Class / Patent application number | Description | Number of patent applications / Date published |
360245300 | Gimbal detail | 76 |
20080204938 | Thin-Film Magnetic Head Having Antistatic Means for Protective Coat of Element End - Provided is a thin-film magnetic head in which a noise due to the voltage potential difference between the read head element and the protective coat surface is suppressed. The thin-film magnetic head comprises: a read head element, one end surface of the read head element reaching an head end surface on the ABS side; a protective coat formed on the head end surface in such a way to cover at least the one end surface of the read head element; and at least one antistatic means for preventing the protective coat from being electrostatically charged, formed on/above the element formation surface, one end surface of the at least one antistatic means reaching the head end surface, the protective coat covering a portion, not the whole, of the one end surface of the at least one antistatic means on the head end surface. | 08-28-2008 |
20080304183 | Flexure for head gimbal assembly with narrow gimbal width in a hard disk drive - A hard disk drive and head gimbal assembly including a flexure finger with a micro-actuator split of the flexure supporting a micro-actuator control line, leading to minimized gimbal width for the flexure finger about the micro-actuator assembly including the coupled slider and micro-actuators to reduce mechanical vibrations caused by wind off of a rotating disk surface accessed by the slider. | 12-11-2008 |
20090002893 | MAGNETO-RESISTIVE EFFECT DEVICE OF THE CPP STRUCTURE, AND MAGNETIC DISK SYSTEM - The invention provides a giant magneto-resistive effect device (CPP-GMR device) having a CPP (current perpendicular to plane) structure comprising a spacer layer, and a fixed magnetized layer and a free layer stacked one upon another with said spacer layer interposed between them, with a sense current applied in a stacking direction, wherein the free layer functions such that the direction of magnetization changes depending on an external magnetic field, and the spacer layer comprises a first and a second nonmagnetic metal layer, each formed of a nonmagnetic metal material, and a semiconductor oxide layer interposed between the first and the second nonmagnetic metal layer, wherein the semiconductor oxide layer that forms a part of the spacer layer is made of zinc oxide, tin oxide, indium oxide, and indium tin oxide (ITO), the first nonmagnetic metal layer is made of Cu, and the second nonmagnetic metal layer is substantially made of Zn. MR change rate and heat resistance are thus much more improved than ever before. | 01-01-2009 |
20090009911 | Suspension With Locally Strengthened Gimbal - An apparatus with a head gimbal assembly designed to reduce movement and rotation of components of the head gimbal assembly structure is disclosed. One embodiment head gimbal assembly may comprise a flexure including a ramp limiter, a suspension assembly further comprising a suspension tongue, a slider further comprising a magnetic head; and a load beam further comprising a lift tab; and a ramp further comprising a step to engage and support the ramp limiter and support and constrain the movement of the slider. In certain embodiments, the flexure may further comprise a flexure rail located at its end to reduce movement and rotation of the suspension tongue. | 01-08-2009 |
20090034127 | SUSPENSION WITH LOCALLY STRENGTHENED INTEGRATED TRACE CONNECTIONS - A head gimbal assembly may comprise a slider, a micro-actuator attached to the slider, a flexure to mount the slider and the micro-actuator, and a suspension comprising a support region, a main portion, and a moving portion, wherein the flexure comprises a plurality of trace sets to electrically couple the micro-actuator and the slider, and wherein the plurality of trace sets are laminated generally parallel to each other. | 02-05-2009 |
20090052089 | THIN-FILM MAGNETIC HEAD HAVING CPP STRUCTURE MAGNETO-RESISTIVE EFFECT DEVICE AND HARD DISK SYSTEM - The thin-film magnetic head of the invention comprises a magneto-resistive effect device of the CPP (current perpendicular to plane) structure including a multilayer film comprising a stack of a fixed magnetization layer, a nonmagnetic layer and a free layer stacked one upon another in order, with a sense current applied in the stacking direction of the multilayer film, and an upper shield layer and a lower shield layer with the magneto-resistive effect device held between them in the thickness direction, and further comprises a bias magnetic field-applying layer located at each end of the multilayer film in the widthwise direction and a re-magnetizer unit designed such that when the bias magnetic field-applying layers malfunction, they are re-magnetized to go back to normal. Therefore, when the bias magnetic field-applying layers degrade with an increasing error rate of a hard disk system, it is possible to re-magnetize them without dismantling the hard disk system, so that the hard disk system can be kept going on. | 02-26-2009 |
20090067096 | GIMBAL ASSEMBLY - The present invention includes a gimbal having a plurality of forwards struts extending from a central portion of a transducer-carrying apparatus and terminating in a forward suspension attachment portion. A plurality of rear struts also extend from a central portion of the transducer-carrying apparatus and terminate in a rear suspension attachment portion. The width of the gimbal is narrower than the width of the supporting suspension. A method of making the gimbal includes photo-patterning a foil substrate with an insulative material in the shape of struts. Bond pads are plated onto the foil substrate, which serve as the forward and rear attachment portions to the suspension, as well as attachment portions to the transducer-carrying apparatus. Supportive gimbal springs are etched onto the insulative undercoat of the foil substrate. | 03-12-2009 |
20090080114 | Head gimbal assembly, flexible printed cable, head stack assembly, and disk drive unit with the same - A head gimbal assembly comprises a micro-actuator and a suspension. The suspension provides a single channel electrically connecting a bonding terminal of the suspension with the micro-actuator for controlling the movement of the micro-actuator. Thus the head gimbal assembly has a simple layout of a single channel to control the micro-actuator. The present invention also discloses a head gimbal assembly avoiding the occurrence of cross-talk, a flexible printed cable utilizing a common voltage lead to reduce its size, a head stack assembly with alternately arranged and stacked head gimbal assemblies which reduces or even prevents suspension and arm vibration resonance as well as avoids sliders from off-track and out of TMR budget, and a disk drive unit with such head stack assembly. | 03-26-2009 |
20090086375 | Apparatus for measuring vibration characteristics of head gimbal assembly - An apparatus for measuring the vibration characteristics of a head gimbal assembly can grasp resonant characteristics at high frequencies and efficiently measure the vibration characteristics of the head gimbal assembly, the apparatus has a shaker head to which the head gimbal assembly is attached, the shaker head has a main body made of ceramics and a fixture made of metal, the fixture is solidly fixed to the main body and is provided with positioning pins and an internal thread, the head gimbal assembly is supported with a mount block, and the mount block has positioning holes to be fitted to the positioning pins of the fixture and a joined part to be removably fastened to the internal thread of the fixture. | 04-02-2009 |
