Patent application number | Description | Published |
20080254208 | Thin film magnetic head structure adapted to manufacture a thin film magnetic head - A thin-film magnetic head structure has a configuration adapted to manufacture a thin-film magnetic head configured such that a main magnetic pole layer including a magnetic pole end part on a side of a medium-opposing surface opposing a recording medium, a write shield layer opposing the magnetic pole end part so as to form a recording gap layer on the medium-opposing surface side, and a thin-film coil wound about the write shield layer or main magnetic pole layer are laminated. The main magnetic pole layer has an end face joint structure where respective end faces of the magnetic pole end part and a yoke magnetic pole part having a size greater than that of the magnetic pole end part are joined to each other, and a surface with a flat structure on a side closer to the thin-film coil. | 10-16-2008 |
20080273277 | Composite shield structure of PMR writer for high track density - Improved writability and a substantial reduction in adjacent track erasure are achieved by incorporating a composite shield structure in a PMR writer. There is a trailing shield formed a certain distance above the top surface of a write pole, a leading shield formed a certain distance below the bottom surface of the write pole, and a partial side shield having a section formed on each side of the write pole. The partial side shield thickness is less than that of the write pole. Each partial side shield section has a side that is parallel to the nearest write pole side and a top surface that is offset from the write pole top surface by 0 to 0.15 microns. A plurality of magnetic connections between two or more shield elements is employed to ensure correct magnetic potential. The large write pole has a flare angle of 45 to 75 degrees. | 11-06-2008 |
20080274271 | Thin-film magnetic head structure adapted to manufacture a thin-film head having a base magnetic pole part, a york magnetic pole part, and an intervening insulative film - A thin-film magnetic head structure has a configuration adapted to manufacture a thin-film magnetic head configured such that a main magnetic pole layer including a magnetic pole end part on a side of a medium-opposing surface opposing a recording medium, a write shield layer opposing the magnetic pole end part so as to form a recording gap layer on the medium-opposing surface side, and a thin-film coil wound about the write shield layer or main magnetic pole layer are laminated. The main magnetic pole layer includes a base magnetic pole part comprising the magnetic pole end part and a base depression distanced farther from the medium-opposing surface than the magnetic pole end part, and an embedded magnetic pole part buried in the base depression and joined to the base magnetic pole part. The thin-film magnetic head structure includes a yoke magnetic pole part joined to the base magnetic pole part and embedded magnetic pole part at a position distanced farther from the medium-opposing surface than the recording gap layer, and an intervening insulative film disposed between the embedded magnetic pole part and yoke magnetic pole part at a position distanced farther from the medium-opposing surface than the recording gap layer. | 11-06-2008 |
20080313882 | Sensing unit and method of making same - In a sensing unit according to the present invention, a spring portion having a support portion and a movable portion is conductive. A signal of a sensor portion provided on the movable portion of the spring portion is transmitted via the spring portion. Hence, the sensing unit according to the present invention has a simple constitution with a small number of components, and a wire does not necessarily have to be provided for each sensor portion. As a result, a reduction in manufacturing cost, simplification of the manufacturing process, and so on are achieved. | 12-25-2008 |
20080314146 | Sensing unit and method of making same - In a sensing unit according to the present invention, a movable portion of a spring portion is supported floatably above a recessed portion formed in a substrate. Thus, the movable portion is capable of oscillating in any direction parallel to the substrate surface. Moreover, the movable portion is capable of oscillating in the thickness direction of the substrate such that the amplitude of a center side end portion thereof reaches a maximum. A sensor portion is provided on the movable portion. As a result, the sensing unit according to the present invention has a higher degree of freedom in terms of the measurement direction than a conventional sensing unit that oscillates in only one direction. | 12-25-2008 |
20090000093 | Capacitor and method of manufacturing the same and capacitor unit - The present invention has a configuration which allows manufacturing a capacitor comprising a first electrode layer, conductive first convex sections layered on a surface of the first electrode layer, a first dielectric layer formed on a surface of the first convex sections and a surface of the first electrode layer, and a second electrode layer formed so as to be superimposed on the first convex sections and the first electrode layer via the first dielectric layer. | 01-01-2009 |
20090017198 | Thin-film magnetic head, method of manufacturing the same, head Gimbal assembly, and hard disk drive - A thin-film magnetic head has a laminated construction comprising a main pole layer having a magnetic pole tip on a side of the medium-opposing surface opposing a recording medium, a write shield layer opposing the magnetic pole tip forming a recording gap layer, on the side of the medium-opposing surface, and a thin-film coil wound around at least a portion of the write shield layer. The thin-film magnetic head has an upper yoke pole layer having a larger size than the portion of the main pole layer which is more distant from the medium-opposing surface than the recording gap layer, wherein the upper yoke pole layer is joined to the side of the main pole layer which is near the thin-film coil. | 01-15-2009 |
20090032494 | Thin film magnetic head structure, method of making same and thin film magnetic head - A thin-film magnetic head structure has a configuration adapted to manufacture a thin-film magnetic head configured such that a main magnetic pole layer including a magnetic pole tip on a side of a medium-opposing surface opposing a recording medium, a write shield layer opposing the magnetic pole tip so as to form a recording gap layer on the medium-opposing surface side, and a thin-film coil wound about the write shield layer or main magnetic pole layer are laminated. The magnetic pole tip of the main magnetic pole layer includes an even width portion having a substantially even width along an extending direction. | 02-05-2009 |
