head to a target position on the storage medium. The magnetic member is configured as a single unit having a common dimension among a plurality of storage devices having different specifications. | 06-25-2009 |
20090207526 | Head Support Device, Disk Device Having The Head Support Device, And Portable Electronic Device Having The Disk Device - A head support device allowing a further increase in shock resistance against an external impact, a disk device having the head support device, and a portable electronic device having the disk device are disclosed. In the head support device, head support arm on which head slider with a head is disposed through a flexible and elastic gimbal mechanism is formed rotatably about rotary shaft as a horizontal rotating axis in parallel with a disk surface. Head support arm is formed such that it pivots about a straight line drawn between apexes of a pair of pivots as vertical pivot axis vertically with respect to the disk surface. A gravity center position of a total mass of members, except the head slider, pivoting about vertical pivot axis is positioned near vertical pivot axis. The disk device includes the foregoing head support device. | 08-20-2009 |
20090207527 | PERPENDICULAR MAGNETIC RECORDING MEDIUM, PERPENDICULAR MAGNETIC RECORDING DEVICE USING THE SAME, AND METHOD FOR MANUFACTURING PERPENDICULAR MAGNETIC RECORDING MEDIUM - In a magnetic recording medium, there are realized an improvement in surface planarity and a reduction in characteristic degradation. The magnetic recording medium is fabricated so that the upper layer of a recording layer and a refill layer are formed of the same material. | 08-20-2009 |
20090251824 | RAMP TO PARK READ/WRITE HEAD AND HARD DISK DRIVE INCLUDING THE SAME - A ramp to park a read/write head includes a fixed portion fixed to a base member of the hard disk drive, and a supporting portion to contact and support the tip-tab of the suspension assembly and includes an inclined rail surface and a horizontal rail surface which extend in a moving direction of the tip-tab, wherein a rail boundary between the inclined rail surface and the horizontal rail surface is inclined with respect to a lengthwise axis of the tip-tab. The rail boundary can be a straight line inclined at an angle with respect to the lengthwise axis of the tip-tab, or can be curved toward the horizontal rail surface or the inclined rail surface. | 10-08-2009 |
20090284870 | HEAD SUSPENSION ASSEMBLY AND STORAGE MEDIUM DRIVE - An arm has one end coupled to a head suspension and the other end defining a domed surface in a head suspension assembly. The domed surface establishes point contact against the side surface of a head slider. The arm is designed to restrain the direction of application of a force along an imaginary plane including the back surface of the head slider. A piezoelectric element is bonded to the arm at a position between the one end and the other end of the arm. The head suspension assembly allows the arm to curve in response to expansion/shrinkage of the piezoelectric element. A driving force is applied from the arm to the head slider based on the curvature of the arm. Since point contact is established between the arm and the side surface of the head slider, the curvature of the arm cannot be restrained. | 11-19-2009 |
20090310260 | MAGNETIC HEAD SUSPENSION - A magnetic head suspension having a thin metallic plate as a substrate which is caused to have a new function besides a function as a spring. The magnetic head suspension plural lines for connecting a magnetic head and a control circuit board to each other are formed over a thin metallic plate having a spring property through an insulating layer, and are integrated with the thin metallic plate A metallic pad made of a same metal layer as the plural lines is formed independently of the lines, an opening is made in a portion of the metallic pad to penetrate the insulating layer and then to reach the thin metallic plate, and an electroconductive region is formed into the opening by metal plating, thereby connecting the metallic pad and the thin metallic plate electrically to each other. Thereby, the desired portions of the suspension can be grounded through this simple structure without adopting a complicated structure wherein additional special lines for grounding are not separately laid besides the lines, which are lines for connecting a magnetic head and a control circuit board to each other. | 12-17-2009 |
20100007992 | Magnetic head assembly and magnetic recording apparatus - A magnetic head assembly includes a magnetic recording head, a head slider, a suspension and an actuator arm. The magnetic recording head includes: a main magnetic pole; an adjustment magnetic pole provided together with the main magnetic pole; a spin torque oscillator; a main magnetic pole coil being wound around the main magnetic pole; and an adjustment magnetic pole coil being wound around the adjustment magnetic pole. At least part of the spin torque oscillator is provided between the main magnetic pole and the adjustment magnetic pole. A way of winding of the adjustment magnetic pole coil is different from a way of winding of the main magnetic pole coil. The magnetic recording head is mounted on the head slider. The head slider is mounted on one end of the suspension. The actuator arm is connected to the other end of the suspension. | 01-14-2010 |