20090168249 | FLEXURE BASED SHOCK AND VIBRATION SENSOR FOR HEAD SUSPENSIONS IN HARD DISK DRIVES - Systems and methods for flexure based shock and vibration sensor for head suspensions in hard disk drives. Specifically, this invention deals with operational shock and vibration management within a hard disk drive. In one implementation, the assembly includes a circuit embedded optical waveguide sensor that includes a flexible electrical circuit board with a configuration of either a single or multi layers of conductor traces, a thin flexure gimbal for carrying and flying a HDD slider, a consecutive sensing layer constructed by an optical core and by clad construction with a configuration of either a single core array or a plural core array, an optical loop formed by light input and an output core, optical grating disposed on the consecutive sensing layer forming an optical grating waveguide sensor, a light emitter for injecting light into the optical core, and a receiver receiving the output light from the optical core. | 07-02-2009 |
20090190262 | Magnetoresistive element and method of manufacturing the same - A magnetoresistive element includes a magnetoresistive film including a magnetization pinned layer, a magnetization free layer, an intermediate layer arranged between the magnetization pinned layer and the magnetization free layer, a cap layer arranged on the magnetization pinned layer or on the magnetization free layer, and a functional layer formed of an oxygen- or nitrogen-containing material and arranged in the magnetization pinned layer, or in the magnetization free layer, and a pair of electrodes which pass a current perpendicularly to a plane of the magnetoresistive film, in which a crystalline orientation plane of the functional layer is different from a crystalline orientation plane of its upper or lower adjacent layer. | 07-30-2009 |
20090251825 | Micro electro mechanical system and head gimbal assembly - Embodiments of the present invention help to prevent dropout of a head slider from an micro electrical mechanical system (MEMS) and damage of the MEMS. In an embodiment of the present invention, a suspension for a slider dynamic electric test (DET) comprises an MEMS for supporting a head slider. The MEMS has a clamper for holding a head slider and the clamper moved by an external force can attach or detach a head slider. The suspension comprises limiters for limiting the clamper's lateral movement. The limiters limit the clamper's undesirable movement, which prevents the clamper's lateral movement in attaching a head slider, a head slider's dropout and the MEMS's damage caused by a contact with a magnetic disk, or a head slider's dropout and the MEMS's damage in handling. | 10-08-2009 |
20090268347 | Suspension and disk drive - Embodiments of the present invention help to increase yaw stiffness while achieving higher peel stiffness and lower roll stiffness and pitch stiffness in a suspension supporting a head slider. A gimbal according to an aspect of the present invention has a securing point where the gimbal is secured to a load beam in the front and securing points where the gimbal is secured to the load beam in the rear. The gimbal tongue pivots on a dimple contact point. A front ring is secured at the securing point to support the gimbal tongue. The rear ring is secured at the securing points to support the gimbal tongue. The rear ring provides the gimbal tongue with higher yaw stiffness than the front ring. The front ring provides the gimbal tongue with higher peel stiffness than the rear ring. | 10-29-2009 |
20090296281 | Bearing Assembly Having a Flex Pivot to Limit Gimbal Bearing Friction for Use in a Gimbal Servo System - A bearing assembly suitable for use in a gimbal servo system is provided. The bearing assembly comprises a housing, a first shaft, a bearing rotatingly coupling the first shaft to the housing such that the first shaft is adapted to rotate about an axis relative to the housing, a second shaft having a first end adapted to be coupled to a payload, and a flex pivot element pivotally coupling an end of the first shaft to a second end of the second shaft such that the second shaft is adapted to rotate relative to the first shaft via the flex pivot element. In response to a rotation of the second shaft, the flex pivot element is adapted to pivot an angle about the first shaft axis. The pivot angle reflects a displacement of the second shaft relative to the first shaft and corresponds to a friction disturbance of the bearing. | 12-03-2009 |
20090303636 | Method of reclaiming head suspension, method of manufacturing head suspension, and method of reclaiming work - A method of reclaiming a head suspension includes detaching a slider | 12-10-2009 |
20090316306 | Thin film piezoelectric element and its manufacturing method, head gimbal assembly and disk drive unit with the same - A thin film piezoelectric element includes a piezoelectric thin film layer, a seed layer and an elastic substrate layer. The piezoelectric thin film layer is a laminated structure comprising a first electrode layer, a second electrode layer and a piezoelectric layer sandwiched between the first electrode layer and the second electrode layer. The seed layer is formed on the second electrode layer, and the elastic substrate layer is formed on the seed layer. The thin film piezoelectric element is a single layer structure and has an elastic substrate layer for supporting the single layer structure, thereby it has enough stiffness and flexibility to afford facilities for manufacture and assembly and to avoid film peeling and deformation, ultimately increasing the production efficiency and lowering the cost. The invention also discloses a method for manufacturing the thin film piezoelectric element, a head gimal assembly and a disk drive unit with the same. | 12-24-2009 |
20090323222 | Thin film magnetic head, magnetic head slider, head gimbal assembly, head arm assembly, magnetic disk device and method of manufacturing thin film magnetic head - In manufacturing the thin film magnetic head, the rear end face of the MR element and the rear end face of a resistive film pattern are determined with high precision using a mask pattern, in which a first opening and a second opening are collectively formed. The first and second openings are located side by side in a track-width direction. The first opening includes a first edge extending across the MR film in the track-width direction, and the second opening includes a second edge located at a given interval, as measured in a direction orthogonal to the track-width direction, from the first edge, and extending in the track-width direction. In the step of polishing for forming a magnetic-recording-medium-facing-surface, the amount of polishing is determined by monitoring the resistance change of the resistive film pattern, thereby reducing the dimension errors in the MR height when manufacturing the MR element. | 12-31-2009 |
20090323223 | HEAD GIMBAL MECHANISM AND INFORMATION RECORDING/REPRODUCING APPARATUS - There is provided a head gimbal mechanism | 12-31-2009 |
20100020445 | OPERATIONAL-SHOCK PERFORMANCE IN A DISK DRIVE BY MAINTAINING SERVO SIGNAL - A method for maintaining a servo signal. The method includes monitoring a shock event value. The shock event value is generated by a shock sensor. The shock sensor is operably coupled with a disk drive. The disk drive is configured with an actuator arm having a suspension and slider coupled thereto. The method further includes detecting a variation in the shock event value associated with the slider. The method also includes switching from a conductive link to the slider to another conductive link to another slider, the another slider is coupled with another actuator arm in the disk drive. | 01-28-2010 |