20090040655 | Thin-film magnetic head structure, method of manufacturing the same, and thin-film magnetic head - A method of manufacturing a thin-film magnetic head structure comprises the steps of preparing an insulating layer | 02-12-2009 |
20090042143 | Thin-film magnetic head structure, method of manufacturing the same, and thin-film magnetic head - A method of manufacturing a thin-film magnetic head structure comprises the steps of preparing an insulating layer | 02-12-2009 |
20090086370 | Thin film magnetic head structure, method of making same and thin film magnetic head - A thin-film magnetic head structure has a configuration adapted to manufacture a thin-film magnetic head configured such that a main magnetic pole layer including a magnetic pole tip on a side of a medium-opposing surface opposing a recording medium, a write shield layer opposing the magnetic pole tip so as to form a recording gap layer on the medium-opposing surface side, and a thin-film coil wound about the write shield layer or main magnetic pole layer are laminated. The magnetic pole tip of the main magnetic pole layer includes an even width portion having a substantially even width along an extending direction. | 04-02-2009 |
20090116145 | Perpendicular shield pole writer with tapered main pole and tapered non-magnetic top shaping layer - A PMR writer with a tapered main pole layer and tapered non-magnetic top-shaping layer is disclosed that minimizes trailing shield saturation. A second non-magnetic top shaping layer may be employed to reduce the effective TH size while the bulk of the trailing shield is thicker to allow a larger process window for back end processing. A sloped surface with one end at the ABS and a second end 0.05 to 0.3 microns from the ABS is formed at a 10 to 80 degree angle to the ABS and includes a sloped surface on the upper portion of the main pole layer and on the non-magnetic top shaping layer. An end is formed on the second non-magnetic top shaping layer at the second end of the sloped surface followed by forming a conformal write gap layer and then depositing the trailing shield on the write gap layer and along the ABS. | 05-07-2009 |
20090268344 | Graded bevel tapered write pole design for field enhancement - A structure and a process for a perpendicular write pole that provides increased magnetic flux at the ABS is disclosed. This is accomplished by increasing the amount of write flux that originates above the write gap, without changing the pole taper at the ABS. Three embodiment of the invention are discussed. | 10-29-2009 |
20090279207 | 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 having a magnetic pole end face on a side of a medium-opposing surface opposing a recording medium, a write shield layer opposing the main magnetic pole layer on the medium-opposing surface side, a gap layer formed between the main magnetic pole layer and write shield layer, and a thin-film coil wound about the write shield layer or main magnetic pole layer are laminated on a substrate. This thin-film coil has a plurality of turn parts arranged at respective positions having different distances from the medium-opposing surface, while a non-expandable part made of an insulating material having a coefficient of thermal expansion smaller than that of a photosensitive resin is formed between the turn parts. | 11-12-2009 |
20090296275 | 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 having a magnetic pole end face on a side of a medium-opposing surface opposing a recording medium, a write shield layer opposing the main magnetic pole layer on the medium-opposing surface side, a gap layer formed between the main magnetic pole layer and write shield layer, and a thin-film coil wound about the write shield layer or main magnetic pole layer are laminated on a substrate. This thin-film magnetic head has an equidistant two-stage structure in which a first turn part of a first conductor layer and a second turn part of a second conductor layer overlap vertically along the medium-opposing surface while having the same front distance from respective front side faces closer to the medium-opposing surface to the medium-opposing surface. | 12-03-2009 |
20100061016 | Method to make an integrated side shield PMR head with non conformal side gap - A non-conformal integrated side shield structure is disclosed for a PMR write head wherein the sidewalls of the side shield are not parallel to the pole tip sidewalls. Thus, the side gap distance between the leading pole tip edge and side shield is different than the side gap distance between the trailing pole tip edge and side shield. As a result, there is a reduced side fringing field and improved overwrite performance. The side gap distance is constant with increasing distance from the ABS along the main pole layer. A fabrication method is provided where the trailing shield and side shield are formed in the same step to afford a self-aligned shield structure. Adjacent track erasure induced by flux choking at the side shield and trailing shield interface can be eliminated by this design. The invention encompasses a tapered main pole layer in a narrow pole tip section. | 03-11-2010 |
20100118438 | THIN-FILM MAGNETIC HEAD, METHOD OF MANUFACTURING THE SAME, HEAD GIMBAL ASSEMBLY AND HARD DISK DRIVE - A thin-film magnetic head is manufactured as follows. First, a base insulating layer having a magnetic pole forming depression sunken into a form corresponding to the main magnetic pole layer is formed, a stop film for CMP is formed such as to fill the magnetic pole forming depression, and then a magnetic layer is formed on the stop film. Next, the magnetic layer is separated by forming a separation groove substantially surrounding the magnetic pole forming depression on the outside thereof, and thus separated magnetic layer is formed with a cover insulating film adapted to cover the whole upper face. The surface is polished by CMP until the stop film is exposed, so that the part of magnetic layer remaining on the inside of the magnetic pole forming depression is used as the main magnetic pole layer. Further, a recording gap layer, a write shield layer, and a thin-film coil are formed. | 05-13-2010 |
20100146773 | Pole width control on plated bevel main pole design of a perpendicular magnetic recording head - A main pole layer is deposited within an opening in a patterned photoresist layer on a substrate. The photoresist is thinned to expose an upper portion of a pole tip region that is then trimmed to a rectangular shape while a lower portion retains an inverted trapezoidal shape. Thereafter, a second trimming process forms a pole tip with a first width in the upper rectangular portion and a second thickness and second width which is less than the first width in the lower portion. A CMP step subsequently thins the upper portion to a first thickness of 0.04 to 0.08 microns while the second thickness remains at 0.16 to 0.32 microns. The bottom surface of the lower portion along the ABS becomes the trailing edge in a recording operation. The pole tip has a consistent first width (track width) that is not influenced by CMP process variations. | 06-17-2010 |