20100014193 | LAMP MEMBER FOR STORAGE DISK DRIVE, STORAGE DISK DRIVE, AND METHOD FOR DETECTING POSITION OF HEAD ACTUATOR - According to one embodiment, a storage disk drive includes a housing, a storage disk, a head actuator, a load tab, a ramp member, a magnetic pattern, and an electromagnetic transducer device. The storage disk is housed in the housing. The head actuator is housed in the housing to be swingable around a support shaft, and includes an end facing the storage disk. The load tab is supported by the end of the head actuator. The ramp member is fixed to the housing outside the storage disk, and defines a passage of the load tab along a circular arc drawn with a predetermined curvature. The magnetic pattern includes magnetic poles arranged on the ramp member along the passage. The electromagnetic transducer device is supported by the end of the head actuator, and reads the magnetic poles on the ramp member. | 01-21-2010 |
20100033874 | Method of correcting head suspension, method of manufacturing head suspension, head suspension and method of processing thin plate - A method corrects a head suspension by irradiating an objective part of the head suspension with a laser beam before or after mounting a read/write head on the head suspension. The method can precisely correct the head suspension even when correcting the head suspension a plurality of times. The method includes drawing, with the laser beam, a straight line of predetermined length on the objective part and repeating this process a plurality of times in such a way that the direction of a straight line drawn this time crosses the direction of a straight line drawn last time. | 02-11-2010 |
20100091408 | HARD DISK DRIVE WITH DISK SEPARATOR FOR CREATING AXIAL GAPS BETWEEN DISKS FOR ACCESS BY READ/WRITE HEADS - A hard disk drive (HDD) has a stack of disks mounted on a rotatable spindle with the disks being movable axially, i.e., in a direction parallel to the axis of rotation of the spindle. A disk separator is located inside the spindle and separates axially-adjacent disks in a pair to create an axial gap. Any pair of axially-adjacent disks can be separated so that different axial gaps are created. A single head-arm assembly with at least one and preferably two read write heads is movable axially so that it can be rotated by the rotary actuator into any one of the axial gaps. The read/write heads can thus access data on the disk surfaces in the axial gaps. When it is desired to have the disk separator create an new axial gap and thus a new pair of disk surfaces to be accessed, the actuator rotates the head-arm assembly away from the outer perimeters of the disks and moves the read/write heads onto a head support structure that supports the read/write heads off the disks. | 04-15-2010 |
20100128397 | FLEX CABLE AND METHOD FOR LOWERING FLEX CABLE IMPEDANCE - A flex cable comprises a base film, a first adhesive layer coupled with the base film, and at least two signal traces coupled with the first adhesive layer. The flex cable comprises a second adhesive layer coupled with the signal traces and the first adhesive layer, and a cover film coupled with the second adhesive layer. The flex cable comprises an electrically conductive layer adjacent to the signal traces, and parallel with the base film and the cover film. | 05-27-2010 |
20100142095 | HEAD SUSPENSION ASSEMBLY INTERCONNECT FOR A DATA STORAGE DEVICE - Interconnections for attaching a suspension assembly to an arm of an actuator or positioning device are disclosed. In illustrated embodiments, the interconnection includes one or more weld connections formed along opposed side seams of overlapping portions of the arm and head suspension assembly. In illustrated embodiments, the weld connections are formed along side surfaces generally transverse to upper and lower surfaces of the arm. In another embodiment, a groove pattern is formed, for example via a laser etching process, in an overlapping portion of the head suspension assembly or arm and an epoxy is inlayed in the groove to connect the head suspension assembly and arm. Illustrated embodiments also include multiple connections including, for example, a swage connection and a weld or other connection. | 06-10-2010 |
20100165512 | SYSTEM, METHOD AND APPARATUS FOR MASTER PATTERN GENERATION, INCLUDING SERVO PATTERNS, FOR ULTRA-HIGH DENSITY DISCRETE TRACK MEDIA USING E-BEAM AND SELF-ASSEMBLY OF BLOCK COPOLYMER MICRODOMAINS - A system, method, and apparatus for forming a high quality master pattern for patterned media, including features to support servo patterns, is disclosed. Block copolymer self-assembly is used to facilitate the formation of a track pattern with narrower tracks. E-beam lithography forms a chemical contrast pattern of concentric rings, where the spacing of the rings is equal to an integral multiple of the target track pitch. The rings include regions within each servo sector header where the rings are offset radially by a fraction of a track pitch. Self-assembly is performed to form a new ring pattern at the target track pitch on top of the chemical contrast pattern, including the radial offsets in the servo sector headers. When this pattern is transferred to disks via nanoimprinting and etching, it creates tracks separated by nonmagnetic grooves, with the grooves and tracks including the radial offset regions. | 07-01-2010 |