20100067148 | Thin film magnetic head having a pair of magnetic layers whose magnetization is controlled by shield layers - A thin film magnetic head comprises an MR laminated body that has first and second magnetic layers, a nonmagnetic middle layer, and the first and second magnetic layers and the nonmagnetic middle layer are laminated to make contact with each other in respective order. First and second antiferromagnetic layers are provided with the first and second magnetic layers respectively. The first antiferromagnetic layer and/or the second antiferromagnetic layer contains a void part or a thin portion at least in a portion of the projection area toward the orthogonal direction to the film surface of the MR laminated body. | 03-18-2010 |
20100091409 | HEAD GIMBAL ASSEMBLY AND ACTUATOR HAVING THE SAME IN HARD DISK DRIVE - A gimbal head assembly and an actuator having the same, the gimbal head assembly and the actuator being included in a hard disk drive (HDD). The actuator can include a swing arm rotatably installed on a base member, the head gimbal assembly elastically biasing a read/write head towards a surface of a disk, and a voice coil motor rotating the swing arm. The head gimbal assembly can include a load beam attached to the swing arm, a flexure attached to the load beam, a slider mounted on a slider mounting portion of the flexure and comprising a read/write head installed on the slider, and an air foil disposed in front of the slider and guiding air flow generated due to rotations of the disk along both sides of the slider. The air foil reduces turbulent air flow in the vicinity of the slider, thereby reducing oscillations of the slider due to the turbulent air flow | 04-15-2010 |
20100097723 | THIN-FILM PIEZOELECTRIC DEVICE, PRODUCTION METHOD THEREOF, HEAD GIMBALS ASSEMBLY USING THE THIN-FILM PIEZOELECTRIC DEVICE, AND HARD DISK DRIVE USING THE HEAD GIMBALS ASSEMBLY - A method includes a step of stacking a first electrode layer, a piezoelectric layer, and a second electrode layer on a first substrate to form a first laminate; a step of stacking a support layer on a second substrate to form a second laminate; a step of bonding the first and second laminates through an adhesive layer to form a third laminate; a step of removing the first substrate from the third laminate; a step of processing the third laminate in a desired shape; and a step of removing the second substrate. A Young's modulus of the adhesive layer is smaller than a Young's modulus of the piezoelectric layer. Respective Young's moduli of the second electrode layer and the support layer are larger than the Young's modulus of the adhesive layer. The third laminate has no other piezoelectric layer except for the aforementioned piezoelectric layer. | 04-22-2010 |
20100157481 | MAGNETIC DISK DRIVE - According to one embodiment, a magnetic disk drive includes a magnetic disk including a recording surface, a head gimbal assembly including a slider in which a head is incorporated and a tab, and a ramp in a vicinity of the magnetic disk, the ramp including a first counter surface opposed to a peripheral part of the magnetic disk, a second counter surface opposed to an edge surface of the magnetic disk, and a ramp edge, in which the ramp includes a part of a side surface which is adjacent to the first counter surface and faces to a rotating direction of the magnetic disk, and is recessed toward a downstream side in the rotating direction of the magnetic disk, and the part of the side surface which is recessed and a tangent line to an outer circumference of the magnetic disk form an acute angle. | 06-24-2010 |
20100177442 | HEAD-SLAP MITIGATION IN A DATA STORAGE DEVICE - A data storage device comprises a housing, a data storage medium within the housing and a head gimbal assembly including a suspension supporting a read/write head. The read/write head is configured to store and retrieve data on the data storage medium. The read/write head is operably positioned between the data storage medium and the housing. The device further includes a head-lift limiter protruding from the housing that limits a movement of the read/write head in a direction that is substantially orthogonal to the data storage medium. | 07-15-2010 |
20100177443 | IN-SITU DYNAMIC PITCH AND ROLL ADJUSTMENT IN HARD DISK DRIVES - Disclosed is a head gimbal assembly for a hard disk drive that includes a head pivotally connected to a flexure. The flexure has a longitudinal axis. The assembly includes first and second micro-actuators that are located between the flexure and the head and spaced from the longitudinal axis. By way of example, the first and second micro-actuators may be thin piezo-electric transducers. Control signals can be provided to the micro-actuators to vary the pitch and/or roll of the head. | 07-15-2010 |
20100195251 | MICRO ACTUATOR DEVICE, HEAD SUSPENSION ASSEMBLY AND STORAGE MEDIUM DRIVING DEVICE - According to one embodiment, a micro actuator device, includes: a first piezoelectric element superposed on a first lower support plate coupled to a fixed plate; a second piezoelectric element superposed on a second lower support plate in parallel with the first lower support plate coupled to the fixed plate; a first upper support plate interposing the first piezoelectric element between the first upper support plate and the first lower support plate, and generating strain equal to strain of the first lower support plate when a tensile force of the first piezoelectric element acts on the first lower support plate; and a second upper support plate interposing the second piezoelectric element between the second upper support plate and the second lower support plate, and generating strain equal to strain of the second lower support plate when a tensile force of the second piezoelectric element acts on the second lower support plate. | 08-05-2010 |
20100259851 | Vibration sensor, suspension, head gimbal assembly and manufacturing method thereof, and disk drive unit including the same - A vibration sensor for a slider includes a base portion, a loading portion adapted for supporting the slider mounted thereon and formed within the base portion, and at least two connection arms connecting the base portion with the loading portion. The vibration sensor of the present invention can sensitively sense a vibration of the slider, thus maintaining the flying height of the slider, and finally improving the performance thereof. The invention also discloses a suspension, a head gimbal assembly and a manufacturing method thereof, and a disk drive unit including the same. | 10-14-2010 |
20100265621 | Suspension having an isolated trailling portion, head gimbal assembly and disk drive unit with the same - A suspension for a head gimbal assembly comprises a flexure having a suspension tongue with a trailing portion. The trailing portion has a plurality of trailing pads formed thereon adapted for bonding to a trailing edge of a slider. The trailing portion is isolated from other portions of the flexure by a first slot surrounding the trailing portion. The isolated trailing portion is not affected due to the temperature change, the thermal crown change of the slider is reduced and, in turn, the variation of flying height of the slider is reduce so as to improve read/write performance of the slider. The invention also discloses a head gimbal assembly and a disk drive unit with the same. | 10-21-2010 |
20100302685 | Magnetic head slider having ultra thin base layer with group 6A element and protective layer - A magnetic head slider according to the present invention comprises: a slider body including either a write head element or a read head element or both the write head element and the read head element; a seed layer provided on an air bearing surface of the slider body, the seed layer covering either the write head element or the read head element or both the write head element and the read head element, the seed layer having a film thickness that is less than 1 nm; and a protective film formed of diamond-like carbon, the protective film covering the seed layer. The seed layer is mainly formed of silicon and contains a 6A group element in a proportion of 2 atomic fractions or more and 30 atomic fractions or less. | 12-02-2010 |