20100154198 | Sensing unit and method of making same - In a sensing unit according to the present invention, a spring portion having a support portion and a movable portion is conductive. A signal of a sensor portion provided on the movable portion of the spring portion is transmitted via the spring portion. Hence, the sensing unit according to the present invention has a simple constitution with a small number of components, and a wire does not necessarily have to be provided for each sensor portion. As a result, a reduction in manufacturing cost, simplification of the manufacturing process, and so on are achieved. | 06-24-2010 |
20100182003 | MAGNETIC FILM SENSOR AND METHOD OF MANUFACTURING THE SAME - A magnetic film sensor comprises a magnetic film for generating a magnetostriction, and a magnetostrictive structure for generating a magnetostriction in the magnetic film. The magnetostrictive structure is constructed so as to generate a magnetostriction by curving the magnetic film, for example. The magnetostrictive structure is obtained, for example, by providing a depressed insulating layer having a surface formed with a depression and forming the magnetic film across the depression. | 07-22-2010 |
20100192343 | METHOD OF MANUFACTURING CERAMIC CAPACITOR - In a method of manufacturing ceramic capacitor according to the present invention, a pair of interdigitated internal electrodes are arranged perpendicularly to the surface of the substrate, subsequent to which the respective end faces of this pair of internal electrodes are exposed, and a pair of external electrodes are formed at these exposed end faces. In this method of manufacturing ceramic capacitor, formation of the external electrodes on the end faces of the respective internal electrodes, with these internal electrodes being interdigitately integrally-formed and the end faces thereof being exposed, it possible to reliably and easily form the external electrodes. | 08-05-2010 |
20100195262 | CERAMIC CAPACITOR AND METHOD OF MANUFACTURING SAME - In a ceramic capacitor according to the present invention, the electrode strips of an internal electrode and the dielectric strips of a ceramic dielectric member are arranged perpendicularly to the surface of a substrate, and as such, the plurality of electrode strips and the plurality of dielectric strips are arranged alternately along a parallel direction relative to the substrate surface. That is, the electrode strips and the dielectric strips are multi-layered along a parallel direction relative to the substrate surface, thereby facilitating the realization of multi-layering in the ceramic capacitor by a known patterning technology. | 08-05-2010 |
20100195264 | CERAMIC CAPACITOR AND METHOD OF MANUFACTURING SAME - In a ceramic capacitor according to the present invention, an interdiginated pair of internal electrodes are arranged, on a substrate, perpendicular to a surface of the substrate, and a ceramic dielectric member is filled into a gap between this pair of internal electrodes. For this reason, the dimensions of the internal electrodes do not substantially change before and/or after the formation of the ceramic dielectric member, whereby the dimensions formed at the time of internal electrode can be maintained. According to this ceramic capacitor, since the internal electrode dimensions can be easily controlled like this, dimensional control of internal electrode spacing can also be easily carried out. | 08-05-2010 |
20100328816 | Composite shield structure of PMR writer for high track density - Improved writability and a substantial reduction in adjacent track erasure are achieved by incorporating a composite shield structure in a PMR writer. There is a trailing shield formed a certain distance above the top surface of a write pole, a leading shield formed a certain distance below the bottom surface of the write pole, and a partial side shield having a side shield section formed on each side of the write pole. The partial side shield thickness is less than that of the write pole. Each partial side shield section has a side that is parallel to the nearest write pole side and a top surface that is offset from the write pole top surface by 0 to 0.15 microns. A plurality of magnetic connections between two or more shield elements is employed to ensure correct magnetic potential. The large write pole has a flare angle of 45 to 75 degrees. | 12-30-2010 |
20120012555 | Method to make an integrated side shield PMR head with non-conformal side gap - A non-conformal integrated side shield structure is disclosed for a PMR write head wherein the sidewalls of the side shield are not parallel to the pole tip sidewalls. Thus, the side gap distance between the leading pole tip edge and side shield is different than the side gap distance between the trailing pole tip edge and side shield. As a result, there is a reduced side fringing field and improved overwrite performance. The side gap distance is constant with increasing distance from the ABS along the main pole layer. A fabrication method is provided where the trailing shield and side shield are formed in the same step to afford a self-aligned shield structure. Adjacent track erasure induced by flux choking at the side shield and trailing shield interface can be eliminated by this design. The invention encompasses a tapered main pole layer in a narrow pole tip section. | 01-19-2012 |
20120080782 | METHOD OF MANUFACTURING LAYERED CHIP PACKAGE - A layered chip package includes a main body, and wiring that includes a plurality of wires disposed on a side surface of the main body. The main body includes: a main part including first and second layer portions; and a plurality of first and second terminals that are disposed on the top and bottom surfaces of the main part, respectively, and are electrically connected to the plurality of wires. The first and second terminals are formed by using electrodes of the first and second layer portions. The layered chip package is manufactured by fabricating a layered substructure by stacking two substructures each of which includes an array of a plurality of preliminary layer portions, and then cutting the layered substructure. The layered substructure includes a plurality of preliminary wires that are disposed between two adjacent pre-separation main bodies and are to become the plurality of wires. | 04-05-2012 |