20100165513 | WRITE HEAD WITH SELF-ALIGN LAYER AND A METHOD FOR MAKING THE SAME - A system according to one embodiment includes a write pole having an end region positioned towards an air bearing surface, a first flare point, and a second flare point positioned between the air bearing surface and the first flare point; and a shield positioned above the write pole, wherein a cross sectional area of the write pole at a point between the first and second flare points along a plane passing through the write pole and oriented about parallel to the air bearing surface is greater than a cross sectional area of the end region of the write pole along a plane oriented parallel to the plane passing through the second flare point. Additional systems and methods are also presented. | 07-01-2010 |
20100172056 | APPARATUS FOR RETAINING LUBRICANT ON THE DEPOSITED END OF A SLIDER IN A HARD DISK DRIVE - This application discloses a hard disk drive, a head stack assembly, a head gimbal assembly, each including a slider with a deposited end including at least one means for retaining lubricant that tends to accumulate on the deposited end. | 07-08-2010 |
20100232068 | EQUALIZATION AND MINIMIZATION OF MULTI-HEAD STACK ASSEMBLY'S MOTION DURING SELF SERVO WRITING AND HDD OPERATION - A disk hard disk drive that includes a spindle motor and an actuator arm coupled to a base plate. A plurality of disks are coupled to the spindle motor and a plurality of heads are coupled to the actuator arm and the disks. The drive also includes a cover attached to the base plate. The cover and base plate enclose a hard disk area that has a horizontal center line. The hard disk area includes a volume of air above the horizontal center line that is equal to a volume of air below the horizontal center line. The air space within the hard disk area is equal and symmetrical in a vertical direction. Such an arrangement reduces track mis-registration when servo is copied from a disk surface to the other surfaces of the disks in the drive. | 09-16-2010 |
20100254044 | DISK DRIVE DEVICE HAVING FLUID DYNAMIC BEARING WITH POROUS MEMBER AT POSITION IN WHICH LUBRICANT IS CHARGED - The present invention provides a disk drive device that can easily be reduced in size with a simple structure by reducing foreign matters floating in a lubricant to reduce inconvenience caused by the floating foreign matters. The disk drive device includes a fixed body section, a rotating body section, a bearing unit and a drive unit. The bearing unit includes a shaft that is a rotation center, a sleeve that has an accommodating portion in which the shaft is accommodated and that permits relative rotation around the shaft, a radial space defined by an inner wall surface of the sleeve-accommodating portion and an outer wall surface of the shaft, first and second radial dynamic pressure grooves that generate a radial dynamic pressure in at least one of the inner wall surface of the sleeve and the outer wall surface of the shaft that define the radial space, a lubricant charged into the radial space, and a porous filter that is disposed in at least a portion of the charging space in which the lubricant is charged, thereby capturing a foreign matter contained in the lubricant. | 10-07-2010 |
20100284110 | APPARATUS OF A ARM LIMITER FOR MINIMIZING EFFECT OF NON-OPERATIONAL SHOCK IN A HARD DISK DRIVE - This application discloses a hard disk drive comprising a arm limiter mounted on a disk base to limit movement of the actuator arms during a non-operational shock event while parked. The arm limiter and disk base are disclosed in various combinations to limit actuator arm movement during non-operational shocks. | 11-11-2010 |
20100284111 | BASEPLATE FOR DISK DRIVE SUSPENSION AND METHOD FOR MANUFACTURING BASEPLATE - A cylindrical boss portion is press-formed on a baseplate of a disk drive suspension. The boss portion is penetrated by a ball insertion hole relative to the thickness of the baseplate. The baseplate is formed of stainless steel. A chemically-polished surface is formed on an inner circumferential wall of the ball insertion hole by chemically polishing the baseplate after heat-treating it. The boss portion is inserted into a mounting hole of an actuator arm. A ball having a diameter larger than the inside diameter of the ball insertion hole is passed through the ball insertion hole. As the diameter of the boss portion is enlarged by the ball, the boss portion is fixed to the actuator arm. | 11-11-2010 |
20100309588 | TURNTABLE AND METHOD FOR MANUFACTURING THE SAME - A turntable for a storage disk drive apparatus includes a plate member made of a ferromagnetic material and a central resin member arranged at the center of the plate member and provided with an outer peripheral portion positioned above the plate member. The central resin member includes claws extending downwards from the outer peripheral portion and claw position holes overlapping with the claws in the direction parallel to the center axis of the central resin member. The claw position holes include inner surfaces spaced apart from an edge of the plate member. The inner surfaces are defined by the resin. The central resin member includes a resin layer extending in the direction perpendicular to the center axis. The resin layer exists between the portion of the edge of the plate member around the claw position holes and the claw position holes. | 12-09-2010 |
20100321833 | TOLERANCE RING ASSEMBLY - A tolerance ring has a band ( | 12-23-2010 |