20100315744 | SLIDER-GIMBAL SCRATCH MITIGATION - A head gimbal assembly for use with a load beam includes a gimbal, a slider for carrying a transducing head, and first and second tabs. The gimbal is configured to be supported by the load beam, and includes a gimbal tongue. At least a portion of the slider is secured to the gimbal tongue. The first tab extends from the gimbal tongue proximate a first corner of the slider. The second tab is spaced from the first tab and extends from the gimbal tongue proximate a second corner of the slider. | 12-16-2010 |
20100315745 | PROTECTIVE LAYER ON GIMBAL FOR SCRATCH MITIGATION - A head gimbal assembly includes a gimbal, a slider, and a polymer layer. The gimbal comprises a metal layer, and the metal layer of the gimbal defines a gimbal mounting portion for attachment to a metallic load beam and a gimbal tongue extending from the gimbal mounting portion. The slider comprises a ceramic material for carrying a transducing head, and at least a portion of the slider is secured to the gimbal tongue. The polymer layer is positioned adjacent to the gimbal and configured for limiting ceramic-to-metal and metal-to-metal contact. | 12-16-2010 |
20100315746 | HEAD GIMBAL ASSEMBLY AND FIXING METHOD OF BASE PLATE AND CARRIAGE ARM - According to one embodiment, a head gimbal assembly includes: base plate body; flexure; through hole passing through the base plate body; cylindrical base that upstands from the front surface of the base plate body, and has a first inner diameter; a cylindrical flange that continues to the base around the through hole and has a second inner diameter smaller than the first inner diameter; and inner wall surface that is defined by the flange and extends along a cylindrical surface formed by a generating line parallel to a central axis of the through hole. A ratio of a thickness T of the flange defined along a virtual plane orthogonal to the central axis of the through hole to a length L of the inner wall surface defined in a direction parallel to the central axis of the through hole is set to 1.5 or less. | 12-16-2010 |
20110051291 | CPP-type thin film magnetic head provided with side shields - A thin film magnetic head includes first and second shield layers that are positioned on both sides of a magnetoresistive (MR) stack with respect to a film surface orthogonal direction; a first exchange-coupling layer that is positioned between the MR stack and the first shield layer and that generates an exchange-coupling between a first magnetoresistive (MR) magnetic layer and a first magnetic control layer of the first shield layer; a second exchange-coupling layer that is positioned between the MR stack and the second shield layer and that generates an exchange-coupling between a second magnetoresistive (MR) magnetic layer and a second magnetic control layer of the second shield layer; a bias magnetic field application layer that is disposed at an opposite surface of the MR stack from an air bearing surface (ABS) and that applies a bias magnetic field to the MR stack in a direction orthogonal to the ABS; and pair of side shield layers that are positioned at both sides of the MR stack with respect to a track width direction. Each of the side shield layers includes a pair of magnetic layers that are antiferromagnetically exchange-coupled through a side shield ruthenium layer. | 03-03-2011 |
20110075301 | HEAD-GIMBAL ASSEMBLY, MICROACTUATOR, AND MANUFACTURING METHOD OF THE MICROACTUATOR - A head-gimbal assembly. The head-gimbal assembly includes a suspension, a microactuator disposed on the suspension, and a head-slider bonded to the microactuator. The head-gimbal assembly further includes a connection pad disposed on the suspension, a connection pad disposed on the microactuator and formed over an edge between a side surface and a top surface of the microactuator to have a bend portion with an obtuse angle, and a metallic interconnection joint for interconnecting the connection pad of the suspension with the connection pad of the microactuator. | 03-31-2011 |
20110090599 | Suspension having a short flexure tail, head gimbal assembly and disk drive unit with the same - A suspension for a head gimbal assembly comprises a flexure having a flexure having a tail with a plurality of electrical traces and a plurality of bonding terminals adapted for connecting with a flexible printed circuit formed thereon. Each of the bonding terminals comprises a connecting pad and a hole formed at one end of the connecting pad for electrically and mechanically connecting the connecting pad to the flexible printed circuit by bonding material. And the connecting pad has a bonding portion adjacent to the hole and an exposed portion for testing. The invention also discloses a head gimbal assembly and a disk drive unit with the same. | 04-21-2011 |
20110090600 | SUSPENSION, HEAD GIMBAL ASSEMBLY AND DISK DRIVE UNIT WITH THE SAME - A suspension for a head gimbal assembly comprises a flexure having a suspension tongue and a welding portion separating from the suspension tongue, and a load beam supporting the suspension tongue and having a portion welded to the welding portion of the flexure so that the load beam and the flexure are connected together. A plurality of bonding pads is formed on the suspension tongue for electrical connection to a slider. The suspension tongue has a leading portion and a leading edge limiter formed at the leading portion, and the leading edge limiter hooks on to the load beam. The suspension can improve the shockproof performance of the flexure of the suspension and, in turn, protect the structure of the suspension. The invention also discloses a head gimbal assembly and a disk drive unit including the same. | 04-21-2011 |
20110096440 | HEAD GIMBAL ASSEMBLY WITH CONTACT DETECTION - An apparatus and associated method for a head gimbal assembly (HGA) that detects a contact event. Various embodiments of the present invention are generally directed to a load beam coupled to a plate via a gimbal. The plate has a cantilevered ramp limiter which extends forward from the gimbal to engage a ramp load/unload structure. A slider is affixed to a lower surface of the plate opposite the gimbal while a strain gage is affixed to the ramp limiter. | 04-28-2011 |
20110149439 | HEAD GIMBAL ASSEMBLY HAVING A RADIAL ROTARY PIEZOELECTRIC MICROACTUATOR BETWEEN A READ HEAD AND A FLEXURE TONGUE - A novel head gimbal assembly (HGA) includes a piezoelectric microactuator having a first side and an opposing second side. The first side includes a plurality of anchor regions that extend radially from a center point and are bonded to the gimbal tongue. The first side also includes a first plurality of non-bonded regions lying between the anchor regions. The second side includes a plurality of link regions that extend radially from the center point and are bonded to a top surface of the read head. The second side also includes a second plurality of non-bonded regions lying between the link regions. Each of the plurality of link regions is angularly spaced between two of the plurality of anchor regions. | 06-23-2011 |
20110149440 | HEAD GIMBAL ASSEMBLY AND DISK DRIVE WITH A PIEZOELECTRIC ELEMENT - A head gimbal assembly having a stage fixed to a head-slider. A piezoelectric element which comprises; an upper surface, a first side surface, a second side surface, a lower surface, a first electrode, a second electrode, and a gap between the first and second electrodes on the lower surface, the piezoelectric element moving the stage by extension or contraction thereof according to a voltage applied to the first and second electrodes. A transmission wiring part which has a connection pad for the piezoelectric element. A cross-connector for physically and electrically cross-connecting the first electrode and the connection pad. An adhesive fixing part which is formed from an insulating adhesive and adhesively fixes the lower surface of the piezoelectric element to the transmission wiring part, between an end of the second electrode at the gap and the cross-connector. | 06-23-2011 |
