A thermally assisted magnetic head includes a slider having a slider substrate and a magnetic head part, and a light source unit having a laser diode and a sub-mount. The magnetic head part includes a medium-opposite surface, a light source-opposite surface, and a slider-front end surface. The sub-mount includes a joined-end surface and a mount-front end surface, the laser diode includes an electrode surface and an LD-front end surface. The light source unit includes a shift joined structure which the laser diode is joined to a shift area of the joined-end surface, and the light source unit is mounted on the slider substrate so that the electrode surface intersects with a laminated surface of the magnetic head part. The shift area is set in a position which is shifted so that the LD-front end surface is away from the slider-front end surface than the mount-front end surface.
G11B 11/105 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants utilisant l'enregistrement par magnétisation ou démagnétisation utilisant un faisceau de lumière ou un champ magnétique pour l'enregistrement et un faisceau de lumière pour la reproduction, p.ex. enregistrement thermomagnétique induit par la lumière ou reproduction par l'effet Kerr
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 13/08 - Enregistrement utilisant simultanément ou sélectivement des procédés ou des moyens entrant dans des groupes principaux différents; Supports d'enregistrement correspondants; Reproduction simultanée ou sélective correspondante utilisant des interactions ou des moyens de transduction en champ proche et au moins un autre procédé ou moyen pour l'enregistrement ou la reproduction
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
2.
Self-aligned hybrid near field transducer with single peg grain
SAE Technologies Development (Dongguan) Co., Ltd. (Chine)
SAE Magnetics (Hong Kong) Limited (Hong Kong)
Inventeur(s)
Jin, Xuhui
Yang, Pengbo
Shimazawa, Koji
Guo, Hong
Guo, Qinghui
Chiah, Vincent Man Fat
Abrégé
A near field transducer (NFT) having improved reliability is disclosed. In some embodiments, a NFT includes a resonator body layer having a front side at a first plane that is recessed a first distance from an air bearing surface (ABS), and a peg layer that is a single layer made of a noble metal or alloy thereof. The peg layer includes a peg portion or peg with a front side at the ABS, a back side at the first plane, and two sides aligned orthogonal to the ABS and separated by the first cross-track width. The peg portion or the peg having a single peg grain with or without a desired (111) orientation through laser self-annealing process.
G09G 3/32 - Dispositions ou circuits de commande présentant un intérêt uniquement pour l'affichage utilisant des moyens de visualisation autres que les tubes à rayons cathodiques pour la présentation d'un ensemble de plusieurs caractères, p.ex. d'une page, en composant l'ensemble par combinaison d'éléments individuels disposés en matrice utilisant des sources lumineuses commandées utilisant des panneaux électroluminescents semi-conducteurs, p.ex. utilisant des diodes électroluminescentes [LED]
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 13/08 - Enregistrement utilisant simultanément ou sélectivement des procédés ou des moyens entrant dans des groupes principaux différents; Supports d'enregistrement correspondants; Reproduction simultanée ou sélective correspondante utilisant des interactions ou des moyens de transduction en champ proche et au moins un autre procédé ou moyen pour l'enregistrement ou la reproduction
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
3.
Magnetic head, head gimbal assembly, hard disk drive, and method for processing magnetic head
The present disclosure discloses a magnetic head, a head gimbal assembly, a hard disk drive, and a method for processing a magnetic head. The method comprises irradiating at a fixed point proximal to the read/write part with a laser irradiation device until the read head and the write head are thermally expanded; orientating air bearing surfaces of a plurality of magnetic heads forming a magnetic strip toward a lapping surface of a lapping device after laser irradiation, holding the air bearing surfaces in place, lapping with the lapping device until the air bearing surfaces are coplanar; and disassembling the magnetic strip to obtain a lapped magnetic head. Through laser heating induced compensation, the heights of lapped read head and write head of the magnetic head meet their respective target values, ensuring the normal reading and writing of the storage medium of the magnetic disk.
The laser diode includes an electrode pad layer, being connected to an electrode, and an outer surface in which the electrode pad layer is formed. The electrode pad layer includes a solder-bonding pad part and a solder-contact preventing part. The solder-contact preventing part is formed with small wettability material having solder wettability which is smaller than solder wettability of the solder-bonding pad part. The solder-bonding pad part and the solder-contact preventing part are formed so that a pad height, being a height from the outer surface to a surface of the solder-bonding pad part, is larger than a preventing height, being a height from the outer surface to a surface of the solder-contact preventing part.
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
5.
Microwave-assisted magnetic recording (MAMR) head slider with diamoind-like carbon layer and a silicon nitride layer, and related head gimbal assembly and disk drive unit
The present disclosure discloses a device with a protective layer, including a substrate, a seed layer formed on the substrate, and a diamond-like carbon layer formed on the seed layer, where the seed layer is a silicon nitride layer, and a content of nitrogen in the silicon nitride layer is 9%-17%. The present disclosure further discloses a microwave-assisted magnetic recording (MAMR) head slider, a head gimbal assembly, and a disk drive unit. The device has good thermal stability, oxidation resistance and corrosion resistance, thereby improving reliability and prolonging service life of an MAMR head.
G11B 5/255 - Structure ou fabrication de la surface de la tête en contact physique avec le milieu d'enregistrement ou immédiatement adjacente à celui-ci; Pièces polaires; Entrefers comprenant des moyens pour la protection contre l'usure
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/40 - Moyens de protection des têtes, p.ex. contre une température excessive
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
6.
Method of manufacturing head gimbal assembly, head gimbal assembly and hard disk drive
A method of manufacturing a head gimbal assembly includes a head connecting step which a thermally assisted magnetic head is connected to a suspension. The head connecting step includes a solder ball arrangement step which only one solder ball is arranged so that a laser diode of the thermally assisted magnetic head is connected to a flexure of the suspension, in an assembly structure which a slider of the thermally assisted magnetic head is adhered to the suspension. The solder ball arrangement step is performed using a connecting ball, as the solder ball, having a size larger than a wiring gap between an electrode surface of the laser diode and the flexure, and being in unmelted-solid condition.
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
7.
Method of manufacturing head gimbal assembly, head gimbal assembly and hard disk drive
A method of manufacturing a head gimbal assembly includes a head connecting step which a thermally assisted magnetic head is connected to a suspension. The head connecting step includes a solder ball arrangement step which only one solder ball is arranged so that a laser diode of the thermally assisted magnetic head is connected with a flexure of the suspension, in an assembly structure which a slider of the thermally assisted magnetic head is adhered to the suspension. The solder ball arrangement step is performed using a connecting ball, as the solder ball, having a size larger than a wiring gap and being in unmelted-solid condition. The head connecting step includes a heat step which an electrode surface of the laser diode is heated.
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
8.
Thermally assisted magnetic head including a record/read separate protective structure, head gimbal assembly and hard disk drive each having the thermally assisted magnetic head
A thermally assisted magnetic head includes a slider, the slider includes a slider substrate and a magnetic head part. The magnetic head part includes a recording head, a reading head, a near field transducer and a medium-opposing surface. The medium-opposing surface includes a recording area and a reading area. The magnetic head part includes a record/read separately protective structure which a stabilized protective film is formed on the recording area and a reading head protective film is formed on the reading area. The stabilized protective film includes a three-layers structure which a seed layer and a double protective layer are laminated. The double protective layer includes a YSZ protective layer and a hard protective layer. The reading head protective film includes a thickness which is thinner than the stabilized protective film.
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G11B 13/08 - Enregistrement utilisant simultanément ou sélectivement des procédés ou des moyens entrant dans des groupes principaux différents; Supports d'enregistrement correspondants; Reproduction simultanée ou sélective correspondante utilisant des interactions ou des moyens de transduction en champ proche et au moins un autre procédé ou moyen pour l'enregistrement ou la reproduction
9.
Adhesive glue, curing method therefor, and application thereof
The present disclosure discloses an adhesive glue, curing method therefor, and application thereof. The adhesive glue comprises the following components in percentage by weight: 50% to 80% of a polyurethane-modified acrylate, 0.1% to 10% of a thixotropic agent, 0.2% to 8% of a thermal initiator, and 2% to 30% of a diluent, wherein the thixotropic agent is a carbon nanotube. The adhesive glue is soft and resilient; it has a high viscosity, good thixotropy, low curing temperature, and high curing degree. Silicon precipitation can be prevented because silicon is not a component of the adhesive glue. The adhesive glue has strong adhesion and meets the production and performance requirements of the HDD binding process. In addition, the adhesive glue can effectively prevent hard disk damage and scratching.
A method of manufacturing a head gimbal assembly includes a head connecting step which a thermally assisted magnetic head is connected to a suspension. The head connecting step includes a solder ball arrangement step which a solder ball is arranged so that a laser diode of the thermally assisted magnetic head is connected to a flexure of the suspension, in an assembly structure which a slider of the thermally assisted magnetic head is adhered to the suspension. The solder ball arrangement step is performed using a connecting ball, as the solder ball, having a size smaller than a wiring gap between an electrode surface of the laser diode and the flexure, and being in melted-particle condition.
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
11.
Thermally assisted magnetic head, head gimbal assembly and hard disk drive
A thermally assisted magnetic head includes a slider, the slider includes a slider substrate and a magnetic head part. The magnetic head part includes a recording head, a reading head, a near field transducer and a medium-opposing surface. The medium-opposing surface includes a recording area and a reading area. The magnetic head part includes a record/read separately protective structure which an enhanced protective film is formed on the recording area and a reading head protective film is formed on the reading area. The enhanced protective film includes a plurality of films for effectively protecting the recording head and the near field transducer. The reading head protective film includes a thickness which is thinner than the enhanced protective film.
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 13/08 - Enregistrement utilisant simultanément ou sélectivement des procédés ou des moyens entrant dans des groupes principaux différents; Supports d'enregistrement correspondants; Reproduction simultanée ou sélective correspondante utilisant des interactions ou des moyens de transduction en champ proche et au moins un autre procédé ou moyen pour l'enregistrement ou la reproduction
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
12.