20120086130 | LAYERED CHIP PACKAGE AND METHOD OF MANUFACTURING SAME - A layered chip package includes a main body. The main body includes a main part, and further includes first terminals and second terminals disposed on the top and bottom surfaces of the main part, respectively. The main part includes first and second layer portions, and through electrodes penetrating them. The through electrodes are electrically connected to the first and second terminals. Each of the layer portions includes a semiconductor chip having a first surface and a second surface opposite thereto, and further includes surface electrodes. The surface electrodes are disposed on a side of the semiconductor chip opposite to the second surface. The first and second layer portions are bonded to each other such that the respective second surfaces face each other. The first terminals are formed by using the surface electrodes of the first layer portion. The second terminals are formed by using the surface electrodes of the second layer portion. | 04-12-2012 |
20120140358 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDING WITH SHIELD AROUND MAIN MAGNETIC POLE - A magnetic head includes a main magnetic pole, a shield having an end face located in a medium facing surface to wrap around an end face of the main magnetic pole, and a gap part provided between the main magnetic pole and the shield. The shield includes a bottom shield, two side shields, and a top shield. The gap part includes first and second gap layers. In a manufacturing method of the magnetic head, a mold is formed on the top surface of the bottom shield, the mold having a shape determined by photolithography and being intended to be removed later. Next, the two side shields are formed on the top surface of the bottom shield by performing plating without forming a seed layer. Next, the mold is removed and then the first gap layer, the main magnetic pole, the second gap layer, and the top shield are formed in succession. | 06-07-2012 |
20120142146 | METHOD OF MANUFACTURING LAYERED CHIP PACKAGE - A layered chip package includes a main body, and wiring that includes a plurality of wires disposed on a side surface of the main body. The main body includes a plurality of stacked layer portions. A method of manufacturing the layered chip package includes the step of fabricating a layered substructure and the step of cutting the layered substructure. The layered substructure includes: a plurality of arrayed pre-separation main bodies; a plurality of accommodation parts disposed between two adjacent pre-separation main bodies; and a plurality of preliminary wires accommodated in the accommodation parts. The accommodation parts are formed in a photosensitive resin layer by photolithography. In the step of cutting the layered substructure, the plurality of pre-separation main bodies are separated from each other, and the wires are formed by the preliminary wires. | 06-07-2012 |
20120147499 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDING WITH SHIELD AROUND MAIN POLE - A magnetic head includes a shield, and first and second return path sections. The shield has an end face that is located in a medium facing surface to wrap around an end face of a main pole. The shield includes a bottom shield, two side shields, and a top shield. The first return path section is magnetically connected to the bottom shield and is greater than the bottom shield in length in a direction perpendicular to the medium facing surface. The second return path section magnetically couples the top shield and the main pole to each other. The coil includes a first portion that passes through a space defined by the main pole and the first return path section, and a second portion that passes through a space defined by the main pole and the second return path section. | 06-14-2012 |
20120147500 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDING HAVING A TAPERED MAIN POLE - A bottom end of a main pole includes first, second, and third portions that are contiguously arranged in order of increasing distance from the medium facing surface. A top surface of the main pole includes fourth, fifth, and sixth portions that are contiguously arranged in order of increasing distance from the medium facing surface. A distance from the top surface of the substrate to any given point on each of the first and second portions decreases with increasing distance from the given point to the medium facing surface. The second portion has an angle of inclination greater than that of the first portion with respect to a direction perpendicular to the medium facing surface. A distance from the top surface of the substrate to any given point on each of the fourth and fifth portions increases with increasing distance from the given point to the medium facing surface. The fifth portion has an angle of inclination greater than that of the fourth portion with respect to the direction perpendicular to the medium facing surface. | 06-14-2012 |
20120147501 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDING WITH SHIELD AROUND MAIN POLE - A magnetic head includes a shield, and first and second return path sections. The shield has an end face that is located in a medium facing surface to wrap around an end face of a main pole. The shield includes a bottom shield, two side shields, and a top shield. The first return path section includes a yoke layer, and first and second coupling layers that magnetically couple the bottom shield and the yoke layer to each other. The first coupling layer is magnetically connected to the bottom shield. The second coupling layer magnetically couples the first coupling layer to the yoke layer. No end faces of the second coupling layer are exposed in the medium facing surface. The second return path section magnetically couples the top shield and the main pole to each other. | 06-14-2012 |
20120170156 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDING HAVING A MAIN POLE AND TWO SHIELDS - A magnetic head includes: a coil; a main pole; a first shield disposed backward of the main pole along a direction of travel of a recording medium; a first return path section connecting the first shield to the main pole; a second shield disposed forward of the main pole along the direction of travel of the recording medium; and a second return path section connecting the second shield to the main pole. An interface between the first return path section and the main pole has an end closest to a medium facing surface, and an interface between the second return path section and the main pole has an end closest to the medium facing surface, the latter being closer to the medium facing surface than the former. The second return path section includes a yoke layer located away from the medium facing surface and in contact with the main pole. The coil includes at least one coil element that passes between the second shield and the yoke layer. | 07-05-2012 |