20110228426 | Suspension, head gimbal assembly and disk drive unit with the same - A suspension comprises a flexure and a plurality of electrical traces. The flexure has a leading portion and a tailing portion, and has a laminated structure comprising a substrate layer, a dielectric layer, and a grounding layer sandwiched therebetween. The electrical traces comprise at least one pair of write traces, each write trace has a bonding pad positioned on the leading portion, a terminal pad positioned on the tailing portion, and a write wire connecting the bonding pad and the terminal pad, the write wire has at least one portion being furcated into at least two sub wires. The present invention can lower the impedance and decrease the signal transmission loss, and widen the frequency bandwidth simultaneously. The invention also discloses a HGA and a disk drive unit. | 09-22-2011 |
20110235214 | Magnetoresistive sensor, magnetic head, head gimbal assembly, and disk drive unit with the same - A MR sensor includes a first shielding layer, a second shielding layer, a MR element formed therebetween, and a pair of hard magnet layers respectively placed on two sides of the MR element. The MR element comprises an AFM layer formed on the first shielding layer, a pinned layer formed on the AFM layer and a free layer formed between the pinned layer and the second shielding layer. The free layer is funnel-shaped, which having a first edge facing the air bearing surface and a second edge opposite the first edge, and the first edge has a narrower width than that of the second edge. The structure of the MR sensor can improve MR height control performance, and improve the ESD performance and decrease the PCN and RTN and, in turn, get a more stable performance. The present invention also discloses a magnetic head, a HGA and a disk drive unit. | 09-29-2011 |
20110242703 | Thermally assisted magnetic head, method of manufacturing the same, head gimbal assembly, and hard disk drive - A thermally assisted magnetic head includes a main magnetic pole layer, a near-field light generating layer having a generating end part generating near-field light arranged within a medium-opposing surface, and an optical waveguide guiding light to the near-field light generating layer. The thermally assisted magnetic head includes a base layer which a base groove part having a width gradually getting smaller along a depth direction and extending in an intersecting direction intersecting with the medium-opposing surface is formed. The near-field light generating layer has an in-groove generating layer formed inside of the base groove part. The in-groove generating layer is formed along an inner wall surface of the base groove part and has a thin-film like structure. | 10-06-2011 |
20110255197 | MICROWAVE OSCILLATING ELEMENT AND THIN FILM MAGNETIC HEAD THEREWITH - A microwave oscillation element of the present invention includes a lamination main part in which an oscillating layer that is a magnetization free layer and that generates a high frequency electromagnetic field by an excitation of a spin wave, a nonmagnetic intermediate layer, a polarizer layer, and a reference layer that is to be a base magnetic layer of a spin transfer due to application of current are layered in this order. The oscillating layer is made of CoIr, the polarizer layer is configured of CoCr or CoRu; and the nonmagnetic intermediate layer is configured of Cr or Ru. As a result, the efficiency of the spin injection is improved and the microwave oscillation element where the oscillation efficiency is excellent can be realized. | 10-20-2011 |
20110310512 | THIN FILM MAGNETIC HEAD AND MAGNETIC DISK DEVICE - A thin film magnetic head has a plurality of electrode terminals formed on substantially the same surface as the head formation surface on which magnetic head element is laminated. The plurality of electrode terminals is arranged in an array near and along the second side of the head formation surface that is opposite the first side on the ABS side, from which the functional end of the magnetic head is exposed. The plurality of electrode terminals is formed to include a pad and a protrusion formed along a part of the periphery of the pad. | 12-22-2011 |
20110317313 | MAGNETORESISTIVE ELEMENT AND THIN FILM MAGNETIC HEAD - An orthogonalizing bias function part formed at a rear part of an MR part in a DFL structure influencing a substantial orthogonalizing function of first and second ferromagnetic layers in respective magnetization directions thereof, non-magnetic metal layers formed to abut both ends of the MR part in a width direction and separated from both ends of the MR part by respective insulation layers, each of the non-magnetic metal layers being in a two-layer structure configured with a first non-magnetic metal layer positioned at a lower side as a lower layer and a second non-metal layer positioned at an upper side as an upper layer are configured, and relationship R212-29-2011 | |
20120099226 | COMPACT MICROACTUATOR HEAD ASSEMBLY - Method and apparatus for a head gimbal assembly (HGA) which incorporates a microactuator. In accordance with various embodiments, a gimbal assembly has a gimbal island disposed within an aperture of a gimbal plate, which is mechanically decoupled from the gimbal island. At least one microactuator element is attached between the gimbal island and the gimbal plate to allow rotation of the gimbal island independent of the gimbal plate. The gimbal assembly is suspended from a dimple which extends from the gimbal island. | 04-26-2012 |
20120099227 | Magnetoresistive Sensor, magnetic head, head gimbal assembly and disk drive unit with the same - A MR sensor comprises a first shielding layer, a second shielding layer, a MR element and a pair of hard magnet layers sandwiched therebetween, and a non-magnetic insulating layer formed at a side of the MR element far from an air bearing surface of a slider. The MR sensor further comprises a first non-magnetic conducting layer formed between the first shielding layer and the MR element, and the first non-magnetic conducting layer is embedded in the first shielding layer and kept separate from the ABS. The MR sensor of the invention can obtain a narrower read gap to increase the resolution power and improve the reading performance, and obtain a strong longitudinal bias field to stabilize the MR sensor so as to increase the total sensor area and, in turn, get an improved reliability and performance. The present invention also discloses a magnetic head, a HGA and a disk drive unit. | 04-26-2012 |
20120170154 | 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 coil has a coil-layer. The coil-layer has a turn part arranged closer to an ABS than is a rear end part of the main magnetic pole layer farthest from the ABS. Regarding a substrate side coil-layer, arranged between the main magnetic pole layer and the substrate, of the coil-layer, a thickness of a non-corresponding magnetic pole part other than a magnetic pole corresponding part corresponding to an arrangement space of the main magnetic pole layer is larger than a thickness of the magnetic pole corresponding part. | 07-05-2012 |