Head gimbal assembly, manufacturing method thereof, and disk drive unit
An HGA includes a slider and a suspension for supporting the slider, wherein the suspension includes a flexure having a plurality of electrical traces formed thereon and a gimbal connection area supported and connected to the slider, a first surface of the gimbal connection area is provided with a first adhesive and a second adhesive respectively formed thereon and between the first surface and an opposite surface of an air bearing surface of the slider, an opposite surface of the first surface of the gimbal connection area is contacted with a dimple, and the dimple is located at a position between first adhesive and the second adhesive. The HGA can eliminate torsion and sway gain in frequency response function testing, and maintain AC stroke sensitivity and linearity of elements, thereby finally improving the performance of the disk drive unit.
A semiconductor laser includes an active layer which emits laser light and cladding layers being formed so as to sandwich the active layer. The active layer includes a quantum dot layer including a plurality of quantum dots, which respectively confine movements of carriers in the three-dimensional directions. The laser radar device includes a light projection part which projects laser light and a light receiving part which receives reflected light of the laser light. The light projection part includes the semiconductor laser and a scanner which reflects the laser light, emitted from the semiconductor laser, to form a scanning laser light.
H01S 5/34 - Structure ou forme de la région active; Matériaux pour la région active comprenant des structures à puits quantiques ou à superréseaux, p.ex. lasers à puits quantique unique [SQW], lasers à plusieurs puits quantiques [MQW] ou lasers à hétérostructure de confinement séparée ayant un indice progressif [GRINSCH]
G01S 17/931 - Systèmes lidar, spécialement adaptés pour des applications spécifiques pour prévenir les collisions de véhicules terrestres
H01L 33/06 - DISPOSITIFS À SEMI-CONDUCTEURS NON COUVERTS PAR LA CLASSE - Détails caractérisés par les corps semi-conducteurs ayant une structure à effet quantique ou un superréseau, p.ex. jonction tunnel au sein de la région électroluminescente, p.ex. structure de confinement quantique ou barrière tunnel
A thin-film piezoelectric material elements are arranged on a thin-film piezoelectric material substrate. The thin-film piezoelectric material substrate includes an insulator on Si substrate including a substrate including silicon and an insulating layer on a surface of the substrate. The thin-film piezoelectric material element includes a thin-film laminated part on a top surface of the insulating layer. The thin-film laminated part includes a YZ seed layer including yttrium and zirconium, and formed on the top surface; a lower electrode film laminated on the YZ seed layer; a piezoelectric material film including lead zirconate titanate, shown by a formula Pb (ZrxTi(1-x)) O3(0≤×≤1), and an upper electrode film laminated on the piezoelectric material film. The thin-film laminated part further includes an upper piezoelectric-material protective-film, laminated on the upper side of the upper electrode film.
H01L 41/29 - Formation d’électrodes, de connexions électriques ou de dispositions de bornes
H01L 41/316 - Application de parties ou de corps piézo-électriques ou électrostrictifs sur un élément électrique ou sur un autre support par dépôt de couches piézo-électriques ou électrostrictives, p.ex. par impression par aérosol ou par sérigraphie par dépôt en phase vapeur
H01L 41/08 - Eléments piézo-électriques ou électrostrictifs
H01L 41/319 - Application de parties ou de corps piézo-électriques ou électrostrictifs sur un élément électrique ou sur un autre support par dépôt de couches piézo-électriques ou électrostrictives, p.ex. par impression par aérosol ou par sérigraphie à l’aide de couches intermédiaires, p.ex. pour contrôler la croissance
A slider-mounted read/write transducer for a hard disk drive (HDD) has a topology that mitigates attraction and accumulation of lubricant and hydrocarbons during the HDD operation. The slider topology may include a pattern of cavities and channels symmetrically disposed about a central longitudinal axis. The slider may also have a transverse channel extending perpendicularly inward from an opening in each side edge of the slider to intersect a channel that extends longitudinally along a middle axis towards a leading-edge pad in which a read/write transducer is embedded. The ends of the transverse channel open into an air-carrying groove extending vertically upward in the side of the slider in which a side flow blocker (SFB) restricts the air flow into the channel portion.
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 21/21 - Supports de têtes; Supports des douilles pour les têtes embrochables agissant pendant que la tête est en position de travail, mais immobile, ou permettant de petits déplacements pour suivre les irrégularités de la surface du support d'enregistrement avec des dispositions pour maintenir un écartement désiré entre la tête et le support d'enregistrement, p.ex. maintien dynamique de l'écartement à l'aide d'un fluide, à l'aide d'un coulisseau
16.
Microwave assisted magnetic recording head slider and lapping method thereof
A lapping method of a MAMR head slider includes a first lapping process: controlling the lapping plate to spin at a first speed, and controlling the MAMR head slider to move at a first moving speed, and applying a first force to the MAMR head slider; and a second lapping process: controlling the lapping plate to spin at a second speed that is lower than the first speed, and controlling the MAMR head slider to move at a second moving speed that is lower than the first moving speed, and applying a second force that is lower than the first force to the MAMR head slider; and the second lapping process includes a final lapping process section, and the second force in the final lapping process being zero. In such a way, lapping marks on the ABS are reduced to improve the roughness and the reliability.
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
B24B 49/00 - Appareillage de mesure ou de calibrage pour la commande du mouvement d'avance de l'outil de meulage ou de la pièce à meuler; Agencements de l'appareillage d'indication ou de mesure, p.ex. pour indiquer le début de l'opération de meulage
G11B 5/255 - Structure ou fabrication de la surface de la tête en contact physique avec le milieu d'enregistrement ou immédiatement adjacente à celui-ci; Pièces polaires; Entrefers comprenant des moyens pour la protection contre l'usure
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
17.
Angle detection apparatus, angle detection system, park lock system, pedal system, and magnetic field generation module
An angle detection apparatus includes a magnetic sensing element, a magnetic field generator, and a yoke. The magnetic field generator is rotatable around a rotation axis with respect to the magnetic sensing element and generates a magnetic field. The yoke is disposed in a magnetic-field influence region and is rotatable together with the magnetic field generator. The magnetic-field influence region is a region that lies between the magnetic field generator and the magnetic sensing element in a rotation axis direction along the rotation axis, and that is to be influenced by the magnetic field.
G01D 5/14 - Moyens mécaniques pour le transfert de la grandeur de sortie d'un organe sensible; Moyens pour convertir la grandeur de sortie d'un organe sensible en une autre variable, lorsque la forme ou la nature de l'organe sensible n'imposent pas un moyen de conversion déterminé; Transducteurs non spécialement adaptés à une variable particulière utilisant des moyens électriques ou magnétiques influençant la valeur d'un courant ou d'une tension
18.
Protective shields under touchdown conditions for thermally assisted perpendicular magnetic recording
A Perpendicular Magnetic Recording (PMR) head is configured for use in Thermally Assisted Magnetic Recording (TAMR). Two or three contiguous write shields, of various widths and thicknesses, formed on a leading edge side of the write gap (WG), main pole (MP) and near-field transducer (NFT), protect the head during write touchdowns (TD) and signal the approach of such a touchdown. Moreover during a write touchdown the contact with the head is restricted to the large write shields, producing a large touchdown area (TDA) and insuring the lifetime of the head.
G11B 11/105 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants utilisant l'enregistrement par magnétisation ou démagnétisation utilisant un faisceau de lumière ou un champ magnétique pour l'enregistrement et un faisceau de lumière pour la reproduction, p.ex. enregistrement thermomagnétique induit par la lumière ou reproduction par l'effet Kerr
G11B 5/39 - Structure ou fabrication de têtes sensibles à un flux utilisant des dispositifs magnétorésistifs
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
19.
Thermally-assisted magnetic recording head having active layer with quantum dot structure
A light source-unit includes a laser diode, a sub-mount which the laser diode is joined. The laser diode includes an optical generating layer including an active layer which emits laser-light and cladding layers being formed so as to sandwich the active layer. The active layer includes a quantum dot layer including a plurality of quantum dots, which respectively confine movements of carriers in the three-dimensional directions.
G11B 11/105 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants utilisant l'enregistrement par magnétisation ou démagnétisation utilisant un faisceau de lumière ou un champ magnétique pour l'enregistrement et un faisceau de lumière pour la reproduction, p.ex. enregistrement thermomagnétique induit par la lumière ou reproduction par l'effet Kerr
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/39 - Structure ou fabrication de têtes sensibles à un flux utilisant des dispositifs magnétorésistifs
G11B 13/04 - Enregistrement utilisant simultanément ou sélectivement des procédés ou des moyens entrant dans des groupes principaux différents; Supports d'enregistrement correspondants; Reproduction simultanée ou sélective correspondante par procédé magnétique et procédé optique
G11B 13/08 - Enregistrement utilisant simultanément ou sélectivement des procédés ou des moyens entrant dans des groupes principaux différents; Supports d'enregistrement correspondants; Reproduction simultanée ou sélective correspondante utilisant des interactions ou des moyens de transduction en champ proche et au moins un autre procédé ou moyen pour l'enregistrement ou la reproduction
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
20.
MEMS package, MEMS microphone and method of manufacturing the MEMS package
A MEMS package has a MEMS chip, a package substrate which the MEMS chip is adhered, a chip cover which wraps the MEMS chip, and a pressure regulation film which is adhered to the front surface of the chip cover. The chip cover has a vent which is formed in a chip outside area, arranged outside than the MEMS chip, the pressure regulation film has a slit. The slit is arranged in the neighborhood of the vent and the vent is covered with the pressure regulation film.
A MEMS microphone includes a MEMS transducer, a sealing cover, and a package substrate. The MEMS transducer includes an element substrate, a plurality of cantilevered beams, and a weight. An airtight sealing structure is formed with the sealing cover and the package substrate, which is formed by mounting the MEMS transducer on the package substrate, and adhering the sealing cover to the package substrate so as to surround the MEMS transducer.
A thermally assisted magnetic head including a main magnetic pole layer having a magnetic pole end face arranged in a medium-opposing surface, a near-field transducer which generates a near-field light for heating the magnetic recording medium, a waveguide guiding light to the near-field transducer; and an optical side shield being arranged in the medium-opposing surface side of the waveguide and being formed so as to sandwich a part of the near-field transducer, in the medium-opposing surface side, from both sides of a direction along the medium-opposing surface. The near-field transducer includes a protruding end-part (PEG). Then the protruding end-part is arranged to have a PEG end-surface at a position receded from the medium-opposing surface.
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/39 - Structure ou fabrication de têtes sensibles à un flux utilisant des dispositifs magnétorésistifs
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
23.