20120187575 | LAYERED CHIP PACKAGE AND METHOD OF MANUFACTURING THE SAME - A layered chip package includes a main body and wiring. The main body includes a main part including a plurality of stacked layer portions, and a plurality of terminals disposed on the top and bottom surfaces of the main part. The wiring includes a plurality of lines electrically connected to the plurality of terminals. The plurality of lines include a plurality of common lines and a plurality of layer-dependent lines. Each of the plurality of layer portions includes a plurality of common electrodes electrically connected to the plurality of common lines, and a selective connection electrode selectively electrically connected to only the layer-dependent line that the layer portion uses among the plurality of layer-dependent lines. The selective connection electrode varies in shape depending on which of the layer-dependent lines it is electrically connected to. | 07-26-2012 |
20120188666 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDING HAVING A MAIN POLE AND A SHIELD - A magnetic head includes: a main pole; a coil; a first shield with an end face located in a medium facing surface at a position forward of an end face of the main pole along a direction of travel of a recording medium; a gap part including a portion located between the main pole and the first shield; and a first return path section disposed forward of the main pole along the direction of travel of the recording medium. The first return path section connects the first shield and the main pole to each other so that a first space is defined by the main pole, the gap part, the first shield, and the first return path section. The coil includes a plurality of first coil elements extending to pass through the first space and aligned in a row in the direction of travel of the recording medium. | 07-26-2012 |
20120218662 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDING THAT INCLUDES A SENSOR FOR DETECTING CONTACT WITH A RECORDING MEDIUM - A magnetic head for perpendicular magnetic recording includes a read head unit, a write head unit disposed forward of the read head unit along the direction of travel of a recording medium, a heater that generates heat for causing the medium facing surface to protrude in part, an expansion layer that makes part of the medium facing surface protrude, and a sensor that detects contact of the part of the medium facing surface with the recording medium. The write head unit includes a main pole, a write shield, and a return path section. The return path section includes a yoke layer located backward of the main pole along the direction of travel of the recording medium, a first coupling part that couples the yoke layer and the write shield to each other, and a second coupling part that is located away from the medium facing surface and couples the yoke layer and the main pole to each other. | 08-30-2012 |
20120218663 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDING THAT INCLUDES A SENSOR FOR DETECTING CONTACT WITH A RECORDING MEDIUM - A magnetic head includes a main pole, a write shield, a return path section, a heater that generates heat for making part of a medium facing surface protrude, and a sensor that detects contact of the part of the medium facing surface with a recording medium. The return path section includes: a yoke layer located backward of the main pole along the direction of travel of the recording medium; a first coupling part coupling the yoke layer and the write shield to each other; and a second coupling part located away from the medium facing surface and coupling the yoke layer and the main pole to each other. The first coupling part has an end face facing toward the yoke layer. This end face includes a middle portion spaced from the yoke layer and facing the yoke layer, and two side portions located on opposite sides of the middle portion in a track width direction and in contact with the yoke layer. The sensor is located between the middle portion and the yoke layer. | 08-30-2012 |
20120256321 | LAYERED CHIP PACKAGE AND METHOD OF MANUFACTURING SAME - A layered chip package includes a main body and wiring. The main body includes a main part including a plurality of stacked layer portions, and a plurality of terminals disposed on the top and bottom surfaces of the main part. The wiring includes a plurality of lines electrically connected to the plurality of terminals. The plurality of lines include a plurality of common lines and a plurality of layer-dependent lines. Each of the plurality of layer portions includes: a plurality of common electrodes electrically connected to the plurality of common lines; a plurality of non-contact electrodes that are electrically connected to the layer-dependent lines and are not in contact with the semiconductor chip in the layer portion; and a selective connection electrode selectively electrically connected to only the layer-dependent line that the layer portion uses among the plurality of layer-dependent lines. The layer-dependent lines are greater than the common lines in maximum width. | 10-11-2012 |
20120257304 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDING HAVING A MAIN POLE AND A SHIELD - A magnetic head includes a coil, a main pole, a write shield, and first and second yoke layers. The first and second yoke layers are magnetically connected to the write shield and aligned along the direction of travel of a recording medium such that the main pole is interposed therebetween. The coil includes a winding portion of planar spiral shape that is formed in one or more layers. The magnetic head further includes: a first coupling part located away from the medium facing surface and magnetically coupling the main pole and the second yoke layer to each other; and a second coupling part located away from the medium facing surface and magnetically coupling the first yoke layer and the second yoke layer to each other without touching the main pole. The winding portion is wound around the first coupling part, and a part of the winding portion passes between the first and second coupling parts. | 10-11-2012 |
20120281313 | Perpendicular Shield Pole Writer with Tapered Main Pole and Tapered Non-Magnetic Top Shaping Layer - A PMR writer with a tapered main pole layer and tapered non-magnetic top-shaping layer is disclosed that minimizes trailing shield saturation. A second non-magnetic top shaping layer may be employed to reduce the effective TH size while the bulk of the trailing shield is thicker to allow a larger process window for back end processing. A sloped surface with one end at the ABS and a second end 0.05 to 0.3 microns from the ABS is formed at a 10 to 80 degree angle to the ABS and includes a sloped surface on the upper portion of the main pole layer and on the non-magnetic top shaping layer. An end is formed on the second non-magnetic top shaping layer at the second end of the sloped surface followed by forming a conformal write gap layer and then depositing the trailing shield on the write gap layer and along the ABS. | 11-08-2012 |