20100328819 | DISK DRIVE DEVICE FOR ROTATING A DISK - In a disk drive device, a recording disk is mounted on a rotor. A base has a bearing hole, the center of which is along the rotational axis of the rotor. A bearing unit rotatably supports the rotor with respect to the base, the bearing unit being glued to the bearing hole. A ring-shaped first groove, the center of which is along the rotational axis, is arranged on a side surface of the bearing hole. A ring-shaped second groove, the center of which is along the rotational axis, is arranged on an outer surface of the housing, the outer surface contacting the side surface of the bearing hole. The position of the second groove with respect to its direction along the rotational axis is different from the position of the first groove with respect to its direction along the rotational axis. The base and the bearing unit are electrically connected by a conductive resin applied along an edge portion of the bearing hole, the edge portion being on a lower surface of the base. | 12-30-2010 |
20110043948 | DISK DRIVE DEVICE WITH HUB - The disk drive device includes a base member, a hub, a bearing unit which is arranged on the base member and which rotatably supports the hub, and a spindle drive unit which drives the hub to rotate. The spindle drive unit includes a stator core having a salient pole, a coil wound around the salient pole and a magnet opposed to the salient pole. The hub formed of magnetic material includes an outer cylinder portion engaged with an inner circumference of a recording disk and an inner cylinder portion to which an outer circumference of the magnet is fixed. The diameter of the inner cylinder portion is larger than the diameter of the outer cylinder portion. | 02-24-2011 |
20110075300 | Reducing the Propagation of Vibrations to an HDD Head - Approaches for reducing vibrations, such as resonance vibrations, that are propagated to a hard-disk drive (HDD) head are disclosed. A hard-disk drive may compromise a lead suspension that includes a magnetic read/write head. The magnetic read/write head may be connected to the lead suspension by a plurality of leads. A portion of each of the plurality of leads, such as the solder ball joints, may be covered by a dampening material that is designed to absorb vibrations occurring in the lead suspension to prevent transmission of the vibrations to the magnetic read/write head. Alternately, the dampening material may be applied to other locations, such as the limiter engagements, which can transmit vibrations to the magnetic read/write head. | 03-31-2011 |
20110102946 | CONTROLLING MECHANICAL DISTORTION IN A MEMBER - An actuator and method of using an actuator that operably supports a component of a data transfer assembly. The actuator has a body and an arm extending longitudinally from the body. The arm has a tapered portion defined by laterally converging opposing surfaces from a proximal end of the arm adjacent the body and terminating at a medial longitudinal position of the arm. The arm further has a tip portion extending contiguously from the medial longitudinal position of the arm to a distal end of the arm. The tip portion has laterally opposing protuberant arcuate lobes that cooperatively define a maximum lateral width of the tip portion. In some embodiments the arm has a surface defining an aperture sized for operably swaging a head gimbal assembly (HGA) to the arm. A lateral apex of at least one of the lobes is intersected by a lateral axis that intersects the aperture. The perimeter surface can define a first lateral cross-sectional width of the arm, at a first intersection of a longitudinal axis of the arm with the surface defining the aperture, that is greater than a second lateral cross-sectional width of the arm, at a second intersection of the longitudinal axis of the arm with the surface defining the aperture. | 05-05-2011 |
20110102947 | MAGNETORESISTANCE DEVICE - A magnetoresistance device comprises a substrate, an elongate semiconductor channel extending in a first direction and at least two conductive leads providing a set of contacts to the channel. The device may comprise an optional semiconductor shunt in contact with the channel. The optional shunt, channel and set of contacts are stacked relative to the substrate in a second direction which is perpendicular to the first direction and the surface of the substrate. The device has a side face running along the channel. The device is responsive to a magnetic field generally perpendicular to the side face. | 05-05-2011 |
20110141623 | MAGNETIC HEAD SLIDER - A magnetic head slider including a first face adjacent to a recording medium, a shallow groove face formed at a first depth from the levitating face, a deep groove face formed at a second depth from said first face, where the second depth is greater than the first depth. The head slider also includes a negative pressure generating face comprising the deep groove face, first levitating faces enclosing a periphery of the negative pressure generating face on an inlet side of the head slider, and second levitating faces formed on opposite sides of the head slider, wherein the first levitating faces and the second levitating faces are separated. | 06-16-2011 |