Thermally assisted magnetic head, head gimbal assembly, hard disk drive and method of manufacturing the thermally assisted magnetic head
A thermally assisted magnetic head including a slider and a light source-unit. The slider includes a slider substrate and a magnetic head part. The light source-unit includes a laser diode and a sub-mount. The magnetic head part includes a medium-opposing surface, a light source-opposing surface and a waveguide which guides laser light from the light source-opposing surface to the medium-opposing surface. The slider substrate includes a light source-cavity formed in a light source-placing surface on which the light source-unit is placed. The light source-cavity includes an opening concave part being formed larger than a mount bottom surface of the sub-mount. The mount bottom surface of the sub-mount is inserted into the opening concave part to be joined to the light source-cavity.
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/39 - Structure ou fabrication de têtes sensibles à un flux utilisant des dispositifs magnétorésistifs
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
24.
Thin-film filter, thin-film filter substrate, method of manufacturing the thin-film filter, method of manufacturing the thin-film filter substrate, MEMS microphone and method of manufacturing the MEMS microphone
A thin-film filter includes thin-film part having a film surface and a rear film surface arranged at the rear side of the film surface, a plurality of through holes, being formed to penetrate the thin-film part from the film surface to the rear film surface, the through holes are formed along by a slanting direction being made an acute angle or an obtuse angle with the film surface, and stripes-formed inner wall surfaces. The stripes-formed inner wall surfaces include stripe-like parts formed along by the slanting direction. The stripes-formed inner wall surfaces are formed inside the respective through holes.
B01D 46/10 - Séparateurs de particules utilisant des plaques, des feuilles ou des tampons filtrants à surface plane, p.ex. appareils de précipitation de poussières
B01D 39/16 - Autres substances filtrantes autoportantes en substance organique, p.ex. fibres synthétiques
25.
Air-bearing surface (ABS) design to reduce particle scratch risk
A slider design for a hard disk drive (HDD) features a shallow cavity adjacent to a leading edge that has patterns of sub-cavities of various shapes etched into its base to reduce its original surface area. The presence of these patterns of sub-cavities significantly reduces the probability that the slider will capture particles on the surface of a rotating disk and thereby reduces the corresponding probability of surface scratches that such captured particles inevitably produce.
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 21/21 - Supports de têtes; Supports des douilles pour les têtes embrochables agissant pendant que la tête est en position de travail, mais immobile, ou permettant de petits déplacements pour suivre les irrégularités de la surface du support d'enregistrement avec des dispositions pour maintenir un écartement désiré entre la tête et le support d'enregistrement, p.ex. maintien dynamique de l'écartement à l'aide d'un fluide, à l'aide d'un coulisseau
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
A light source unit for thermally-assisted magnetic head includes a substrate member having a first bonding surface; a light source assembly attached on the first bonding surface of the substrate member and having a second bonding surface; and a heater circuit assembly formed between the substrate member and the light source assembly, the heater circuit assembly having a heater formed on the substrate member and two leads connected at two ends of the heater, the lead being thicker than the heater, thereby a distance between the heater and the second bonding surface is farther than that between the lead and the second bonding surface. The light source unit can reduce mechanical stress and thermal conduction between a light source assembly and a substrate member, thereby improving the performance of the light source assembly and the heater.
H01S 5/026 - Composants intégrés monolithiques, p.ex. guides d'ondes, photodétecteurs de surveillance ou dispositifs d'attaque
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
H01S 5/02 - Lasers à semi-conducteurs - Détails ou composants structurels non essentiels au fonctionnement laser
H01S 5/0237 - Fixation des puces laser sur des supports par soudage
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
H01S 5/024 - Dispositions pour la gestion thermique
27.
MEMS package, MEMS microphone, method of manufacturing the MEMS package and method of manufacturing the MEMS microphone
A MEMS package has a MEMS chip, a package substrate, a dammed-seal part. The MEMS chip has an element substrate which a movable element is formed, the element substrate has an element hole-part which the movable element is arranged. The dammed-seal part has an annular dam-member which is formed on the element substrate so as to surround the element hole-part and a gel member. The gel member is formed by hardening of gel which is applied on the annular dam-member.
B81B 7/02 - Systèmes à microstructure comportant des dispositifs électriques ou optiques distincts dont la fonction a une importance particulière, p.ex. systèmes micro-électromécaniques (SMEM, MEMS)
B81C 1/00 - Fabrication ou traitement de dispositifs ou de systèmes dans ou sur un substrat
A method of operating an HDD having a slider-mounted read/write head that is configured for dynamic fly-height operation (DFH) and includes at least one head-disk interference sensor (HDIs). By operating the DFH to lower the head and subjecting the HDIs signal to a power-law enhancement, a consistent and accurate determination of the touchdown power (TDP) can be obtained. Combining absolute TDP determination with a method for measuring relative changes of FH, an absolute determination of FH can be determined.
A MEMS package includes a MEMS chip, a package substrate which the MEMS chip is adhered and a thin-film filter which is adhered to the package substrate or the MEMS chip. The thin-film filter includes a thin-film part having a film surface and a rear film surface arranged a rear side of the film surface, and a plurality of through holes being formed to penetrate the thin-film part from the film surface to the rear film surface. The through holes are formed in an adhesive region of the thin-film part. The adhesive region is adhered to the package substrate or the MEMS chip.
B81B 7/02 - Systèmes à microstructure comportant des dispositifs électriques ou optiques distincts dont la fonction a une importance particulière, p.ex. systèmes micro-électromécaniques (SMEM, MEMS)
B81C 1/00 - Fabrication ou traitement de dispositifs ou de systèmes dans ou sur un substrat
A MEMS package has a MEMS chip, a package substrate, a dammed-seal part. The MEMS chip has an element substrate which a movable element is formed, the package substrate has a sound hole. The dammed-seal part has an annular dam-member which is formed on the element substrate so as to surround the movable element, and a gel member. The MEMS chip is mounted on the package substrate so that the movable element opposes to the sound hole. The gel member is formed by hardening of gel which is applied on the annular dam-member from outside so as to surround the annular dam-member.
H04R 1/04 - Association constructive d'un microphone avec son circuit électrique
31.
Thin-film filter, thin-film filter substrate, method of manufacturing the thin-film filter, method of manufacturing the thin-film filter substrate, MEMS microphone and method of manufacturing the MEMS microphone
A thin-film filter includes thin-film part having a film surface and a rear film surface arranged a rear side of the film surface, a plurality of through holes being formed to penetrate the thin-film part from the film surface to the rear film surface, and stripes-formed inner wall surfaces. The stripes-formed inner wall surfaces include stripe-like parts formed along with an intersecting direction intersecting the film surface. The stripes-formed inner wall surfaces are formed inside the respective through holes.
A MEMS package has a MEMS chip, a package substrate which the MEMS chip is adhered, a chip-cover which wraps the MEMS chip, and a cover-supporting part which supports the chip-cover from the inside. In the MEMS package, the chip-cover is supported by the cover-supporting part to form a back chamber, surrounded by the chip-cover and the package substrate.
The present invention relates to the field of camera shake reduction technology and discloses a suspension assembly of OIS, which comprises a printed circuit board and a spring plate movably disposed on the printed circuit board, wherein the printed circuit board is electrically connected with the spring plate, the printed circuit board comprises a substrate plate and a bend portion extending downwards along any side edge of the substrate plate, a support component is attached to a bottom surface of the substrate plate, a plurality of conductive terminals are arranged on an outside surface of the bend portion, a plurality of reinforce components are arranged on an inside surface of the bend portion and corresponding to the plurality of conductive terminals one to one, and the plurality of reinforce components are placed at intervals and do not contact with each other.
A piezoelectric device comprises a pressure chamber forming layer, a vibration plate disposed on and connected with the pressure chamber forming layer to form a pressure chamber, and a piezoelectric element disposed on the vibration plate and used for driving the vibration plate to move and thus changing a volume of the pressure chamber, wherein the piezoelectric element is disposed on the vibration plate in such a manner as to cover a portion of the pressure chamber, the piezoelectric element has two opposite ends respectively extending beyond an edge of the pressure chamber and covering the pressure chamber forming layer. The piezoelectric device of the present invention can efficiently actuate the vibration plate, eliminate undesired displacements of the vibration plate in the opposite direction at the edge of the chamber, and provide higher displacement sensitivity to driving voltage.
A method of operating a HDD having a read/write head configured for Perpendicular Magnetic Recording (PMR) and configured for use in Thermally Assisted Magnetic Recording (TAMR). By using selected settings of a power ratio (PR) value to ensure that accurate fly height (FH) measurements of head-disk interference (HDI) can be taken during write touchdowns (TDs), head damage can be eliminated during HDI events. Under normal operating conditions the PMR head develops a sharp protrusion due to heating from the TAMR apparatus as well as the write current and read and write heaters. The sharp protrusion is prone to striking the disk surface, instead of the shields doing so. The shields would be more capable of absorbing the HDI, which would allow the HDI sensors (HDIs) to provide a more sensitive reading of the HDI which would prevent head wear caused by the sharp protrusion. By adjusting the power ratio (PR) to be at least the turning point (TP) value, the write shield will approach the disk surface before the sharp protrusion.
G11B 11/105 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants utilisant l'enregistrement par magnétisation ou démagnétisation utilisant un faisceau de lumière ou un champ magnétique pour l'enregistrement et un faisceau de lumière pour la reproduction, p.ex. enregistrement thermomagnétique induit par la lumière ou reproduction par l'effet Kerr
G11B 11/10 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants utilisant l'enregistrement par magnétisation ou démagnétisation
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
36.
Thermally-assisted magnetic recording head having optimal reflecting position inside waveguide
G11B 11/105 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants utilisant l'enregistrement par magnétisation ou démagnétisation utilisant un faisceau de lumière ou un champ magnétique pour l'enregistrement et un faisceau de lumière pour la reproduction, p.ex. enregistrement thermomagnétique induit par la lumière ou reproduction par l'effet Kerr
G11B 13/04 - Enregistrement utilisant simultanément ou sélectivement des procédés ou des moyens entrant dans des groupes principaux différents; Supports d'enregistrement correspondants; Reproduction simultanée ou sélective correspondante par procédé magnétique et procédé optique
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G11B 11/24 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants utilisant l'enregistrement par des interactions en champ proche
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 13/08 - Enregistrement utilisant simultanément ou sélectivement des procédés ou des moyens entrant dans des groupes principaux différents; Supports d'enregistrement correspondants; Reproduction simultanée ou sélective correspondante utilisant des interactions ou des moyens de transduction en champ proche et au moins un autre procédé ou moyen pour l'enregistrement ou la reproduction
37.