20120292287 | METHOD OF FORMING MAIN POLE OF THERMALLY-ASSISTED MAGNETIC RECORDING HEAD - In a method of forming a main pole, an initial accommodation layer is etched by RIE using a first etching mask having a first opening, whereby a groove is formed in the initial accommodation layer. Next, a part of the initial accommodation layer including the groove is etched by RIE using a second etching mask having a second opening, so that the groove becomes an accommodation part. The main pole is then formed in the accommodation part. The first etching mask has first and second sidewalls that face the first opening and are opposed to each other at a first distance in a track width direction. The second etching mask has third and fourth sidewalls that face the second opening and are opposed to each other at a second distance greater than the first distance. | 11-22-2012 |
20120313259 | LAYERED CHIP PACKAGE AND METHOD OF MANUFACTURING SAME - A layered chip package includes a main body and wiring. The main body has a main part. The main part has a top surface and a bottom surface and includes a plurality of layer portions that are stacked. The wiring includes a plurality of lines passing through all the plurality of layer portions. Each layer portion includes a semiconductor chip and a plurality of electrodes. The semiconductor chip has a first surface, and a second surface opposite thereto. The plurality of electrodes are disposed on a side of the first surface of the semiconductor chip. The plurality of layer portions include two or more pairs of first and second layer portions in each of which the first and second layer portions are arranged so that the first or second surfaces of the respective semiconductor chips face each other. The plurality of electrodes include a plurality of first connection parts and a plurality of second connection parts. In the first layer portion, the plurality of first connection parts are in contact with the plurality of lines. In the second layer portion, the plurality of second connection parts are in contact with the plurality of lines. | 12-13-2012 |
20120313260 | LAYERED CHIP PACKAGE AND METHOD OF MANUFACTURING SAME - A layered chip package includes a main body and wiring. The main body includes: a main part having a top surface and a bottom surface and including three or more layer portions stacked on one another; a plurality of first terminals disposed on the top surface of the main part; and a plurality of second terminals disposed on the bottom surface of the main part. Each layer portion includes a semiconductor chip having first and second surfaces, and a plurality of electrodes electrically connected to the wiring. The plurality of electrodes are disposed on a side of the first surface of the semiconductor chip. A first layer portion located closest to the top surface of the main part and a second layer portion located closest to the bottom surface of the main part are arranged so that the second surfaces of their respective semiconductor chips face toward each other. The plurality of first terminals are formed by using the plurality of electrodes of the first layer portion. The plurality of second terminals are formed by using the plurality of electrodes of the second layer portion. | 12-13-2012 |
20120314323 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDINGHAVING A MAIN POLE AND A SHIELD AND SPECIFICALLY STRUCTURED AND LOCATED COIL ELEMENTS AND MAGNETIC COUPLING LAYERS - A magnetic head includes a coil, a main pole, a gap part, a write shield, and a return path section. The return path section includes a yoke part and first and second coupling layers. The first coupling layer is connected to the write shield. The second coupling layer magnetically couples the first coupling layer to the yoke part, and has an end face facing toward a medium facing surface and located away from the medium facing surface. The coil includes a first coil element and a plurality of second coil elements that each extend to pass through a space defined by the main pole, the gap part, the write shield, and the return path section. The first coil element is disposed with the first coupling layer interposed between the medium facing surface and the first coil element. The second coil elements are disposed with the second coupling layer interposed between the medium facing surface and the second coil elements, and with the first coil element interposed between the main pole and the second coil elements. The second coil elements are aligned perpendicularly to the medium facing surface. | 12-13-2012 |
20120315716 | TAPER-ETCHING METHOD AND METHOD OF MANUFACTURING NEAR-FIELD LIGHT GENERATOR - A method of taper-etching a layer to be etched that is made of SiO | 12-13-2012 |
20130020723 | COMPOSITE LAYERED CHIP PACKAGE - A composite layered chip package includes a plurality of subpackages stacked on each other. Each subpackage includes a main body and wiring. The main body includes a main part including a plurality of layer portions, and further includes first terminals and second terminals that are disposed on top and bottom surfaces of the main part, respectively. The wiring is electrically connected to the first and second terminals. The number of the plurality of layer portions included in the main part is the same for all the plurality of subpackages, and the plurality of layer portions in every subpackage include at least one first-type layer portion. In each of at least two of the subpackages, the plurality of layer portions further include at least one second-type layer portion. The first-type layer portion includes a semiconductor chip connected to the wiring, whereas the second-type layer portion includes a semiconductor chip not connected to the wiring. | 01-24-2013 |
20130038966 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDINGHAVING A MAIN POLE, A SHIELD AND A COIL CORE PART SETBACK AWAY FROM THE MEDIUM FACING SURFACE A SPECIFIED DISTANCE - A magnetic head includes: a main pole; a coil; a first shield having an end face that is located in a medium facing surface at a position forward of an end face of the main pole along a direction of travel of a recording medium; and a first return path section disposed forward of the main pole along the direction of travel of the recording medium. The first return path section connects part of the main pole away from the medium facing surface to the first shield so that a first space is defined. The coil includes a first portion having a planar spiral shape and wound around a core part of the first return path section. The first portion includes first and second coil elements that each extend through the first space. No part of the coil other than the first and second coil elements exists in the first space. | 02-14-2013 |