20110157749 | HEAD-SLIDER CONFIGURED TO AVOID CONTACT WITH A MAGNETIC-RECORDING DISK, A HARD-DISK DRIVE INCLUDING THE HEAD-SLIDER, AND A METHOD FOR MANUFACTURING THE HEAD-SLIDER - A head-slider. The head-slider includes a magnetic-recording head and an air-bearing surface. The air-bearing surface includes air-bearing portions, shallow-recessed surfaces, and a deep-recessed surface. Air-bearing portions are configured to fly nearest to a magnetic-recording disk; shallow-recessed surfaces have a first depth from the air-bearing portions; the deep-recessed surface has a second depth, larger than the first depth, from the air-bearing portions. Air-bearing portions and shallow-recessed surfaces are configured to generate positive pressure; and, the deep-recessed surface is configured to generate negative pressure. A shallow-recessed surface is disposed near a leading edge of the head-slider; air-bearing portions are preceded and abutted by the shallow-recessed surface; a plurality of small leading-end pads are disposed near a leading edge, and at least at each side of the shallow-recessed surface near lateral sides, of the head-slider; and, a leading-end deep-recessed surface is disposed at a leading side of the leading-end pads. | 06-30-2011 |
20110235213 | SUSPENSION SUBSTRATE, MANUFACTURING METHOD OF SUSPENSION SUBSTRATE, SUSPENSION, DEVICE-MOUNTED SUSPENSION, AND HARD DISK DRIVE - The object of the present invention is to provide a suspension substrate such that the thickness of an insulating layer for supporting a connecting terminal having a flying structure is uniform. The present invention attains the object by providing a suspension substrate, comprising a metal supporting substrate, an insulating layer formed on the metal supporting substrate, and a wiring layer formed on the insulating layer, wherein a wiring layer projecting section is provided by a plurality; an adjusting section formed on the insulating layer and composed of a first adjusting section and a second adjusting section is provided on both sides of the plural wiring layer projecting sections; and a gap between a first outermost wiring layer projecting section and the first adjusting section, a gap between the adjacent wiring layer projecting sections, and a gap between a second outermost wiring layer projecting section and the second adjusting section are equal. | 09-29-2011 |
20110249365 | PERPENDICULAR MAGNETIC RECORDING WRITE HEAD WITH IMPROVED LAMINATED MAIN POLE - A perpendicular magnetic recording write head has an improved antiferromagnetically-coupled laminated main pole (MP) formed on a substrate. The MP has two ferromagnetic multilayers, each comprising at least one FeCo/NiFe/FeCo ferromagnetic trilayer, antiferromagnetically coupled across an antiferromagnetically coupling (AFC) film consisting essentially of ruthenium (Ru). The MP has a NiFe layer directly above the AFC film, on the side of the AFC film opposite the side facing the substrate, and in contact with the Ru AFC film and the lower FeCo layer of the upper multilayer. There is no NiFe layer directly below the Ru AFC film so the side of the AFC film facing the substrate is in direct contact with the upper FeCo layer of the lower multilayer. | 10-13-2011 |
20110292547 | MAGNETIC DISC APPARATUS - A micro actuator for two-stage actuator, which serves to position a magnetic disc apparatus, according to the invention comprises thermal actuators formed from a thin film resistance to generate a high force and arranged on both sides of a slider, and a parallel flat plate spring for driving the slider and a head element in a track widthwise direction, and has function to mount thereon a laser diode for thermal assist recording. | 12-01-2011 |
20120069474 | MAGNETIC HEAD, MAGNETIC HEAD ASSEMBLY, AND MAGNETIC RECORDING/REPRODUCING APPARATUS - According to one embodiment, a magnetic head includes a reproducing section. The reproducing section has a medium facing surface facing a magnetic recording medium and detects a direction of magnetization recorded in the medium. The reproducing section includes a first magnetic pinned layer, a second magnetic pinned layer, and a magnetic free layer. Directions of magnetizations of the first and second magnetic pinned layers are pinned. The second magnetic pinned layer is stacked with the first magnetic pinned layer in a first direction parallel to the medium facing surface. The magnetic free layer is provided between the first and second magnetic pinned layers. A direction of magnetization of the magnetic free layer is changeable. A length of the magnetic free layer along a second direction perpendicular to the medium facing surface is shorter than lengths of the first and second magnetic pinned layers along the second direction. | 03-22-2012 |
20120106006 | MAGNETIC SENSOR HAVING IMPROVED RESISTANCE TO THERMAL STRESS INDUCED INSTABILITY - A magnetic read sensor having improved robustness to withstand thermal variations resulting from thermal fly height heating. Improved thermal robustness comes as a result of improved pinned layer pinning. The read head includes an AFM layer having an increased thickness to provide a higher blocking temperature. The read head further includes a pinned layer structure that includes a first magnetic layer adjacent to and exchange coupled with the AFM layer. The first layer comprises a Co—Fe layer with an increased Fe content of 20-30 atomic percent. The pinned layer structure also includes a second magnetic layer that is antiparallel coupled with the AP | 05-03-2012 |
20120176702 | RECORDING HEAD, MAGNETIC HEAD ASSEMBLY, AND MAGNETIC RECORDING APPARATUS - A recording head including a first electrode, a first magnetic layer, a second magnetic layer, a first intermediate layer, a third magnetic layer, a second electrode, and a magnetic pole. | 07-12-2012 |