Disk drive thermally assisted magnetic recording head having a slider and a tilted light incident surface
A thermally assisted magnetic recording head and a thermally assisted magnetic recording disk drive are disclosed. The thermally assisted magnetic recording head includes a slider body, a laser substrate, a laser and a magnetic head, wherein the laser substrate is provided on the slider body, the laser is provided on the laser substrate, and the magnetic head is provided at a front end of the slider body. The magnetic head includes an optical waveguide facing the laser. The angle between a light incident surface of the optical waveguide and an incident direction of a laser light incident on the optical waveguide is less than 90 degrees. The thermally assisted magnetic recording disk drive includes a plurality of magnetic disks and a magnetic head suspending frame. A front end of the magnetic head suspending frame is provided with the thermally assisted magnetic recording heads mentioned above.
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
A PMR read/write head configured for thermally assisted recording (TAMR) includes thermally active bumper pads formed to each side of a write element to provide enhanced touchdown (TD) protection to the write head element where it emerges adjacent to the plasmon near-field spot produced by the TAMR apparatus. The bumper pads are disposed about the write head and absorb heat energy generated by active heating elements, the write current and the energy generated by the TAMR apparatus. Absorption of this energy causes the bumper pads to expand and protrude outward from the slider ABS to protect the read/write head from both intentional and unanticipated touchdown events. The PMR read/write head is then mounted on a slider and the assembly is incorporated into a hard disk drive (HDD).
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
39.
Thermally-assisted magnetic recording head capable of preventing solder overflow during manufacturing
A light source-unit which is used for a thermally assisted magnetic head, comprises a laser diode and a sub-mount which the laser diode is joined. The sub-mount comprises a joint-surface which the laser diode is joined and a convex part protruding from the joint-surface. The light source-unit comprises an alloy layer, made of alloy, which is formed between the surface of the convex part and an opposing-surface, of the laser diode, opposing to the joint-surface.
G11B 11/105 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants utilisant l'enregistrement par magnétisation ou démagnétisation utilisant un faisceau de lumière ou un champ magnétique pour l'enregistrement et un faisceau de lumière pour la reproduction, p.ex. enregistrement thermomagnétique induit par la lumière ou reproduction par l'effet Kerr
G11B 5/02 - Procédés d'enregistrement, de reproduction ou d'effacement; Circuits correspondants pour la lecture, l'écriture ou l'effacement
G11B 5/105 - Montage de la tête à l'intérieur du boîtier
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
40.
Thermally assisted magnetic head, method for reducing reflected light, head gimbal assembly, and hard disk drive
A thermally assisted magnetic head includes a slider, the slider includes a slider substrate and a magnetic head part. The magnetic head part includes a medium-opposing surface opposing a magnetic recording medium, a light source-opposing surface arranged rear side of the medium-opposing surface, an anti-reflection film formed on the light source-opposing surface, a core layer and a cladding layer. The anti-reflection film includes a stacked structure which a first layer and a second layer are stacked. The second layer is formed with high refractive index dielectric having the refractive index higher than the first layer.
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 11/105 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants utilisant l'enregistrement par magnétisation ou démagnétisation utilisant un faisceau de lumière ou un champ magnétique pour l'enregistrement et un faisceau de lumière pour la reproduction, p.ex. enregistrement thermomagnétique induit par la lumière ou reproduction par l'effet Kerr
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
41.
System for transition curvature improvement on a thermally assisted magnetic recording
A system for transition curvature improvement on thermally assisted magnetic recording, includes: an energy source, a thermally assisted magnetic recording head including a magnetic main pole for writing of a thermally assisted magnetic recording medium, a waveguide for directing an energy produced by the energy source, and a PPG including a peg and adjacent to the waveguide, the PPG being for turning the energy into a surface plasmon which travels down the peg to heat the thermally assisted magnetic recording medium. The magnetic main pole includes a first portion enabling a first magnetic field strength and at least one additional portion enabling a magnetic field strength stronger than the first magnetic field strength such that a magnetic field of the magnetic main pole along a horizontal direction thereof enables generation of a substantially straight transition curve while writing on the thermally assisted magnetic recording medium.
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
G11B 5/147 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction comportant des noyaux formés de feuilles métalliques, c. à d. noyaux en lamelles
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/187 - Structure ou fabrication de la surface de la tête en contact physique avec le milieu d'enregistrement ou immédiatement adjacente à celui-ci; Pièces polaires; Entrefers
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
A MEMS package has a MEMS chip, and a package substrate which the MEMS chip is adhered. The MEMS chip has an element substrate which a movable element is formed. The MEMS package has a particle filter formed on the package substrate or the MEMS chip. The particle filter has a pierced-structure, which plural through holes are formed on a base surface by a regular arrangement. Further, in the particle filter, a plane-opening rate is set at least 45%, and a thickness-opening rate is set at least 50%.
B81B 7/02 - Systèmes à microstructure comportant des dispositifs électriques ou optiques distincts dont la fonction a une importance particulière, p.ex. systèmes micro-électromécaniques (SMEM, MEMS)
B81C 1/00 - Fabrication ou traitement de dispositifs ou de systèmes dans ou sur un substrat
43.
Thin-film piezoelectric-material element with protective film composition and insulating film through hole exposing lower electrode film
A thin-film piezoelectric-material element includes a laminated structure part having a lower electrode film, a piezoelectric-material film laminated on the lower electrode film and an upper electrode film laminated on the piezoelectric-material film, a lower piezoelectric-material protective-film being formed with alloy material, and an upper piezoelectric-material protective-film being formed with alloy material. The lower piezoelectric-material protective-film and the upper piezoelectric-material protective-film are formed respectively in the lower side of the lower electrode film and the upper side of the upper electrode film, of the laminated structure part, so as to sandwich the laminated structure part. The lower piezoelectric-material protective-film, and the upper piezoelectric-material protective-film are formed with alloy material including Fe as main ingredient and having Co and Mo, by Ion beam deposition.
H01L 41/053 - Montures, supports, enveloppes ou boîtiers
H01L 41/09 - Eléments piézo-électriques ou électrostrictifs à entrée électrique et sortie mécanique
H01L 41/083 - Eléments piézo-électriques ou électrostrictifs avec une structure empilée ou multicouche
H01L 41/29 - Formation d’électrodes, de connexions électriques ou de dispositions de bornes
H01L 41/316 - Application de parties ou de corps piézo-électriques ou électrostrictifs sur un élément électrique ou sur un autre support par dépôt de couches piézo-électriques ou électrostrictives, p.ex. par impression par aérosol ou par sérigraphie par dépôt en phase vapeur
H01L 41/27 - Fabrication de dispositifs piézo-électriques ou électrostrictifs multicouches ou de leurs parties constitutives, p.ex. en empilant des corps piézo-électriques et des électrodes
A thin-film piezoelectric-material element includes a laminated structure part having a lower electrode film, a piezoelectric-material film laminated on the lower electrode film and an upper electrode film laminated on the piezoelectric-material film, a lower piezoelectric-material protective-film being formed with alloy material, and an upper piezoelectric-material protective-film being formed with alloy material. The piezoelectric-material film includes a size larger than the upper electrode film, a riser end-surface and step-surface formed on a top-surface of the upper electrode film side. The riser end-surface connects smoothly with a peripheral end-surface of the upper electrode film and vertically intersects with the top-surface. The step-surface intersects vertically with the riser end-surface. The lower piezoelectric-material protective-film, and the upper piezoelectric-material protective-film are formed with alloy material including Fe as main ingredient and having Co and Mo, by Ion beam deposition.
H01L 41/09 - Eléments piézo-électriques ou électrostrictifs à entrée électrique et sortie mécanique
H01L 41/18 - Emploi de matériaux spécifiés pour des éléments piézo-électriques ou électrostrictifs
H01L 41/316 - Application de parties ou de corps piézo-électriques ou électrostrictifs sur un élément électrique ou sur un autre support par dépôt de couches piézo-électriques ou électrostrictives, p.ex. par impression par aérosol ou par sérigraphie par dépôt en phase vapeur
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
45.
Head gimbal assembly thin-film piezoelectric-material element arranged in step part configuration with protective films
A thin-film piezoelectric-material element includes a laminated structure part having a lower electrode film, a piezoelectric-material film laminated on the lower electrode film and an upper electrode film laminated on the piezoelectric-material film, a lower piezoelectric-material protective-film being formed with alloy material, and an upper piezoelectric-material protective-film being formed with alloy material. The lower piezoelectric-material protective-film and the upper piezoelectric-material protective-film are formed respectively in the lower side of the lower electrode film and the upper side of the upper electrode film, of the laminated structure part, so as to sandwich the laminated structure part.
H01L 41/316 - Application de parties ou de corps piézo-électriques ou électrostrictifs sur un élément électrique ou sur un autre support par dépôt de couches piézo-électriques ou électrostrictives, p.ex. par impression par aérosol ou par sérigraphie par dépôt en phase vapeur
H01L 41/29 - Formation d’électrodes, de connexions électriques ou de dispositions de bornes
H01L 41/083 - Eléments piézo-électriques ou électrostrictifs avec une structure empilée ou multicouche
H01L 41/09 - Eléments piézo-électriques ou électrostrictifs à entrée électrique et sortie mécanique
H01L 41/08 - Eléments piézo-électriques ou électrostrictifs
H01L 41/27 - Fabrication de dispositifs piézo-électriques ou électrostrictifs multicouches ou de leurs parties constitutives, p.ex. en empilant des corps piézo-électriques et des électrodes
A thin-film piezoelectric-material element includes a laminated structure part having a lower electrode film, a piezoelectric-material film laminated on the lower electrode film and an upper electrode film laminated on the piezoelectric-material film. The piezoelectric-material film includes a size larger than the upper electrode film, a riser end-surface and step-surface formed on a top-surface of the upper electrode film side. The riser end-surface connects smoothly with a peripheral end-surface of the upper electrode film and vertically intersects with the top-surface. The step-surface intersects vertically with the riser end-surface.