20130068722 | METHOD OF MANUFACTURING PLASMON GENERATOR - A method of manufacturing the plasmon generator includes the steps of: forming a base part made of a dielectric material; forming a metal film that is to later become the plasmon generator; and forming a filler layer made of a dielectric material. The base part includes a base surface and a protruding part that protrudes from the base surface. The protruding part has a top surface that is different in level from the base surface, and a first sidewall connecting the top surface of the protruding part to the base surface. The metal film includes an adhesion part adhering to the first sidewall. The filler layer has a second sidewall disposed such that the adhesion part is interposed between the first sidewall and the second sidewall. | 03-21-2013 |
20130075935 | COMPOSITE LAYERED CHIP PACKAGE - A composite layered chip package includes first and second subpackages that are stacked. Each subpackage includes a main body and wiring. The main body includes: a main part having a top surface and a bottom surface; first terminals disposed on the top surface of the main part; and second terminals disposed on the bottom surface of the main part. The first and second terminals are electrically connected to the wiring. The first and second subpackages are arranged in a specific relative positional relationship, different from a reference relative positional relationship, with each other. | 03-28-2013 |
20130107681 | PLASMON GENERATOR INCLUDING TWO PORTIONS MADE OF DIFFERENT METALS | 05-02-2013 |
20130186854 | TAPER-ETCHING METHOD AND METHOD OF MANUFACTURING NEAR-FIELD LIGHT GENERATOR - A method of taper-etching a layer to be etched that is made of a dielectric material and has a top surface. The method includes the steps of: forming an etching mask with an opening on the top surface of the layer to be etched; and taper-etching a portion of the layer to be etched, the portion being exposed from the opening, by reactive ion etching so that a groove having two wall faces intersecting at a predetermined angle is formed in the layer to be etched. The step of taper-etching employs an etching gas containing a first gas contributing to the etching of the layer to be etched and a second gas contributing to the deposition of a sidewall protective film, and changes, during the step, the ratio of the flow rate of the second gas to the flow rate of the first gas so that the ratio increases. | 07-25-2013 |
20130241081 | COMBINATION FOR COMPOSITE LAYERED CHIP PACKAGE - A main package includes a plurality of stacked semiconductor chips and a plurality of first terminals associated with different ones of the semiconductor chips. An additional package includes an additional semiconductor chip and at least one second terminal electrically connected to the additional semiconductor chip. The additional semiconductor chip is to substitute for one of the plurality of semiconductor chips in the main package. The main package and the additional package are arranged in one of a plurality of relative positional relationships that is selected according to which one of the plurality of semiconductor chips in the main package is to be substituted with the additional semiconductor chip. | 09-19-2013 |
20130283601 | METHOD OF MANUFACTURING MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDING HAVING A RETURN PATH SECTION - A method of manufacturing a magnetic head includes the step of forming an accommodation part and the step of forming a return path section. The return path section lies between a main pole and a top surface of a substrate, and connects a shield and part of the main pole away from a medium facing surface to each other so that a space through which part of a coil passes is defined. The accommodation part accommodates at least part of the return path section. The step of forming the return path section forms first to third portions simultaneously. The first portion is located closer to the top surface of the substrate than is the space. The second portion is located closer to the medium facing surface than is the space. The third portion is located farther from the medium facing surface than is the space. | 10-31-2013 |
20130308227 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDING HAVING A MAIN POLE AND A SHIELD - A magnetic head includes a magnetic structure incorporating a write shield. The magnetic structure is formed to include a first magnetic layer, a second magnetic layer stacked on the first magnetic layer, and a seed layer. The first magnetic layer has a front end face located in the medium facing surface and a top surface. The second magnetic layer has a front end face located in the medium facing surface and a bottom surface. The top surface of the first magnetic layer includes a first region including an end located in the medium facing surface and a second region farther from the medium facing surface than the first region. The seed layer is not present on the first region of the top surface of the first magnetic layer but is present on the second region. | 11-21-2013 |
20130329319 | MAGNETIC HEAD FOR PERPENDICULAR MAGNETIC RECORDING HAVING A RETURN PATH SECTION - A magnetic head includes first and second coils, a main pole, a write shield, a return path section, and a core part. The return path section includes a yoke part magnetically connected to the write shield, and a coupling part located away from a medium facing surface and magnetically coupling the yoke part and the main pole to each other. The first coil is located on the front side in the direction of travel of a recording medium relative to the main pole and wound around the coupling part. The core part is located farther from the medium facing surface than is the coupling part, and is magnetically connected to the main pole. The second coil is located on the front side in the direction of travel of the recording medium relative to the main pole and wound around the core part. | 12-12-2013 |
20140080259 | MANUFACTURING METHOD FOR LAYERED CHIP PACKAGES - In a manufacturing method for layered chip packages, a layered substructure with at least one additional package joined thereto is used to produce a plurality of layered chip packages. The layered substructure includes a plurality of main bodies to be separated from each other later. Each main body includes: a main part having top and bottom surfaces and including a plurality of layer portions stacked on each other; and a plurality of main terminals disposed on at least one of the top and bottom surfaces of the main part. The additional package includes an additional semiconductor chip and at least one additional terminal that is electrically connected to the additional semiconductor chip and in contact with at least one of the plurality of main terminals. | 03-20-2014 |