20130057987 | 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 leading shield part opposing the main magnetic pole layer on the substrate side of the main magnetic pole layer. The thin-film magnetic head has a substrate side coil layer disposed between the main magnetic pole layer and the substrate. In the thin-film magnetic head, a space between a lower end face of the leading shield part and the substrate and a space between an upper end face in the substrate side coil layer and the substrate are formed equal to each other. | 03-07-2013 |
20130176644 | 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, a thin-film coil and a shield magnetic layer are laminated on a substrate. The thin-film magnetic head has a shield magnetic layer. This thin-film magnetic head has a hard guard frame layer surrounding an equidistant coil part, disposed at a position equidistant from the substrate, from outside and being in direct contact with almost a whole outside surface defining an outer shape of the equidistant coil part. | 07-11-2013 |
20130229730 | THERMALLY-ASSISTED MAGNETIC RECORDING HEAD INCLUDING A MAGNETIC POLE AND A HEATING ELEMENT - A thermally-assisted magnetic recording head includes a magnetic pole and a heating element. The magnetic pole has a front end face located in a medium facing surface. The magnetic pole forms on a track a distribution of write magnetic field strength that peaks at a first position on the track. The heating element forms on the track a distribution of temperature that peaks at a second position on the track. The first position is located on the trailing side relative to the second position. The front end face of the magnetic pole has a main portion and first and second extended portions. The first and second extended portions are extended in the track width direction from the main portion at positions on the leading side relative to the center of the main portion in the direction of travel of a magnetic recording medium. | 09-05-2013 |
20130250456 | MAGNETIC RECORDING HEAD, HEAD GIMBAL ASSEMBLY WITH THE SAME, AND DISK DRIVE - According to one embodiment, a magnetic recording head includes a main pole, a trailing shield opposing the main pole with a write gap therebetween, and a high-frequency oscillator between a distal end portion of the main pole and the trailing shield configured to produce a high-frequency magnetic field. The high-frequency oscillator includes a lower end surface facing the recording medium and an upper end surface substantially parallel to the lower end surface. The width of the lower end surface in a track-width direction is smaller than that of the upper end surface. | 09-26-2013 |
20130265674 | GIMBAL ASSEMBLY WITH A GOLD TONGUE/DIMPLE INTERFACE AND METHODS OF MAKING THE SAME - A gimbal assembly of a single or dual stage actuator is provided with gold at a tongue/dimple interface where a dimple of a supporting loadbeam contacts a tongue on the gimbal assembly. Using gold at the tongue/dimple interface greatly reduces the amount of wear particles formed during assembly and operation of the microactuator. The tongue may include a gold coating on the tongue at the tongue/dimple interface, or the tongue may have a hole etched in a stainless steel layer at the tongue/dimple interface to expose a gold layer disposed below the stainless steel layer. The tongue portion of the tongue/dimple interface may also be formed from a gold-coated copper pad with a polymer coating over the gold. | 10-10-2013 |
20150098154 | 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 leading shield part opposing the main magnetic pole layer on the substrate side of the main magnetic pole layer, a substrate side shield part has contact with the leading shield part. The thin-film coil has a substrate side coil layer between the main magnetic pole layer and substrate. The spaces to the substrate about a leading lower end face of the leading shield part, a shield upper end face of the substrate side shield part, and coil upper end face of the substrate side coil layer are formed to be equal to each other. The depth of the leading shield part is formed to be smaller than the depth of the substrate side shield part. | 04-09-2015 |
20160086624 | HEAD STACK ASSEMBLY WITH A FLEXIBLE PRINTED CIRCUIT HAVING A MOUTH CENTERED BETWEEN ARMS - A head stack assembly (HSA) includes a flexible printed circuit (FPC) having a mouth with an upper mouth edge and a lower mouth edge. The FPC includes a first plurality of conductive terminals immediately adjacent the upper mouth edge and a second plurality of conductive terminals immediately adjacent the lower mouth edge. The mouth is bisected by a mouth centerline that is substantially parallel to and substantially equidistant from first and second actuator arms of the HSA. A head gimbal assembly (HGA) is attached to each of the first and second actuator arms. Each HGA includes a flexure tail laminate having a dielectric layer disposed between a plurality of conductive traces and a structural layer. The plurality of conductive traces is electrically connected to either the first or second plurality of conductive terminals via a plurality of openings in the structural layer and in the dielectric layer. | 03-24-2016 |
360245400 | Attachment detail | 13 |
20090135523 | MICROACTUATOR, HEAD GIMBAL ASSEMBLY, AND DISK DRIVE DEVICE - Embodiments of the present invention relate to approaches to effectively let noise on a head slider bonded to a silicon substrate of a microactuator, escape to the ground. A head gimbal assembly (HGA) according to an embodiment of the present invention comprises a microactuator bonded to a gimbal tongue. The microactuator comprises a piezoelectric element and a movable part for moving in response to expansion or contraction of the piezoelectric element. The motion of the movable part causes a head slider to slightly move. The microactuator further comprises a conductive path including an impurity-containing silicon layer formed on the silicon substrate. The conductive path transmits electric charge of the head slider to a suspension. The conductivity of the impurity-containing silicon layer is lower than the one of the silicon substrate so that the noise charge of the head slider may escape to the suspension. | 05-28-2009 |
20090195935 | SUSPENSION INTERCONNECT AND HEAD GIMBAL ASSEMBLY INCLUDING THE SAME - A suspension interconnect of a head gimbal assembly (HGA) includes a ground layer; a base layer formed of a dielectric material and disposed on the ground layer; a pair of read traces and a pair of write traces which are formed of a conductive material, disposed on the base layer to extend so as not to short each other; and a cover layer which are formed of a dielectric material, disposed on the base layer and the traces and are to seal the traces, wherein the cover layer includes a read cover layer which is to seal the read traces, and a write cover layer which is separated from the read cover layer and to seal the write traces. | 08-06-2009 |
20090279210 | RAMP ARRANGEMENT FOR A DISK DRIVE AND METHOD - A digital storage apparatus includes a housing defining a housing interior and defining a ramp support surface. A disk is supported for rotation in the housing. A head gimbal assembly is supported for use in pivotally accessing the disk in performing one or more data accesses and for moving to an unloaded position from an access position. A ramp arrangement receives the head gimbal assembly in the unloaded position. The ramp arrangement includes at least three feet for sliding engagement with the ramp support surface for use in at least partially establishing an operational position of the ramp arrangement. In one aspect, the housing defines a first surface and a second surface, which are in a transverse relationship with respect to one another. The ramp arrangement engages the first surface and the second surface for establishing an operational position of the ramp arrangement in the housing interior. | 11-12-2009 |