A light source unit for thermally-assisted magnetic head includes a substrate member having a bonding surface, multiple layers formed on the bonding surface and comprising a base layer, a connection pad layer, an insulation layer and a bonding layer; a light source assembly attached on the bonding layer of the substrate member and having a laser diode embedded therein and connected to the connection pad layer on the bonding surface, so as to form a laser diode circuit; and a heater buried in the insulation layer and connected to the connection pad layer, so as to form a heater circuit. The light source unit can maintain stable heat power for facilitating performance of the thermally-assisted magnetic head, and further reduce the sizes of the light source unit and substrate member.
G11B 11/105 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants utilisant l'enregistrement par magnétisation ou démagnétisation utilisant un faisceau de lumière ou un champ magnétique pour l'enregistrement et un faisceau de lumière pour la reproduction, p.ex. enregistrement thermomagnétique induit par la lumière ou reproduction par l'effet Kerr
G11B 5/012 - Enregistrement, reproduction ou effacement sur des disques magnétiques
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
48.
Air-bearing surface (ABS) design to reduce particle scratch risk
A slider design for a hard disk drive (HDD) features a shallow cavity adjacent to a leading edge that has patterns of sub-cavities of various shapes etched into its base to reduce its original surface area. The presence of these patterns of sub-cavities significantly reduces the probability that the slider will capture particles on the surface of a rotating disk and thereby reduces the corresponding probability of surface scratches that such captured particles inevitably produce.
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 21/21 - Supports de têtes; Supports des douilles pour les têtes embrochables agissant pendant que la tête est en position de travail, mais immobile, ou permettant de petits déplacements pour suivre les irrégularités de la surface du support d'enregistrement avec des dispositions pour maintenir un écartement désiré entre la tête et le support d'enregistrement, p.ex. maintien dynamique de l'écartement à l'aide d'un fluide, à l'aide d'un coulisseau
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
A light source-unit comprises a laser diode, a sub-mount which the laser diode is joined, and a heater which is joined on a joint surface of the sub-mount. The sub-mount comprises a pair of barrier-members. The barrier-members are formed with lower thermal conductivity material which thermal conductivity is lower than joining metal which is used for joining the laser diode and the sub-mount. The barrier-members are formed on the joint surface so as to sandwich the heater.
G11B 11/105 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants utilisant l'enregistrement par magnétisation ou démagnétisation utilisant un faisceau de lumière ou un champ magnétique pour l'enregistrement et un faisceau de lumière pour la reproduction, p.ex. enregistrement thermomagnétique induit par la lumière ou reproduction par l'effet Kerr
G11B 13/08 - Enregistrement utilisant simultanément ou sélectivement des procédés ou des moyens entrant dans des groupes principaux différents; Supports d'enregistrement correspondants; Reproduction simultanée ou sélective correspondante utilisant des interactions ou des moyens de transduction en champ proche et au moins un autre procédé ou moyen pour l'enregistrement ou la reproduction
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
50.
Thin-film piezoelectric material substrate, thin-film piezoelectric material element, head gimbal assembly, ink jet head and method of manufacturing the thin-film piezoelectric
H01L 41/29 - Formation d’électrodes, de connexions électriques ou de dispositions de bornes
H01L 41/316 - Application de parties ou de corps piézo-électriques ou électrostrictifs sur un élément électrique ou sur un autre support par dépôt de couches piézo-électriques ou électrostrictives, p.ex. par impression par aérosol ou par sérigraphie par dépôt en phase vapeur
H01L 41/08 - Eléments piézo-électriques ou électrostrictifs
H01L 41/319 - Application de parties ou de corps piézo-électriques ou électrostrictifs sur un élément électrique ou sur un autre support par dépôt de couches piézo-électriques ou électrostrictives, p.ex. par impression par aérosol ou par sérigraphie à l’aide de couches intermédiaires, p.ex. pour contrôler la croissance
Disclosed is a camera module that comprises a lens assembly that includes a lens base and a lens tube integrated with the lens base for receiving at least one lens; and a voice coil motor assembly for driving the lens assembly, comprising a base, two leaf springs, at least two coils, and at least two magnets. The coils are respectively fixed on two opposite sides of the base, the magnets are fixed on two opposite sides of the lens assembly respectively, and the magnets are located by inner sides of the coils respectively, the lens assembly is clamped by the leaf springs and supported on the base, the coils drive the magnets and the lens assembly to move after being energized. The camera module is simply structured, easy to assembly, less bulky and fit for the demand of thin products.
G02B 7/10 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement par déplacement axial relatif de plusieurs lentilles, p.ex. lentilles d'objectif à distance focale variable
G02B 7/28 - Systèmes pour la génération automatique de signaux de mise au point
H02K 41/00 - Systèmes de propulsion dans lesquels un élément rigide se déplace le long d'une piste sous l'effet de l'action dynamo-électrique s'exerçant entre cet élément et un flux magnétique se propageant le long de la piste
G02B 7/08 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement adaptés pour fonctionner en combinaison avec un mécanisme de télécommande
H02K 41/035 - Moteurs à courant continu; Moteurs unipolaires
Disclosed is a piezoelectric apparatus, comprising a pressure chamber forming layer, a vibrating reed arranged on the pressure chamber forming layer and connected to the pressure chamber forming layer to form a pressure chamber, and a piezoelectric element arranged on the vibrating reed and used for driving the movement of the vibrating reed so as to change the volume of the pressure chamber, wherein the piezoelectric element on the vibrating reed covers a part of the pressure chamber, and the piezoelectric element has two end portions arranged opposite each other; and the two end portions respectively extend out of an edge of the pressure chamber and cover the pressure chamber forming layer. The piezoelectric apparatus of the present invention can drive a vibrating reed with high efficiency, eliminates disadvantageous displacement of the vibrating reed on an edge of a chamber in opposite directions, and has high displacement sensitivity to a driving voltage.
B41J 2/045 - Machines à écrire ou mécanismes d'impression sélective caractérisés par le procédé d'impression ou de marquage pour lequel ils sont conçus caractérisés par la mise en contact sélective d'un liquide ou de particules avec un matériau d'impression à jet d'encre caractérisés par le procédé de formation du jet en produisant à la demande des gouttelettes ou des particules séparées les unes des autres par pression, p.ex. à l'aide de transducteurs électromécaniques
53.
Procedure for setting laser and heater power in HAMR device
A heater power of a heat-assisted magnetic recording head is set based on an initial head-medium clearance estimate in response to the heater power. For a plurality of iterations, an optimum laser power of the recording head is determined and a heater power is set for a next iteration that results in an optimum heater power for the optimum laser power. If differences in the heater and laser powers between two subsequent iterations are below thresholds, the iterations are stopped and the optimum heater power and the optimum laser power for one of the subsequent iterations are used as an operational heater power and an operational laser power.
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
54.
Method and system of testing slider body of thermally-assisted magnetic head
A method of testing dynamic performances for a slider body of a thermally-assisted magnetic head includes: providing a slider body which is disconnected with a light source unit; removably mounting the slider body to a test head suspension assembly; keeping to provide a flat top beam to the slider body, the flat top beam being aligned with the optical waveguide, and a projection of an incident end of the optical waveguide being located within a light spot of the flat top beam; and testing the dynamic performance of the slider body. It can save the material cost and labor cost, and eliminate a precise optical alignment between an input light and an optical waveguide in the slider body to improve testing efficiency.
G11B 5/455 - Dispositions pour l'essai fonctionnel des têtes; Dispositions de mesure pour têtes
G01R 33/12 - Mesure de propriétés magnétiques des articles ou échantillons de solides ou de fluides
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
55.
Light source unit and thermally-assisted magnetic head
A light source unit for thermally-assisted magnetic head includes a support member and a light source attached on the support member via a solder, and the light source unit further includes a positioning structure formed between the support member and the light source for positioning the light source and the solder. The light source unit can maintain stable height control of the light source, prevent solder over flow and prevent the light source from shifting and moving during the bonding process.
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
56.
Coupling structure of optical components and coupling method of the same
A coupling structure of optical components has a first optical component, a second optical component and a coupling solder layer. The first optical component has a lensed fiber, a first holder holding the lensed fiber and a first metal layer formed on a first connecting end face of the first holder. The second optical component has a waveguide, a second holder holding the waveguide and a second metal layer formed on a second connecting end face of the second holder. The coupling solder layer is in direct contact with both of the first metal layer and the second metal layer, and formed with solder.
A thin-film piezoelectric material element includes a piezoelectric part having a laminated structure which a lower electrode film, a piezoelectric material film and an upper electrode film are laminated sequentially, and electrode pads connected with the piezoelectric part. The thin-film piezoelectric material element has solder regulating parts formed on pad surfaces being surfaces of the electrode pads. The solder regulating parts have peripheral edge parts and crossing edge parts connected with the two outer edge parts, and formed to cross the pad surfaces. The crossing edge parts are formed in a bow like curve-shape having curved parts, being gradually distant from the shortest line as they are distant more from the outer edge parts.
G11B 5/596 - Disposition ou montage des têtes par rapport aux supports d'enregistrement comportant des dispositions pour déplacer la tête dans le but de maintenir l'alignement relatif de la tête et du support d'enregistrement pendant l'opération de transduction, p.ex. pour compenser les irrégularités de surface ou pour suivre les pistes pour suivre les pistes d'un disque
G11B 21/10 - Recherche de la piste ou alignement par déplacement de la tête
H01L 41/09 - Eléments piézo-électriques ou électrostrictifs à entrée électrique et sortie mécanique
H01L 41/29 - Formation d’électrodes, de connexions électriques ou de dispositions de bornes
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
58.
ABS design with soft bumper pads (SBP) for mitigating media damage and thermal erasure in hard disk drives (HDD)
A slider design for a hard disk drive (HDD) features an air-bearing surface (ABS) topography with soft bumper pads (SBP) formed proximally to corners of the leading edge and the trailing edge. The bumper pads are formed by a process that combines the use of a first photomask for subtractive etching of the ABS to form pedestals, followed by additive depositions onto the pedestals using a second lift-off photomask. The additive process deposits sequences of Si layers and diamond-like carbon (DLC) layers to produce a soft bumper pad that is energy absorbing and heat conducting, thereby protecting the recording media from surface damage and thermal erasures.
