| Patent application number | Description | Published |
|---|
| 20090023339 | SHIELDED CONNECTOR STRUCTURE - A shielded connector structure includes a first connector and a second connector, each having a metal terminal element, an insulating connector housing that has a terminal container for accommodating the metal terminal elements, and a conductive shield shell which covers the terminal container of the connector housing. The shielded connector structure further includes a conductive connector mounting portion which contacts the shield shell of at least one of the first and second connectors to ground the shield shell; and a connecting portion which is provided on each of the shield shells of the first and second connectors, and is coupled to the connector mounting portion when the first and second connectors are engaged to shield-connect the shield shells each other. | 01-22-2009 |
| 20090209130 | Shield connector - A shield connector is provided, by which an electric shield can be securely performed. The shield connector includes: a plurality of terminal fittings; a housing holding the plurality of the terminal fittings; an electrically conductive inner shield shell receiving the housing; and an electrically conductive outer shield shell receiving the inner shield shell, wherein the outer shield shell includes: a square tube-shaped shell body; and surface-fixing parts, each of which is formed projecting from a peripheral wall of the shell body toward the inside of the shell body and has a parallel wall, which is formed parallel to the peripheral wall and placed closely on an outer surface of the inner shield shell. | 08-20-2009 |
| 20090247013 | SHIELD CONNECTOR FOR PRINTED CIRCUIT BOARD - The present invention provides a shield connector for a printed circuit board, in which the disengagement of an outer shield shell from a connector housing is prevented, and also an anti-noise performance is enhanced. The shield connector includes a resin connector housing having a rectangular solid shape including a top-surface, a right-side-surface, a left-side-surface, a back-surface, and an opening; a terminal provided in the connector housing so as to be connected a connector through the opening; and a shield shell including a top-plate covering the top-surface, a right-side-plate covering the right-side-surface, a left-side-plate covering the left-side-surface, and a rear-plate covering the back-surface. The each of the right-side-surface and the left-side-surface includes an engagement portion positioned at the front lower end portion thereof, and each of the right-side-plate and the left-side-plate includes a hook positioned at the front lower end portion thereof and engaged with the engagement portion. | 10-01-2009 |
| 20090253295 | SHIELD CONNECTOR STRUCTURE - A shield connector structure | 10-08-2009 |
| 20090253298 | SHIELD CONNECTOR - A shield connector | 10-08-2009 |
| 20090258540 | SHIELD CONNECTOR - A shield connector includes plural female terminals | 10-15-2009 |
| 20110008669 | POWER SUPPLY SYSTEM - A power supply system including a plurality of batteries includes a busbar, a terminal and a busbar module. The busbar connects a first electrode of one of the batteries with a second electrode of another one of the batteries. The terminal is mounted on the busbar and is contacted with the first electrode. The busbar module has a bulkhead defining a space accommodating the busbar. A locking member is extended from the bulkhead into the space and restricts the busbar. An abutment portion is provided at an edge part of the terminal. The abutment portion abuts the locking member when the terminal is rotated about the first electrode. | 01-13-2011 |
| Patent application number | Description | Published |
|---|
| 20110139253 | ORGANIC PHOTOELECTRIC CONVERSION ELEMENT AND PRODUCING METHOD OF THE SAME - Provided is an organic photoelectric conversion element containing: a first electrode; a second electrode; and an organic photoelectric conversion layer sandwiched between the first electrode and the second electrode, wherein the first electrode comprises: a conductive fiber layer; and a transparent conductive layer containing a conductive polymer comprising a π conjugated conductive polymer and a polyanion, and an aqueous binder, and at least a part of the transparent conductive layer containing the conductive polymer and the aqueous binder is cross-linked therein. | 06-16-2011 |