20090323224 | HEAD GIMBALS ASSEMBLY OF HARD DISK AND METHOD OF ASSEMBLING THEREOF - Disclosed is a head gimbals assembly for a hard disk for use in a thermally assisted magnetic disk recording medium, in which a laser diode is applied so as to record information with high density, and a method of assembling such a head gimbals assembly. The head gimbals assembly for a hard disk comprises: a plurality of suspensions, each of which is provided with a magnetic head positioned adjacent to a corresponding disk surface among the disks so as to record/reproduce information; a head gimbals body having a centrally formed pivot hole which allows the head gimbals body to be fitted in such a manner as to be rotatable in relation to the disks, the suspensions extending from one end of the head gimbals body; a coil rotator provided at the other end of the head gimbals body so as to rotate the head gimbals body about the pivot hole; and a laser assembly having one or more laser diodes and one or more wave guides, the light emitted from any of the laser diodes is guided to a corresponding magnetic head by the wave guides. According to the present invention, because the head gimbals assembly having a laser diode used for increasing a data recording density of a magnetic disk is not fixed to a suspension but fixed to a head gimbals body which serves as a support for the head gimbals assembly, the heat produced from the head gimbals assembly can be efficiently lowered. Furthermore, because the number of peripheral optical components of the suspension is reduced, the flight of a magnetic head can be smoothly performed, so that the recording/reproducing of high density data can be efficiently performed. | 12-31-2009 |
20100085664 | Head gimbal assembly - [Problem] To provide a head gimbal assembly with a light guide structure and an information recording/reproducing apparatus which make it possible to reduce a cost of manufacture. | 04-08-2010 |
20100097724 | HEAD GIMBAL ASSEMBLY FOR HEAT-ASSISTED MAGNETIC RECORDING - Provided is an HGA with a radiation structure that can effectively get away the heat generated from a light source. The HGA comprises a suspension and a head comprising a slider and a light source unit. The suspension comprises an opening, and the light source unit projects through the opening to the opposite side to the slider in relation to the suspension. Further, the first and second pads are provided on the upper and lower surfaces of the suspension, respectively, the end surface opposite to the source-installation surface of the light source is connected to the first pad by the first connection member, and an electrode of the head part is connected to the second pad by the second connection member. Thus, heat flow paths can be provided from the light source to the opposed-to-medium surface to allow effective radiation of the heat generated from the light source. | 04-22-2010 |
20100172057 | Suspension gimbal designs with better dynamic performances - Gimbal designs are provided that minimize adverse dynamic performance of a HDD suspension, particularly subsequent to head-disk-interface (HDI) interactions. The improvement of operational performance can be seen in graphical representations of the vibrational modes of a gimbal mounted slider subsequent to such HDI interactions. Each gimbal design includes a ramp limiter formed as two separated arms connected by one or two transverse bars and a routing of conducting traces that relieves stress and minimally contacts these bars. | 07-08-2010 |
20100232069 | METHOD FOR MANUFACTURING HEAD GIMBAL ASSEMBLY, METHOD FOR MANUFACTURING HARD DISK DRIVE, HEAD GIMBAL ASSEMBLY AND HARD DISK DRIVE - A method for manufacturing an head gimbal assembly (HGA) according to the present invention is comprised of: a step for preparing a thin film piezoelectric actuator including a first piezoelectric laminate having a first piezoelectric layer, and a second piezoelectric laminate having a second piezoelectric layer; a step for preparing a suspension; a fixing step for fixing the thin film piezoelectric actuator to the suspension; a first repolarization treatment step for performing repolarization treatment to the first piezoelectric layer after the fixing step; and a second repolarization treatment step for performing repolarization treatment to the second piezoelectric layer after the fixing step. | 09-16-2010 |
20110141626 | MAGNETIC RECORDING DISK DRIVE WITH INTEGRATED LEAD SUSPENSION HAVING MULTIPLE SEGMENTS FOR OPTIMAL CHARACTERISTIC IMPEDANCE - An integrated lead suspension (ILS) in a magnetic recording disk drive has the transmission line portion of the ILS between the flex cable and the gimbal formed of multiple interconnected segments, each with its own characteristic impedance. At the interface between any two segments there is a change in the widths of the electrically conductive traces of the transmission line. The change in impedance of a fixed-length segment is a function of the change in its trace width. The number of segments and their characteristic impedance values are selected to produce the largest frequency bandwidth with a substantially flat group delay from the write driver to the write head. | 06-16-2011 |
20110242704 | DISK DRIVE FLEXURE - A flexure is provided with a metal base of stainless steel, an insulating layer, and a pair of copper conductors. An opening region including an opening and a non-opening region without an opening are formed in a longitudinal part of the metal base. One of the conductors is provided with a first slit extending longitudinally relative to the conductor, first band-like portions on the opposite sides of the first slit, and a first junction connecting the first band-like portions. The other conductor is provided with a second slit extending longitudinally relative to the conductor, second band-like portions on the opposite sides of the second slit, and a second junction connecting the second band-like portions. These conductors are arranged covering both the opening and non-opening region of the metal base. | 10-06-2011 |
20140268427 | HEAD GIMBAL ASSEMBLY WITH DIAMOND-LIKE COATING (DLC) AT TONGUE/DIMPLE INTERFACE TO REDUCE FRICTION AND FRETTING WEAR - A gimbal assembly of a single or dual stage actuator is provided with a layer of Diamond-Like Carbon (DLC) as a middle layer at a tongue/dimple interface where a dimple of a supporting loadbeam contacts a tongue on the gimbal assembly. Using the DLC at the tongue/dimple interface greatly reduces the amount of fretting wear particles formed during operation of the microactuator. The reduced wear at the dimple/gimbal interface may provide more stable dynamics over time. The DLC middle layer may be applied on the tongue, or on the tongue only at the tongue/dimple interface, or the DLC may be applied to the dimple. | 09-18-2014 |
20140285926 | COPPER RESIDUAL STRESS RELAXATION REDUCTION MEANS FOR HARD DISK DRIVE SLIDER GIMBALS - A hard drive gimbal trace circuit includes: a stainless steel gimbal strut (SGST) configured to support a transducer and nullify a natural pitch angle of a flexure from mechanical-coarse adjustment of the SGST; traces forming a trace structure, and being plastically deformed at a high strain region from the mechanical-coarse adjustment of the SGST; and a first protrusion and a second protrusion being at least partially disposed under the high strain region. The SGST has an edge which is disposed on the transducer side to be spaced apart from the traces in the high strain region and extends substantially parallel to the traces. The first protrusion and the second protrusion extend from the edge in an orthogonal direction to an extending direction of the traces and across the traces, and are disposed side by side in the extending direction of the traces. | 09-25-2014 |