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/10 - Structure ou fabrication de boîtiers ou de blindages pour têtes
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
H01L 21/31 - Traitement des corps semi-conducteurs en utilisant des procédés ou des appareils non couverts par les groupes pour former des couches isolantes en surface, p.ex. pour masquer ou en utilisant des techniques photolithographiques; Post-traitement de ces couches; Emploi de matériaux spécifiés pour ces couches
G11B 17/32 - Maintien de l'écartement désiré entre le support d'enregistrement et la tête, p.ex. maintien dynamique de l'écartement à l'aide d'un fluide
G11B 21/21 - Supports de têtes; Supports des douilles pour les têtes embrochables agissant pendant que la tête est en position de travail, mais immobile, ou permettant de petits déplacements pour suivre les irrégularités de la surface du support d'enregistrement avec des dispositions pour maintenir un écartement désiré entre la tête et le support d'enregistrement, p.ex. maintien dynamique de l'écartement à l'aide d'un fluide, à l'aide d'un coulisseau
A row bar for forming magnetic heads includes a row of magnetic head forming portions each having a magnetic head and a cutting portion adjacent to the magnetic heads. A row of bonding pads and a first ELG pad are provided at the magnetic head, a second ELG pad is provided at the cutting portion, both of the first and the second ELG pads are adapted for contacting with a probe during lapping process, and a conductive structure that is higher than surfaces of the first and the second ELG pads is formed at peripheries of the first and the second ELG pads respectively. Due to the conductive structures, a probe used in lapping process will be prevented from shifting from the ELG pads to ensure a stable contact, thereby obtaining efficient and accurate resistance measurement.
An assembly method of a SMA assembly, includes disposing a lens holder unit on a SMA unit, the lens holder unit being provided with a first spring, a lens holder and a coil that are mounted on the first spring, with the first spring pressed against a mounting surface of the SMA unit; and bonding the first spring of the lens holder unit with the mounting surface of the SMA unit. The assembly process is simplified, the coating and soldering space become big to facilitate the bonding process, and the joining force between the SMA unit and the lens holder unit is enhanced.
B23K 28/00 - Soudage ou découpage non couvert par l'un des groupes
G02B 27/64 - Systèmes pour donner des images utilisant des éléments optiques pour la stabilisation latérale et angulaire de l'image
G03B 5/00 - Réglage du système optique relatif à l'image ou à la surface du sujet, autre que pour la mise au point présentant un intérêt général pour les appareils photographiques, les appareils de projection ou les tireuses
G02B 7/02 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles
A slider design for a hard disk drive (HDD) features an air-bearing surface (ABS) topography with arrays of micro-dots formed on bases of a multiplicity of cavities at different depths. The design eliminates the accumulation of hydrocarbons (e.g., spindle oil and disk lubricant) deposits in regions of air stagnation within the cavities where backflows and foreflows of air meet and cancel during HDD operation. The micro-dots are small raised regions of various shapes having sizes and spacings in the range between 2 and 100 microns and, in a preferred embodiment, heights of 0.15 microns above the cavity bases.
This thin film magnetic head includes a magnetic pole including an end surface exposed on an air bearing surface, and a contact detection section including a magnetic material layer provided near the air bearing surface, and a magnetic-domain stabilizing structure stabilizing a magnetic domain structure of the magnetic material layer.
A manufacturing method of an epitaxial thin film piezoelectric element includes: providing a substrate; forming a bottom electrode layer on the substrate by epitaxial growth process; forming a first piezoelectric layer that has c-axis orientation on the bottom electrode layer by epitaxial growth process; forming a second piezoelectric layer that has c-axis orientation and different phase structure from the first piezoelectric layer on the first piezoelectric layer by epitaxial growth process; and forming a top electrode layer on the second piezoelectric layer. The thin film piezoelectric element has good thermal stability, low temperature coefficient and high piezoelectric constant.
H01L 41/08 - Eléments piézo-électriques ou électrostrictifs
H01L 41/083 - Eléments piézo-électriques ou électrostrictifs avec une structure empilée ou multicouche
H01L 41/27 - Fabrication de dispositifs piézo-électriques ou électrostrictifs multicouches ou de leurs parties constitutives, p.ex. en empilant des corps piézo-électriques et des électrodes
H01L 41/297 - Formation d’électrodes, de connexions électriques ou de dispositions de bornes Électrodes à couche individuelle de parties piézo-électriques ou électrostrictives multicouches
A manufacturing method of a slider includes steps of: (a) providing a row bar with a plurality of slider elements connecting together; (b) lapping surfaces of the row bar so as to obtain a predetermined requirement; (c) lowering the temperature of the surfaces lapped in the step (b) before and/or during lapping; and (d) cutting the row bar into a plurality of sliders. The present invention can prevent a local high temperature generated on the magnetic head during lapping so that the performance of the magnetic head is improved.
A manufacturing method for a head slider coated with Diamond-like Carbon (DLC) includes: providing a substrate that is to be finally made into a head slider; depositing a DLC layer on a surface of the substrate, with carbon plasma source being sputtered in a direction that is vertical to the surface of the substrate; and doping a fluorine-doping (F-doping) layer on the DLC layer. Whereby the head slider has good film adhesion performance, higher hardness, better wear resistance, lower surface energy to obtain good hydrophobicity and oleophobicity, and lower fly height in HDD.
C23C 14/06 - Revêtement par évaporation sous vide, pulvérisation cathodique ou implantation d'ions du matériau composant le revêtement caractérisé par le matériau de revêtement
A thin-film piezoelectric material element includes a laminated structure part having a lower electrode film, a piezoelectric material film laminated on the lower electrode film and an upper electrode film laminated on the piezoelectric material film. The thin-film piezoelectric material element includes a surface layer insulating film disposed on side surfaces of the laminated structure part, a first top surface of the upper electrode film and a second top surface of the lower electrode film, and has a first through hole formed on a first top disposed part and a second through hole formed on a second top disposed part. Further, the surface layer insulating film has an upper electrode pad being in directly contact with a first inside exposed surface and a lower electrode pad being in directly contact with a second inside exposed surface.
Thin-film piezoelectric material substrate, thin-film piezoelectric material element, head gimbal assembly, ink jet head and method of manufacturing the thin-film piezoelectric material element
H01L 41/29 - Formation d’électrodes, de connexions électriques ou de dispositions de bornes
H01L 41/316 - Application de parties ou de corps piézo-électriques ou électrostrictifs sur un élément électrique ou sur un autre support par dépôt de couches piézo-électriques ou électrostrictives, p.ex. par impression par aérosol ou par sérigraphie par dépôt en phase vapeur
H01L 41/08 - Eléments piézo-électriques ou électrostrictifs
H01L 41/319 - Application de parties ou de corps piézo-électriques ou électrostrictifs sur un élément électrique ou sur un autre support par dépôt de couches piézo-électriques ou électrostrictives, p.ex. par impression par aérosol ou par sérigraphie à l’aide de couches intermédiaires, p.ex. pour contrôler la croissance
A camera lens module includes a case and a bottom coupled with the case to form an accommodating space, having an upper spring, a lens assembly and a lower spring accommodated in the accommodating space. The lens assembly includes a lens barrel main body and a group of lenses provided in the lens barrel main body. An upper end of the lens barrel main body is suspended on the upper spring, and a lower end of the lens barrel main body is suspended on the lower spring. The upper spring is connected with the case, and the lower spring is connected with the bottom. In the camera lens module, the lens assembly is directly suspended on upper and lower springs. This eliminates the camera lens mount of existing camera lens module as well as the connecting screw structure between the camera lens mount and the lens barrel.
G02B 7/02 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles
G02B 7/09 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement adaptés pour la mise au point automatique ou pour faire varier le grossissement de façon automatique
G03B 13/36 - Systèmes de mise au point automatique
G03B 11/00 - Filtres ou autres intercepteurs spécialement adaptés pour les besoins photographiques
A thin-film piezoelectric material element includes a laminated structure part having a lower electrode film, a piezoelectric material film laminated on the lower electrode film and an upper electrode film laminated on the piezoelectric material film. The thin-film piezoelectric material element includes a surface layer insulating film disposed on side surfaces of the laminated structure part and a top surface of the upper electrode film, and has a through hole formed on a top disposed part disposed on the top surface. The surface layer insulating film has a long-side disposed part disposed outside than the top disposed part, the long-side disposed part has a long-side width, along with the long-side direction, formed shorter than the through hole.
A heater power of a heat-assisted magnetic recording head is set to an initial power to induce an initial head-medium clearance. For a plurality of iterations, a heater power at an optimum laser power is determined that achieve a target clearance. If differences in the heater power and optimum laser power between the two subsequent iterations are below a threshold, the iterations are stopped and the heater power and the optimum laser power for one of the two subsequent iterations is used as an operational heater power and laser power for the heat-assisted magnetic recording head.
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
71.
Article coated with DLC and manufacturing method thereof
A method of making an article coated with DLC, includes providing a substrate; depositing a transition layer on the substrate by means of magnetron sputter deposition (MSD); depositing a DLC layer without hydrogen (H) on the transition layer by means of filtered cathodic vacuum arc (FCVA); and doping a fluorine-doping (F-doping) layer on the DLC layer. The article has good film bonding force, high hardness, good wear resistance, good hydrophobicity and oleophobicity and high light transmittance, and the DLC layer has no H included.
C23C 14/06 - Revêtement par évaporation sous vide, pulvérisation cathodique ou implantation d'ions du matériau composant le revêtement caractérisé par le matériau de revêtement
C09D 1/00 - Compositions de revêtement, p.ex. peintures, vernis ou vernis-laques, à base de substances inorganiques
A voice coil motor includes a housing having a cavity; a movable assembly received in the cavity; a fixing assembly configured outside of the movable assembly; and a first spring plate and a second spring plate configured at an upper surface and a lower surface of the movable assembly respectively. The fixing assembly comprises at least two magnetic elements connected with the first spring plate and a spacer member configured on the second spring plate to connect the second spring plate to the magnetic elements or the housing. The voice coil motor is served as an actuator of electronic products such as digital cameras, mobile phones, and digital cameras, which has thin thickness, good performance and strong applicability.
H02K 41/035 - Moteurs à courant continu; Moteurs unipolaires
G02B 7/08 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement adaptés pour fonctionner en combinaison avec un mécanisme de télécommande
73.