| 20110197966 | ORGANIC PHOTOELECTRIC CONVERSION ELEMENT AND ORGANIC PHOTOELECTRIC CONVERSION ELEMENT MANUFACTURING METHOD - Provided is an organic photoelectric conversion element having a high photoelectric conversion ratio. Provided is also a method for manufacturing an organic photoelectric conversion element which can significantly reduce the manufacturing cost by forming a transparent electrode and an organic generation layer portion by coating a material. The organic photoelectric conversion element includes on a transparent substrate, a first electrode unit having a transparent conductive layer, an organic generation unit, and a second electrode unit which are successively arranged in this order when viewed from the transparent substrate. The transparent conductive layer constituting the first electrode unit contains conductive fiber and transparent conductive material. | 08-18-2011 |
| 20110233566 | LIGHTING DEVICE - Provided is a lightweight flexible lighting device with excellent durability and stable performance over repeated use that combines an organic electroluminescent element, an organic photoelectric conversion element, and a secondary cell. The lighting device has a control means for controlling the electrical connections of the organic electroluminescent element, the organic photoelectric conversion element, and the secondary cell. The control means controls the electrical connections such that a reverse bias voltage is applied to the organic electroluminescent element when the organic electroluminescent element receives light, generates power, and charges the secondary cell, and such that a reverse bias voltage is applied to the organic photoelectric conversion element when the organic electroluminescent element is supplied with power from the secondary cell and emits light. | 09-29-2011 |
| 20110315977 | ORGANIC ELECTRONIC PANEL AND METHOD FOR MANUFACTURING ORGANIC ELECTRONIC PANEL - Provided is an organic electronic panel wherein warping (deformation) of a metal member is suppressed when the metal member is used as a packaging board, an electrical short-circuit due to the warping is eliminated, and generation of light emission failure and deterioration of power generating performance are eliminated. In the organic electronic panel, the packaging board is composed of a metal foil, and a polymer film is laminated on the metal foil surface on the reverse side of the side having the adhesive layer. The thickness of the polymer film is not more than that of the metal foil, and heat is applied at the time of bonding/laminating the packaging board or at the time of hardening the adhesive layer. | 12-29-2011 |
| Patent application number | Description | Published |
|---|
| 20090195625 | RECORDING APPARATUS - A recording apparatus which can prevent a drop of a recording head upon attachment of the recording head to a carriage is provided. When a head cartridge is attached/removed to/from a carriage, the carriage is moved to an overlapping position with a head supporting base and stopped there. Projection supporting portions to guide and support rough guide projections on both side surfaces of the head cartridge so as to be properly received to guides provided for the carriage are provided for the head supporting base. | 08-06-2009 |
| 20100165039 | INK JET RECORDING APPARATUS - Activation/deactivation of a pump | 07-01-2010 |
| 20110063383 | PRINTING APPARATUS - A fail-safe capability is realized that not only forestalls the execution by the user of the head replacement operation in an erroneous sequence while the printing apparatus is in operation but also prevents the splashing of ink even if the user attempts to inadvertently replace the print head. For this purpose, the ink supply and the opening and closing of the print head replacement cover are performed by a predetermined rotation of one drive source. | 03-17-2011 |
| 20110128329 | LIQUID EJECTION APPARATUS - A liquid ejection apparatus includes a pressure sensor and a determining unit. The pressure sensor is configured to detect a pressure in an ink supply path for use in supplying ink from an ink tank to a recording head. The determining unit determines whether the ink supply path is anomalous based on a result of detection of the pressure in the ink supply path by the pressure sensor performed in response to application of a fluctuating pressure to the ink in the ink tank. | 06-02-2011 |
| 20110243634 | PRINTING SYSTEM, SHEET PROCESSING SYSTEM, AND SHEET-PATH SWITCHING APPARATUS - In a printing system capable of selectively performing duplex printing and simplex printing, a switching unit switches a sheet travel path between a first path and a second path parallel to each other, and reverses the sides of a sheet that passes along the first path. In the duplex printing, a sheet is printed on a first side by a first printing apparatus, reversed by the switching unit, and printed on a second side reverse of the first side by a second printing apparatus. In the simplex printing, only one side of a sheet is printed by the first printing apparatus and/or second printing apparatus. First and second input units introduce sheets into the first and second paths, respectively; and first and second output units receive printed sheets that have traveled along the first and/or second paths. | 10-06-2011 |