20140293485 | FLEXURE, HEAD GIMBAL ASSEMBLY AND DISK DRIVE UNIT WITH THE SAME, AND MANUFACTURING METHOD THEREOF - A flexure for a suspension of a head gimbal assembly includes a substrate layer, a dielectric layer formed thereon, a conducting layer formed on the dielectric layer, and an insulating cover layer covered on the conducting layer, wherein at least one window is configured at a surface of the insulating cover layer thereby a portion of the conducting layer is exposed, and an antistatic adhesive is adhered to at least one side wall of the window and contacted with the conducting layer. The new structure of the flexure can avoid or eliminate electro-static discharges enduringly without dipping water. A head gimbal assembly and a disk drive unit with the same, a manufacturing method for the flexure are also disclosed. | 10-02-2014 |
360245500 | Integral with load beam | 1 |
20110043949 | HEAD GIMBAL ASSEMBLY ALIGNMENT WITH COMPLIANT ALIGNMENT PIN - This disclosure includes a system for aligning an unmounted head gimbal assembly (HGA) comprising a platform for a base plate of the HGA. The platform defines an X-Y plane. The system further comprises a compliant alignment pin extending beyond the platform in a Z-dimension perpendicular to the X-Y plane. The compliant alignment pin includes a tapered portion having a maximum diameter larger than a diameter of a boss hole in the base plate of the HGA. The compliant alignment pin is deflectable in the Z-dimension to allow the base plate of the HGA to register with the platform. The system further comprises a second alignment pin extending beyond the platform in the Z-dimension. The second alignment pin is configured to register with an HGA reference feature of the HGA when the boss hole of the HGA registers with the compliant alignment pin to precisely align the HGA relative to the compliant alignment pin and the second alignment pin. | 02-24-2011 |
360245700 | Motion limiter detail | 7 |
20090154022 | DISK DRIVE SUSPENSION - A disk drive suspension is provided with a load beam and a flexure including a tongue portion on which a slider is mounted. A pair of bent edge portions are formed by bending regions which extend along opposite side edges of the load beam in a thickness direction. A pair of limiters are formed on those parts of the load beam where the bent edge portions are provided. The limiters each include an arm portion and a retainer portion. An aperture for defining a contour of each limiter is formed in a region which extends along each side edge of the load beam. Each limiter is bent in a direction opposite to that of each corresponding bent edge portion. | 06-18-2009 |
20100232070 | APPARATUS OF A SLIDER LIMITER FOR PROTECTING READ-WRITE HEAD FROM NON-OPERATIONAL SHOCK IN A HARD DISK DRIVE - This application discloses a hard disk drive comprising a landing ramp mounted to a disk base including a slider limiter for at least one slider in the hard disk drive to limit movement of the sliders during a non-operational shock event while parked on the loading ramp. Each of the slider limiters includes a clearance zone configured so that when the slider contacts the slider limiter during the non-operational event, the read-write head remains out of contact with the slider limiter. The clearance zone may include a recess and/or a cutout. The clearance zone may include a recess and/or a cutout. The recess may take any shape, for example the recess may be a polygon and/or curved in cross section. The polygon may have at least two sides. The clearance zone may further include a radial bulge to further protect the read-write head during non-operational shock events. | 09-16-2010 |
20140168821 | CO-LOCATED GIMBAL-BASED DUAL STAGE ACTUATION DISK DRIVE SUSPENSIONS WITH MOTOR STIFFENER - Various embodiments concern a gimbaled flexure having a dual stage actuation structure. The flexure comprises a gimbal which includes a pair of spring arms, a pair of struts, and a tongue between the spring arms. A motor is mounted on the gimbal. The motor comprises a top side and a bottom side opposite the top side. The bottom side of the motor faces the flexure. A stiffener is mounted on the top side of the motor. At least one layer of adhesive is located between the stiffener and the motor and bonded to the stiffener and the motor. The gimbaled flexure includes a slider mounting for attaching a slider, such as to the tongue. The motor bends the struts to move the slider mounting about a tracking axis while the stiffener limits the degree of bending of the motor. | 06-19-2014 |
20140347765 | TWO-MOTOR CO-LOCATED GIMBAL-BASED DUAL STAGE ACTUATION DISK DRIVE SUSPENSIONS WITH MOTOR STIFFENERS - Various embodiments concern a dual stage actuation flexure. The dual stage actuation flexure comprises a flexure having a gimbal. The gimbal comprising a pair of spring arms, a tongue between the spring arms, and a pair of linkages respectively connecting the pair of spring arms to the tongue. The dual stage actuation flexure further comprises a pair of motors mounted on the gimbal and a pair of stiffeners respectively mounted on the motors. The dual stage actuation flexure further comprises a slider mounting. Electrical activation of the motors bends the pair of linkages to move the slider mounting about a tracking axis while the stiffeners limit the degree of bending of the motors during the electrical activation. | 11-27-2014 |
20140362475 | DAMPED DUAL STAGE ACTUATION DISK DRIVE SUSPENSIONS - Various embodiments concern a DSA suspension of a disk drive. The DSA suspension comprises a support configured to attach to the disk drive, the support comprising a proximal portion, a distal portion, and a linkage portion therebetween. The DSA head suspension system further comprises at least one motor mounted on the support, each motor positioned between the proximal portion and the distal portion. The DSA suspension further comprises a damper attached to some or all of the proximal portion, the motor(s), the distal portion, and the linkage portion. The damper can be a single layer or multilayered. The damper can comprise viscoelastic material. The damper can be adhesive. The damper may only be attached to the support and the motors and not to other components of the DSA suspension. | 12-11-2014 |
20140362476 | CO-LOCATED GIMBAL-BASED DUAL STAGE ACTUATION DISK DRIVE SUSPENSIONS WITH DAMPERS - Various embodiments concern a gimbaled flexure having a dual stage actuation structure comprising flexure which comprises a gimbal. The gimbal comprises at least one spring arm and a tongue connected to the at least one spring arm. The dual stage actuation structure further comprises a motor mounted on the gimbal, the motor comprising a top side and a bottom side opposite the top side, the bottom side of the motor facing the flexure. The dual stage actuation structure further comprises a damper located between the motor and the flexure, the damper contacting the tongue and the bottom side of the motor. The damper comprises one or both of elastic and viscoelastic material. Various other features of a dual stage actuation structure are provided. | 12-11-2014 |
20150062758 | TWO-MOTOR CO-LOCATED GIMBAL-BASED DUAL STAGE ACTUATION DISK DRIVE SUSPENSIONS WITH MOTOR STIFFENERS - Various embodiments concern a dual stage actuation flexure. The dual stage actuation flexure comprises a flexure having a gimbal. The gimbal comprising a pair of spring arms, a tongue between the spring arms, and a pair of linkages respectively connecting the pair of spring arms to the tongue. The dual stage actuation flexure further comprises a pair of motors mounted on the gimbal and a pair of stiffeners respectively mounted on the motors. The dual stage actuation flexure further comprises a slider mounting. Electrical activation of the motors bends the pair of linkages to move the slider mounting about a tracking axis while the stiffeners limit the degree of bending of the motors during the electrical activation. | 03-05-2015 |