Electronic component module and manufacturing method thereof
An electronic component module includes a substrate; at least one electronic component mounted on an electronic component mounting surface of the substrate; an insulating body covering the electronic component on the electronic component mounting surface of the substrate; and a metal film formed by sputtering, the metal film covering at least one exterior surface of the insulating body and at least one side surface of the substrate. The substrate has a recess portion formed on a periphery of the surface of the substrate that is opposite to the electronic component mounting surface, and the recess portion has a top surface parallel to the electronic component mounting surface and a side surface perpendicular to the top surface, and the metal film is extended to cover the top surface of the recess portion, without covering the side surface thereof. It obtains improved electromagnetic wave shielding effect and improved manufacturing efficiency.
A method of testing a TAMH includes providing a slider body having a waveguide embedded therein with an incidence end extending toward a back surface of the slider body; providing a light source unit including a light source and a unit substrate; coating a bonding material layer on the back surface, under the bottom, or both on the back surface and under the bottom of the unit substrate; coating a localization material layer on the back surface; aligning the light source unit to the slider body; causing a light emitted from the light source and allowed to be incident on the incidence end to anneal the localization material layer to generate an annealing mark; removing the light source unit or the light source from the slider body; and measuring a position offset between the annealing mark and the incidence end. The method can evaluate alignment accuracy of a slider body and a light source unit in two dimensional directions.
G11B 5/455 - Dispositions pour l'essai fonctionnel des têtes; Dispositions de mesure pour têtes
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/012 - Enregistrement, reproduction ou effacement sur des disques magnétiques
75.
Thermally assisted magnetic recording head slider, method of manufacturing the same, head gimbal assembly, and hard disk drive
A thermally assisted magnetic recording head slider includes a light source unit having a light emitting element emitting laser light and a submount holding the light emitting element, and slider including a thin-film laminated part having a main magnetic pole layer, a near-field light generating element and an optical waveguide. A combination of the light emitting element and near-field light generating element is composed of a first pattern or second pattern. The light source unit is mounted on a light source placing surface so that a substrate surface of the light emitting element is orthogonal to a laminated surface of the thin-film laminated part. A plurality of electrode pads are formed on the outer end surface of the slider. The light source unit has a first element electrode and second element electrode. A first connecting wiring part and second connecting wiring part, which connected the first element electrode and second element electrode with a first electrode pad and second electrode pad, are formed on a light source placing surface.
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
G11B 11/00 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants
G11B 5/02 - Procédés d'enregistrement, de reproduction ou d'effacement; Circuits correspondants pour la lecture, l'écriture ou l'effacement
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
76.
Light source unit, heat-assisted magnetic recording head using the same, and light source for light source unit
A light source unit has a substrate, a light source that is mounted to the substrate. The light source includes; a first emission part that emits a forward light, the forward light being a laser light in an oscillation state; a second emission part that is located on a side opposite to the first emission part and that emits a rearward light, the rearward light being a laser light in an oscillation state; and a light leakage part located at a position different from the first emission part and the second emission part. The light source further includes a photodetector that is provided on the substrate, wherein the photodetector has a light receiving surface for detecting a leakage light that leaks from the light leakage part.
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
77.
Nozzle for connecting or disconnecting solder joints between head bonding pads in a hard disk drive, and laser soldering or reflowing tool with the same
A nozzle for connecting or disconnecting solder joints between head bonding pads of in a hard disk drive, includes a nozzle body including a tip, the tip disposed at a distal end of the nozzle body and configured to deliver or reflow a solder ball in proximity to head bonding pads; and a central duct disposed along a central axis of the nozzle body and configured to convey the solder ball to or from the tip. The tip includes a front face facing to a trailing edge of a slider, a back face facing to a top surface of a suspension supporting the slider, and two side faces adjacent to the front face and back face respectively, and at least one interference-free structure is provided at two adjacent faces of the tip at least, thereby no interference happens between the tip and elements adjacent to the slider during the operation.
Thin-film piezoelectric material element, method of manufacturing the same, head gimbal assembly, hard disk drive, ink jet head, variable focus lens and sensor
A thin-film piezoelectric material element includes a lower electrode film, a piezoelectric material film, and an upper electrode film, the lower electrode film, the piezoelectric material film and the upper electrode film are laminated sequentially. An upper surface of the piezoelectric material film is a concavity and convexity surface having a convex part and a concave part, the convex part is a curved surface convexly projected, and the concave part is a curved surface concavely hollowed, the upper electrode film is formed on the concavity and convexity surface. The thin-film piezoelectric material element has a stress balancing film formed with a material having an internal stress capable of cancelling an element stress, the stress balancing film is formed on the upper electrode film.
H01L 41/113 - Eléments piézo-électriques ou électrostrictifs à entrée mécanique et sortie électrique
G02B 3/14 - Lentilles remplies d'un fluide ou à l'intérieur desquelles le vide a été fait à distance focale variable
G02B 7/04 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement
A surface forming method for electronic component includes: forming a body that has at least one waveguide, with two ends of the waveguide exposed on a front end surface and a back end surface of the body; forming a photoresist film to cover on the front end surface of the body; irradiating a light from the back end surface of the body to remove a part, of the photoresist film, that covers at least a part of an end surface of the waveguide, thereby forming an exposed area on the end surface of the waveguide; etching the exposed area of the waveguide to form a recess; and removing the photoresist film. The position and size of the pattern could be controlled accurately and efficiently, instead of inefficient complex procedures of alignment.
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
G11B 13/04 - Enregistrement utilisant simultanément ou sélectivement des procédés ou des moyens entrant dans des groupes principaux différents; Supports d'enregistrement correspondants; Reproduction simultanée ou sélective correspondante par procédé magnétique et procédé optique
80.
Method for evaluating bit error rate for a magnetic head by using a quasi-static test system, and system thereof
A method for evaluating bit error rate for a magnetic head by using a quasi-static test system, includes step (a), measuring a noise characteristic curve for a magnetic head, and the noise characteristic comprising noise amplitude and maximum noise amplitude; step (b), constructing a noise waveform by appropriately scaling a signal noise ratio of the magnetic head based on the noise characteristic curve measured in step (a); and step (c), injecting the noise waveform constructed in step (b) into a model comprising a transmitter module and a receiver module to evaluate a bit error rate. The method saves testing time, reduces manpower, and obtains accuracy testing result.
A thermal assisted magnetic recording head of the present invention has an air bearing surface (ABS) opposite to a magnetic recording medium, a core that can propagate laser light as propagating light, a plasmon generator that includes a generator front end surface facing the ABS, and a main pole that faces the ABS and emits magnetic flux to the magnetic recording medium. The plasmon generator is opposite to a part of the core and extends to the generator front surface, is coupled with a portion of the propagating light that propagates through the core in the surface plasmon mode to generate a surface plasmon, propagates the surface plasmon to the generator front end surface, and generates near-field light (NF light) at the generator front end surface to irradiate the NF light to the magnetic recording medium. The ABS has a protrusion that is closer to the leading side than the generator front end surface in the down track direction, and that protrudes more toward the magnetic recording medium than the generator front end surface upon operation of the thermal assisted magnetic recording head.
A return path section includes first and second yoke portions and first, second and third columnar portions. The first and second yoke portions and the first columnar portion are located on the front side in the direction of travel of a recording medium relative to a waveguide core. The second and third columnar portions are located on opposite sides of a plasmon generator and connected to a shield. The first yoke portion connects a main pole to the first columnar portion. The second yoke portion connects the first columnar portion to the second and third columnar portions. A coil is wound around the first columnar portion. A heater and an expansion layer are located on the rear side in the direction of travel of the recording medium relative to the core.
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
83.
Near-field light generator including a waveguide and a plasmon generator
A plasmon generator includes a first portion and a second portion. A core of a waveguide includes a main body portion and a protruding portion. The main body portion has a first surface and a second surface parallel to each other. The protruding portion lies on the first surface. A cladding of the waveguide includes a receiving-portion-forming layer lying on the first surface. At least part of the first portion of the plasmon generator is received in a receiving portion defined by the protruding portion and the receiving-portion-forming layer.
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
84.
Method of manufacturing thermally-assisted magnetic head and alignment apparatus thereof
A method of manufacturing a thermally-assisted magnetic head includes providing a light source unit including a laser diode; providing a reflection board, and a photo detector; driving the laser diode to emit a light beam towards the reflection board; performing an alignment between the light source unit and the thermally-assisted magnetic recording head section, based on a reflected light of the light beam reflected by the reflection board, then passed through the optical waveguide and finally detected by the photo detector obtaining the maximum power in a LED emission state of the laser diode; and bonding the light source unit to the slider after the alignment is completed. It improves alignment accuracy between a light source unit and a slider during a bonding process therebetween, prevents a laser diode of the light source unit instability, and improves performance of the thermally-assisted magnetic head finally.
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
G01B 11/27 - Dispositions pour la mesure caractérisées par l'utilisation de techniques optiques pour tester l'alignement des axes pour tester l'alignement des axes
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G11B 13/08 - Enregistrement utilisant simultanément ou sélectivement des procédés ou des moyens entrant dans des groupes principaux différents; Supports d'enregistrement correspondants; Reproduction simultanée ou sélective correspondante utilisant des interactions ou des moyens de transduction en champ proche et au moins un autre procédé ou moyen pour l'enregistrement ou la reproduction
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 9/12 - Enregistrement ou reproduction par un procédé ou des moyens non couverts par un des groupes principaux ; Supports d'enregistrement correspondants utilisant des interactions en champ proche; Supports d'enregistrement correspondants
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
85.
Disk drive head suspension including a grounded conductive substrate
A suspension includes a flexure including a conductive substrate, and a dielectric layer formed on the conductive substrate, and the conductive substrate being grounded; and a plurality of electrical traces formed on the dielectric layer and extending from a leading portion to a trailing portion of the flexure, and the electrical traces at least having a pair of read traces. At least one via is formed at certain position on the read traces to connect the read traces with the conductive substrate that is etched partially. It can minimize ESD damage during various stages of manufacturing process of the disk drive unit, reduce manufacturing cost, and also improve electrical performance of the suspension interconnection.
A magnetic head includes a medium facing surface, a read head unit, a write head unit, and a protrusion device. The protrusion device causes part of the medium facing surface to protrude toward a recording medium. The read head unit has a first end face located in the medium facing surface and includes a first contact sensor for detecting contact of the first end face with the recording medium. The write head unit has a second end face located in the medium facing surface and includes a second contact sensor for detecting contact of the second end face with the recording medium. The first end face and the second end face are located at positions different from each other in a direction of travel of the recording medium.