20120212857 | MAGNETO-RESISTIVE EFFECT DEVICE, MAGNETIC HEAD ASSEMBLY, AND MAGNETIC RECORDING DEVICE - According to one embodiment, a magneto-resistive effect device includes a stacked body, a pair of electrodes for supplying current in a stacking direction of the stacked body. The stacked body includes a first magnetic layer, a second magnetic layer, and a spacer layer disposed between the first magnetic layer and the second magnetic layer. At least one of the first magnetic layer, the second magnetic layer, and the spacer layer includes an oxide layer formed from a metal oxide. A crystalline structure of the metal oxide is a NaCl structure. | 08-23-2012 |
20120243125 | MAGNETORESISTIVE SENSOR HAVING A STRUCTURE FOR ACTIVATING AND DEACTIVATING ELECTROSTATIC DISCHARGE PREVENTION CIRCUITRY - A structure for preventing Electrostatic Discharge (ESD) damage to a magnetoresistive sensor during manufacture. The structure includes a switching element that can be switched off during testing of the sensor and then switched back on to provide ESD shunting to the sensor. The switch can be a thermally activated mechanical relay built onto the slider. The switch could also be a programmable resistor that includes a solid electrolyte sandwiched between first and second electrodes. One of the electrodes functions as an anode. When voltage is applied in a first direction an ion bridge forms across through the electrolyte across electrodes making the resistor conductive. When a voltage is applied in a second direction, the ion bridge recedes and the programmable resistor becomes essentially non-conductive. | 09-27-2012 |
20120262825 | THIN-FILM MAGNETIC HEAD, METHOD OF MANUFACTURING THE SAME, HEAD GIMBAL ASSEMBLY, AND HARD DISK DRIVE - A thin-film magnetic head is constructed such that a main magnetic pole layer, a write shield layer, a gap layer, and a thin-film coil are laminated on a substrate. The write shield layer has an opposing shield part opposing the main magnetic pole layer and a front shield part. The front shield part is connected to the opposing shield part without straddling the thin-film coil. Besides, the front shield part has a shield front end face disposed in the medium-opposing surface and a shield upper end face formed distanced from the medium-opposing surface. Further, the front shield part has a shield connecting part. The shield front end face is connected to the shield upper end face by the shield connecting part. | 10-18-2012 |
20120327537 | Shield Stabilization Configuration With Applied Bias - An apparatus includes a sensor stack, first and second shields positioned on opposite sides of the sensor stack, and a first shield stabilization structure adjacent to the first shield and applying a bias magnetic field to the first shield. A second shield stabilization structure can be positioned adjacent to the second shield. | 12-27-2012 |
20130063841 | THERMAGNONIC SPIN-TORQUE OSCILLATOR(STO) AND SENSOR UTILIZING SAME TO DETECT SHIFTS IN THE FREE LAYER MAGNETIZATION OSCILLATION FREQUENCY - A “thermagnonic” spin-torque oscillator (STO) uses heat flow alone to cause the spin-torque (ST) effect and generate the persistent oscillation of the free layer magnetization. In addition to the conventional free and reference layers, the thermagnonic STO also includes a magnetic oxide layer having a fixed in-plane magnetization, a ferromagnetic metallic layer on one surface of the magnetic oxide layer, a nonmagnetic electrically conductive layer between the free layer and the metallic layer, and an electrically resistive heater on the other surface of the magnetic oxide layer. Due to the thermagnonic effect, heat flow from the magnetic oxide layer through the metallic layer, conductive layer and free layer ultimately results in a spin transfer torque (STT) to the free layer. Electrical sense current flowing in the opposite direction as the heat flow is used to monitor the frequency of oscillation of the free layer magnetization. | 03-14-2013 |
20130077192 | ROLLING BEARING APPARATUS, MANUFACTURE METHOD THEREOF, AND HARD DISK APPARATUS - To prevent a problem due to gas produced from an adhesive and to improve the productivity of a rolling bearing apparatus. The present invention provides a method of manufacturing a rolling bearing apparatus, including fitting a first rolling bearing and a second rolling bearing to a first member each in a pressed state, pressing the inner races of the first and second rolling bearings in a direction in which they are closer to each other in the axial direction with a second member sandwiched between outer races of the first and second rolling bearings, and welding at least a portion of a peripheral portion of the inner race of the pressed second rolling bearing in the axial direction to the outer face of the first member through irradiation with laser light. | 03-28-2013 |
20130094109 | SYSTEM, METHOD AND APPARATUS FOR ANTICORROSION OVERCOAT - A magnetic media disk has a substrate; a recording magnetic media on the substrate; and an overcoat on the recording magnetic media, the overcoat comprising a Si-based layer on the recording magnetic media, and a Ti-based layer on the Si-based layer. | 04-18-2013 |
20130100555 | METHOD OF MANUFACTURING THE THIN-FILM MAGNETIC HEAD, THE THIN-FILM MAGNETIC HEAD, HEAD GIMBAL ASSEMBLY AND HARD DISK DRIVE - A thin-film magnetic head is constructed such that a main magnetic pole layer, a lower shield layer, an upper shield layer and a thin-film coil are laminated on a substrate. A method of manufacturing the thin-film magnetic head has a lower shield layer forming step. This step comprises a step of forming a first lower shield part in a lower shield planned area, including a planned line along the medium-opposing surface, a step of forming a partial lower seed layer having a partial arrangement structure in which the partial lower seed layer is arranged on a lower formation zone except a lower exception zone including the planned line, a step of forming a second lower shield part on the partial lower seed layer. | 04-25-2013 |