20140111886 | Graded Bevel Tapered Write Pole Design for Field Enhancement - A structure and a process for a perpendicular write pole that provides increased magnetic flux at the ABS is disclosed. This is accomplished by increasing the amount of write flux that originates above the write gap, without changing the pole taper at the ABS. Three embodiment of the invention are discussed. | 04-24-2014 |
20140111887 | Graded Bevel Tapered Write Pole Design for Field Enhancement - A structure and a process for a perpendicular write pole that provides increased magnetic flux at the ABS is disclosed. This is accomplished by increasing the amount of write flux that originates above the write gap, without changing the pole taper at the ABS. Three embodiment of the invention are discussed. | 04-24-2014 |
20140175053 | TAPER-ETCHING METHOD AND METHOD OF MANUFACTURING NEAR-FIELD LIGHT GENERATOR - A method of taper-etching a layer to be etched that is made of a dielectric material and has a top surface. The method includes the steps of: forming an etching mask with an opening on the top surface of the layer to be etched; and taper-etching a portion of the layer to be etched, the portion being exposed from the opening, by reactive ion etching so that a groove having two wall faces intersecting at a predetermined angle is formed in the layer to be etched. The step of taper-etching employs an etching gas containing a first gas contributing to the etching of the layer to be etched and a second gas contributing to the deposition of a sidewall protective film, and changes, during the step, the ratio of the flow rate of the second gas to the flow rate of the first gas so that the ratio increases. | 06-26-2014 |
20140177099 | MAGNETIC HEAD FOR PERPENDICULAR RECORDING HAVING A PLURALITY OF MAGNETIC PATH PORTIONS - A magnetic head includes a coil, a main pole, a write shield, and a return path section. The return path section includes a yoke layer located on the front side in the direction of travel of a recording medium relative to the main pole, and a coupling part coupling the main pole and the yoke layer to each other. The coupling part includes a plurality of magnetic path portions that separate a magnetic flux into a plurality of fluxes and allow the fluxes to pass therethrough in parallel. The coil includes a plurality of winding portions disposed around the plurality of magnetic path portions, respectively. | 06-26-2014 |
20140247706 | PLASMON GENERATOR INCLUDING TWO PORTIONS MADE OF DIFFERENT METALS - A plasmon generator has a front end face located in a medium facing surface of a magnetic head. The plasmon generator includes a first portion formed of a first metal material and a second portion formed of a second metal material. The first portion has an inclined surface facing toward the front end face. The second portion is located between the inclined surface and the front end face, and includes a first end face located in the front end face and a second end face in contact with the inclined surface. The second metal material is higher in Vickers hardness than the first metal material. The first portion has a plasmon exciting part. The front end face generates near-field light. | 09-04-2014 |
20140269232 | NEAR-FIELD LIGHT GENERATOR AND THERMALLY-ASSISTED MAGNETIC RECORDING HEAD - A near-field light generator includes a multilayer structure having a front end face. The multilayer structure includes a first dielectric layer, a second dielectric layer, a third dielectric layer, a first metal layer, and a second metal layer. The first metal layer is interposed between the first dielectric layer and the second dielectric layer. The second metal layer is interposed between the second dielectric layer and the third dielectric layer. Each of the first to third dielectric layers and the first and second metal layers has an end located in the front end face. The dielectric material used to form the first dielectric layer, the dielectric material used to form the second dielectric layer, and the dielectric material used to form the third dielectric layer have the same permittivity. | 09-18-2014 |
20140269237 | MULTILAYER PLASMON GENERATOR - A plasmon generator has a front end face, a first metal layer, a second metal layer, and an intermediate layer. The front end face generates near-field light based on a surface plasmon. The intermediate layer is interposed between the first metal layer and the second metal layer. Each of the first metal layer, the second metal layer and the intermediate layer has an end located in the front end face. Each of the first and second metal layers is formed of a metal material. The intermediate layer is formed of a material higher in Vickers hardness than the metal material used to form the first metal layer and the metal material used to form the second metal layer. | 09-18-2014 |
20140291284 | METHOD OF MANUFACTURING A NEAR-FIELD LIGHT GENERATOR INCLUDING A WAVEGUIDE AND A PLASMON GENERATOR - In a method of manufacturing a near-field light generator, a structure including a core and a polishing stopper layer disposed on the top surface of the core is formed on a first cladding layer. Next, a cladding material layer is formed to cover the first cladding layer and the structure. The cladding material layer is then polished until the polishing stopper layer is exposed. Next, the polishing stopper layer is removed so that the cladding material layer has a protruding portion protruding upward to a higher level than the top surface of the core. The cladding material layer is then polished so as to remove the protruding portion and thereby make the cladding material layer into a second cladding layer. Then, a third cladding layer and a plasmon generator are formed. | 10-02-2014 |
20140298644 | METHOD OF MANUFACTURING PLASMON GENERATOR - A method of manufacturing a plasmon generator includes the steps of: an initial film made of a metal polycrystal and including a pre-plasmon-generator portion that later becomes the plasmon generator; heating the initial film with heating light so that a plurality of crystal grains constituting the metal polycrystal grow at least in the pre-plasmon-generator portion; stopping the heating of the initial film; and forming the plasmon generator by processing the initial film after the step of stopping the heating. The step of forming the plasmon generator includes the step of providing the pre-plasmon-generator portion with a front end face that generates near-field light. | 10-09-2014 |
20150071044 | 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. | 03-12-2015 |