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 21/12 - Soulèvement et abaissement; Espacement en arrière ou en avant le long de la piste; Retour à la position de départ
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
87.
Manufacturing method of a write portion for a thermal assisted magnetic head slider
A manufacturing method of a write portion for a thermally assisted magnetic head slider includes providing a write portion including a write element, a waveguide, and a plasmon unit; lapping opposed-to-magnetic recording medium surfaces of the write element and the waveguide, and an near-field light generating surface of the plasmon unit; only forming a carbon layer on the opposed-to-magnetic recording medium surface of the write element. Corrosive elements in the write portion can be prevented from being corroded and the write element can be prevented from being worn and abraded not only, stable thermal ability for a plasmon unit can be maintained but also.
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
H04R 31/00 - Appareils ou procédés spécialement adaptés à la fabrication des transducteurs ou de leurs diaphragmes
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
The thermally-assisted magnetic recording method is a method to perform information recording on a magnetic recording medium by a thermally-assisted magnetic recording head having a magnetic pole and a heating element, and the method includes: performing annealing treatment of the heating element through applying first energy to the heating element and heating the heating element; and performing information recording to a predetermined recording region of the magnetic recording medium after the annealing treatment. The information recording is performed through rotating the magnetic recording medium as well as floating the thermally-assisted magnetic recording head above the magnetic recording medium, and applying second energy to the heating element to heat a predetermined recording region of the magnetic recording medium as well as applying a write magnetic field from the magnetic pole to the predetermined recording region.
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
89.
Magnetic head for perpendicular magnetic recording including a main pole and a write shield to provide improved write characteristics without compromising the function of the write shield
A magnetic head includes a main pole, a write shield, and first and second nonmagnetic layers. The main pole has a top surface including an inclined surface portion. The write shield includes an inclined portion facing toward the top surface of the main pole. The first nonmagnetic layer is interposed between the inclined surface portion and the inclined portion. The second nonmagnetic layer is interposed between the first nonmagnetic layer and the inclined portion. The first nonmagnetic layer has a first front end located in a medium facing surface. The second nonmagnetic layer has a second front end that is located closest to but at a distance from the medium facing surface.
A magnetic head includes a coil, a main pole, a write shield, a first insulating film, and a second insulating film. The coil includes a specific coil element. The main pole has a top surface including an inclined surface portion and a flat surface portion. The write shield includes an inclined portion. The inclined portion includes a first portion opposed to the inclined surface portion, and a second portion located farther from a medium facing surface than the first portion. The specific coil element includes an interposition part interposed between the flat surface portion and the second portion. The first insulating film is interposed between the inclined surface portion and the first portion of the inclined portion, and between the interposition part and the second portion of the inclined portion. The second insulating film is interposed between the first insulating film and the second portion of the inclined portion.
A magnetic head includes a main pole, an expansion member, and a heater. The main pole has an end face located in a medium facing surface. The expansion member is located farther from the medium facing surface than is the main pole and adjacent to the main pole in a direction perpendicular to the medium facing surface. The heater heats the expansion member. The expansion member has a linear expansion coefficient higher than that of the main pole.
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
G11B 5/60 - Maintien dynamique de l'écartement entre têtes et supports d'enregistrement à l'aide d'un fluide
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
92.
Magnetic head for perpendicular magnetic recording including a main pole and a shield
A magnetic head includes a main pole, a write shield, and first and second nonmagnetic layers. The main pole has a top surface including an inclined surface portion. The inclined surface portion includes a first portion and a second portion, the first portion being closer to a medium facing surface. The write shield includes an inclined portion facing toward the top surface of the main pole. The first nonmagnetic layer is interposed between the inclined portion and the second portion of the inclined surface portion. The second nonmagnetic layer is interposed between the inclined portion and a combination of the first portion of the inclined surface portion and the first nonmagnetic layer.
An electronic component package includes a substrate having at least one electronic circuit; a sealing resin for sealing the electronic circuit, at least one filler on which at least one crack is formed being filled in the sealing; and a metal film formed on a top surface of the sealing resin, a root of the metal film being embedded in the crack on the filler. The electronic component package can shield the environmental electromagnetic noise and satisfy with lightweight requirement for the integrated circuit modules.
A plasmon generator includes a first portion and a second portion that are adjacent in a first direction orthogonal to the direction of travel of light propagating through a core. The second portion includes a front end face located in a medium facing surface of a magnetic head. The core has a concave portion recessed from the top surface of the core. At least part of the first portion is received in the concave portion. The concave portion has a surface including an evanescent light generating portion. The first portion includes a plasmon exciting portion opposed to the evanescent light generating portion. The evanescent light generating portion is inclined relative to a first surface.
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G02B 6/42 - Couplage de guides de lumière avec des éléments opto-électroniques
G02B 6/136 - Circuits optiques intégrés caractérisés par le procédé de fabrication par gravure
G11B 9/12 - Enregistrement ou reproduction par un procédé ou des moyens non couverts par un des groupes principaux ; Supports d'enregistrement correspondants utilisant des interactions en champ proche; Supports d'enregistrement correspondants
G02B 6/122 - Elements optiques de base, p.ex. voies de guidage de la lumière
G11B 5/31 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction utilisant des films minces
G11B 7/24059 - Couches de transmission de la lumière placées du côté de l’entrée de la lumière et plus minces que le substrat, p.ex. spécialement adaptées pour les disques "Blu-ray"®
spécialement adaptées pour l’enregistrement ou la reproduction en champ proche
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G02B 6/12 - OPTIQUE ÉLÉMENTS, SYSTÈMES OU APPAREILS OPTIQUES - Détails de structure de dispositions comprenant des guides de lumière et d'autres éléments optiques, p.ex. des moyens de couplage du type guide d'ondes optiques du genre à circuit intégré
95.
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 comes in contact with the leading shield part. The thin-film coil has a substrate side coil layer disposed between the main magnetic pole layer and the substrate. In the thin-film magnetic head, 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. Further, a depth of the leading shield part is formed to be small than the depth of the substrate side shield part.
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 near-field light generating layer has a laminated structure in which a first thin-film metal layer formed in a thin film form along a direction intersecting the medium-opposing surface and a second thin-film metal layer formed in a thin film form and formed using a second metal larger in hardness than a first metal forming the first thin-film metal layer are alternately laminated. Further, in the second thin-film metal layer, a defect part is formed, the defect part is a part smaller in thickness than another part or is a hole part, and a flat layer part other than the defect part surrounds the defect part.
G11B 11/00 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants
G11B 5/48 - Disposition ou montage des têtes par rapport aux supports d'enregistrement
G11B 5/127 - Structure ou fabrication des têtes, p.ex. têtes à variation d'induction
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
97.
Thermally-assisted magnetic recording head having a plasmon generator
A return path section includes first and second yoke portions and first, second and third columnar portions. The first and second yoke portions and the first columnar portion are located on the same side in the direction of travel of the recording medium relative to a wave guide core. The second and third columnar portions are located on opposite sides of a plasmon generator and connected to a shield. The first yoke portion connects a main pole to the first columnar portion. The second yoke portion connects the first columnar portion to the second and third columnar portions. A coil is wound around the first columnar portion.
G11B 11/00 - Enregistrement sur, ou reproduction depuis le même support d'enregistrement, dans lesquels, pour ces deux opérations, les procédés ou les moyens sont couverts par différents groupes principaux des groupes ou par différents sous-groupes du groupe ; Supports d'enregistrement correspondants
G11B 13/08 - Enregistrement utilisant simultanément ou sélectivement des procédés ou des moyens entrant dans des groupes principaux différents; Supports d'enregistrement correspondants; Reproduction simultanée ou sélective correspondante utilisant des interactions ou des moyens de transduction en champ proche et au moins un autre procédé ou moyen pour l'enregistrement ou la reproduction
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
Methods are provided for determining the heater power level of a dynamic flying height (DFH) type write head at which a touch down (TD) occurs. Each method makes use of the DC component of a head-disk interference (HDI) sensor and the determination of the TD heater energy is deduced from certain characteristics of the function relating heater power to HDI DC signal strength. Characteristics that provide reliable indication of a TD include points of minimum slope, structure of the slope's slope and the properties of a linear fit to the slope if the slope does not converge to a consistent value. It is found that the use of all methods in combination allow a reliable TD determination under virtually all conditions.
A manufacturing method of laser diode unit of the present invention includes steps: placing a laser diode on top of a solder member formed on a mounting surface of a submount, applying a pressing load to the laser diode and pressing the laser diode against the solder member, next, melting the solder member by heating the solder member at a temperature higher than a melting point of the solder member while the pressing load is being applied, and thereafter, bonding the laser diode to the submount by cooling and solidifying the solder member, thereafter, removing the pressing load, and softening the solidified solder member by heating the solder member at a temperature lower than the melting point of the solder member after the pressing load has been removed, and thereafter cooling and re-solidifying the solder member.
A method for measuring noise of a magnetic head includes setting a plurality of threshold values, applying bias current or voltage to a read element of the magnetic head, applying an external transverse magnetic field to the magnetic head, amplifying output signal from the read element to produce an amplified signal, filtering the amplified signal to produce a filtered signal, generating an enable signal for each threshold value in a predetermined time window by a counting control means with input signals which include the filtered signal and the threshold value, measuring the cumulative time duration of each enable signal, making an amplitude-duration distribution according to the cumulative time durations and the threshold values, calculating a plurality of parameters according to the amplitude-duration distribution and analyzing the parameters with a plurality of predetermined criteria to determine the defects of the magnetic head. Accordingly, the invention also discloses a system for measuring noise of a magnetic head.
G11B 5/00 - Enregistrement par magnétisation ou démagnétisation d'un support d'enregistrement; Reproduction par des moyens magnétiques; Supports d'enregistrement correspondants
G11B 17/00 - Guidage des supports d'enregistrement n'ayant pas spécifiquement la forme d'un fil ou d'une bande ainsi que de leurs supports
G11B 27/36 - Contrôle, c. à d. surveillance du déroulement de l'enregistrement ou de la reproduction
G11B 5/455 - Dispositions pour l'essai fonctionnel des têtes; Dispositions de mesure pour têtes
G11B 5/39 - Structure ou fabrication de têtes sensibles à un flux utilisant des dispositifs magnétorésistifs
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