20130114165 | FePt-C BASED MAGNETIC RECORDING MEDIA WITH ONION-LIKE CARBON PROTECTION LAYER - A magnetic media for magnetic data recording having a plurality of magnetic grains protected by thin layers of graphitic carbon. The layers of graphitic carbon are formed in a manner similar to onion skins on an onion and can be constructed as single monatomic layers of carbon. The thin layers of graphitic carbon can be formed as layers of graphene or as fullerenes that either cover or partially encapsulate the magnetic gains. The layers of graphitic carbon provide excellent protection against corrosion and wear and greatly reduce magnetic spacing for improved magnetic performance. | 05-09-2013 |
20130155550 | THIN-FILM MAGNETIC HEAD, METHOD OF MANUFACTURING THE SAME, HEAD GIMBAL ASSEMBLY, AND HARD DISK DRIVE - A thin-film magnetic head is constructed such that a main magnetic pole layer, a write shield layer, a gap layer, and a thin-film coil are laminated on a substrate. The thin-film magnetic head has a shield magnetic layer. The shield magnetic layer has a leading shield part. The leading shield part is disposed on a substrate side of the main magnetic pole layer. The leading shield part has a variable distance structure in which a rearmost part most distanced from the medium-opposing surface is distanced more from the main magnetic pole layer than is a foremost part on the main magnetic pole layer side. | 06-20-2013 |
20130170075 | SYSTEM, METHOD AND APPARATUS FOR MAGNETIC MEDIA WITH A NON-CONTINUOUS METALLIC SEED LAYER - A magnetic media has a substrate with an underlayer and a seed layer on the underlayer. The seed layer has a non-continuous metallic layer with a cubed crystalline lattice that is 001 textured, and has a lattice mismatch within 15% of a crystalline lattice structure of FePt with a metallic additive. This structure defines nucleation sites with an established epitaxial interface. | 07-04-2013 |
20130242435 | MAGNETO-RESISTANCE EFFECT ELEMENT, MAGNETIC HEAD ASSEMBLY, MAGNETIC RECORDING AND REPRODUCING APPARATUS, AND MAGNETIC MEMORY - According to one embodiment, a magneto-resistance effect element includes: a first electrode; a second electrode; a first magnetic layer provided between the first and the second electrodes; a second magnetic layer provided between the first magnetic layer and the second electrode; and an oxide layer of a metal oxide provided between the first magnetic layer and the second magnetic layer. The oxide layer includes wustite crystal grains of a wustite structure with a (1 1 1) plane orientation containing iron. A lattice spacing of a (1 1 1) plane of the wustite crystal grains is not less than 0.253 nanometers and not more than 0.275 nanometers. | 09-19-2013 |
20130279046 | MAGNETIC HEAD, MAGNETIC HEAD ASSEMBLY, MAGNETIC RECORDING AND REPRODUCING APPARATUS, AND METHOD FOR MANUFACTURING MAGNETIC HEAD - According to one embodiment, a magnetic head includes a reproducing unit to detect a medium magnetic field recorded in a magnetic recording medium. The reproducing unit includes first and second magnetic shields, a stacked body, and a side wall film. The stacked body is provided between the first and second magnetic shields and includes first and second magnetic layer and an intermediate layer provided between them. The stacked body has a side wall. The side wall intersects a plane perpendicular to a stacking direction from the first magnetic shield toward the second magnetic shield. The side wall film covers at least a part of the side wall of the stacked body. The side wall film includes at least one of Fe and Co, and has a composition different from a composition of the first magnetic layer and different from a composition of the second magnetic layer. | 10-24-2013 |
20130342936 | WIRING CIRCUIT SUBSTRATE, FLEXIBLE SUBSTRATE FOR SUSPENSION, AND METHOD OF PRODUCING FLEXIBLE SUBSTRATE FOR SUSPENSION - A wiring circuit substrate, comprising: a metal support layer; an insulating layer formed on the metal support layer; a conductive layer for wiring formed on the insulating layer; and an opening formed so as to open at a same location in the insulating layer and the conductive layer for wiring, wherein the metal support layer includes: a support section that supports the insulating layer and the conductive layer for wiring, and a terminal section that extends from one edge side to the other edge side of the opening, the terminal section being separated from the support section; and the conductive layer for wiring includes a wiring that is connected to the terminal section by a connecting section. | 12-26-2013 |
20140016233 | MULTILAYER FILM, MAGNETIC HEAD, MAGNETIC HEAD DEVICE, MAGNETIC RECORDING/REPRODUCING APPARATUS AND METHOD FOR MANUFACTURING MULTILAYER FILM - In the present invention, magnetic and non-magnetic films are formed as a compound of Fe, Ni and P to provide a multilayer film in which such magnetic and non-magnetic films are alternately stacked. | 01-16-2014 |
20140043713 | MAGNETO-RESISTANCE EFFECT ELEMENT, MAGNETIC HEAD, MAGNETIC HEAD ASSEMBLY, MAGNETIC RECORDING AND REPRODUCING APPARATUS, AND METHOD FOR MANUFACTURING MAGNETO-RESISTANCE EFFECT ELEMENT - According to one embodiment, a magneto-resistance effect element includes a first shield, a second shield, a third shield, a first magnetic layer, a second magnetic layer, and an intermediate layer. The third shield is provided between the first shield and the second shield, and is in contact with the second shield. A length of the third shield along a first direction crossing a stacking direction from the first shield toward the second shield is shorter than a length along the first direction of the second shield. The first magnetic layer is provided between the first shield and the third shield. The second magnetic layer is provided between the first magnetic layer and the third shield, and is exchange-coupled to the third shield. The intermediate layer is provided between the first magnetic layer and the second magnetic layer. | 02-13-2014 |
20140049857 | MAGNETO-RESISTANCE EFFECT ELEMENT, MAGNETIC HEAD, MAGNETIC HEAD ASSEMBLY, MAGNETIC RECORDING AND REPRODUCING APPARATUS, AND METHOD FOR MANUFACTURING MAGNETO-RESISTANCE EFFECT ELEMENT - According to one embodiment, a magneto-resistance effect element includes: a first shield; a second shield; a first side shield layer; a second side shield layer; a stacked body; a first shield guide layer; and a second shield guide layer. The first shield guide layer includes a fifth magnetic layer provided between the first side shield layer and the stacked body. The second shield guide layer includes a sixth magnetic layer provided between the second side shield layer and the stacked body. A distance between the first side shield layer and the first shield guide layer is shorter than a distance between the stacked body and the first shield guide layer. A distance between the second side shield layer and the second shield guide layer is shorter than a distance between the stacked body and the second shield guide layer. | 02-20-2014 |
20140177105 | MAGNETIC DATA RECORDING SYSTEM WITH MIRROR IMAGE ASYMMETRIC MAGNETIC WRITE ELEMENTS - A magnetic disk drive system configured for shingled magnetic data recording wherein data tracks are recorded in an overlapping fashion on a magnetic media. The disk drive system includes magnetic write heads that are asymmetric so as to have increased writing at one side of the write head. The magnetic disk drive system includes magnetic write heads that are mirror images of one another so that write heads located at opposite surfaces of the magnetic media (e.g. one head facing up and one facing down) end up having preferential writing in the location relative to inner and outer diameters of the magnetic media. | 06-26-2014 |
20140204487 | MAGNETORESISTIVE EFFECT ELEMENT, MAGNETIC HEAD, MAGNETIC HEAD ASSEMBLY, AND MAGNETIC RECORDING AND REPRODUCING APPARATUS - According to one embodiment, a magnetoresistive effect element includes: a nonmagnetic layer; a stacked structure body; and a detection layer. The stacked structure body is provided on the nonmagnetic layer. The stacked structure body includes: a reference layer; an oscillation layer; and an intermediate layer. The reference layer is provided on the nonmagnetic layer. A magnetization of the reference layer is fixed. The oscillation layer is provided on the reference layer. A magnetization of the oscillation layer is substantially parallel to the magnetization of the reference layer and is variable. The intermediate layer is provided between the reference layer and the oscillation layer. The detection layer is provided on the nonmagnetic layer apart from the stacked structure body. | 07-24-2014 |
20140233135 | MAGNETORESISTANCE EFFECT ELEMENT, MAGNETIC HEAD, MAGNETIC HEAD ASSEMBLY, AND MAGNETIC RECORDING AND REPRODUCING DEVICE - According to one embodiment, a magnetoresistance effect element includes first and second shields, a stacked body and a hard bias unit. The stacked body includes first and second magnetic layers, an intermediate layer and a first Ru layer. A magnetization of the first magnetic layer is changeable. A magnetization of the second magnetic layer is changeable. The intermediate layer is nonmagnetic. The first Ru layer is provided between the first shield and the first magnetic layer. A thickness of the first Ru layer is not less than 1.5 nanometers and not more than 2.5 nanometers. The hard bias unit is provided between the first shield and the second shield. A first direction from the first shield toward the second shield intersects a second direction from the stacked body toward the hard bias unit. | 08-21-2014 |
20140313618 | TOLERANCE RING - A tolerance ring is formed of a plate member, in a ring shape that is substantially circular along a predetermined direction, and provided with a plurality of protrusions projected radially in a circumferential direction, wherein an even number of the protrusions are arranged along the circumferential direction, and a plurality of straight lines that pass through a central portion of the plurality of protrusions and a center of a circle that circumscribes the tolerance ring cross one another. | 10-23-2014 |
20140362474 | TOLERANCE RING, HARD DISK DEVICE, AND METHOD FOR MANUFACTURING HARD DISK DEVICE - A tolerance ring has a ring shape formed of a plate-shaped member substantially into a circle along a predetermined direction and includes a plurality of convex portions protruding in a radial direction, and a notch portion notched in a direction orthogonal to a circumferential direction on at least one of outer edge side end portions in the direction orthogonal to the circumferential direction. | 12-11-2014 |