| 20110243635 | PRINTING SYSTEM, SHEET PROCESSING SYSTEM, AND SHEET DIRECTION CHANGINGAPPARATUS - In a printing system capable of selectively performing duplex printing and simplex printing, a first input unit and a second input unit are adjacent to each other. A first output unit and a second output unit are adjacent to each other. In duplex printing, a sheet supplied from the first input unit is printed on a first side thereof in a first printing apparatus and the traveling direction thereof is changed at a changing unit while the sheet is reversed, and then the sheet is printed on a second side thereof in a second printing apparatus and output to the second output unit. In simplex printing, a sheet supplied from the first or second input unit is printed on one side thereof and the traveling direction thereof is changed at the changing unit, and then the sheet is output to the first or second output unit. | 10-06-2011 |
| 20110279509 | APPARATUS AND METHOD OF PRINTING - A printing apparatus using a print head of an inkjet-type, in which, if a splice is detected during printing, an area of a following part of a continuous sheet that follows the splice is used to perform image-quality adjustment such as color shading adjustment, an adjustment of a gap between the print head and a sheet, and a color registration adjustment of the print head. | 11-17-2011 |
| Patent application number | Description | Published |
|---|
| 20100033879 | PERPENDICULAR MAGNETIC HEAD AND MAGNETIC RECORDING SYSTEM - A perpendicular magnetic head for writing information on a magnetic recording medium comprises an ABS, a coil for generating a magnetic flux, a magnetic pole layer, a magnetic shield layer, and a gap layer disposed between the magnetic pole layer and the magnetic shield layer. Further the magnetic head has a non-magnetic region of a non-magnetic material. The non-magnetic region is disposed in the magnetic shield layer and positioned behind the ABS at a predetermined distance. The non-magnetic region is also disposed in the magnetic shield layer and has a predetermined width. With such a configuration, an undesirable concentration of the magnetic flux on the ABS is prevented. | 02-11-2010 |
| 20100172054 | Perpendicular magnetic write head, method of manufacturing the same and method of forming magnetic layer pattern - In a perpendicular magnetic write head manufacturing method a magnetic layer is formed on a substrate. On the magnetic layer, first and second nonmagnetic layers are formed with different materials. A mask pattern is formed on the second nonmagnetic layer, and the second nonmagnetic layer in a region not covered with the mask pattern is removed Thereby, the patterned second nonmagnetic layer is formed while leaving the first nonmagnetic layer. The mask pattern is removed and a milling process is selectively performed on the first nonmagnetic layer and the magnetic layer with the patterned second nonmagnetic layer as a mask to remove all of the first nonmagnetic layer in an exposed region and to dig down the magnetic layer in the exposed region, thereby forming a main magnetic pole layer having an inclined part whose thickness decreases with distance from an edge position of the patterned second nonmagnetic layer. | 07-08-2010 |
| 20100302680 | Perpendicular magnetic write head and magnetic write device - A perpendicular magnetic write head includes: a magnetic pole having an end face on an air bearing surface; and side shield layers each having an end face on the air bearing surface, and arranged on both sides, in a write track width direction, of the magnetic pole with a side gap in between. The end face of the magnetic pole has a geometry in which a width at a trailing edge is larger than a width at a leading edge. Relationship D | 12-02-2010 |
| 20110108520 | Method for manufacturing perpendicular magnetic head including a main pole surrounded by shield layers - A method of manufacturing a perpendicular magnetic head having a writing element that writes magnetic information to a recording medium includes forming a main magnetic pole part generating a magnetic field on a substrate; removing at least a part of the substrate and a material existing at a circumference of the main magnetic pole part to expose an entire circumference of the main magnetic pole part at a surface that becomes an opposing medium surface (ABS) opposite to the recording medium; forming a shield gap film that is made of a nonmagnetic material so as to cover the entire circumference of the main magnetic pole part at least at the surface that becomes the ABS; and forming a shield layer so as to cover an entire circumference of the shield gap film at least at the surface that becomes the ABS. | 05-12-2011 |
| 20110127234 | Method of manufacturing magnetic head for perpendicular magnetic recording with shield around main magnetic pole - A manufacturing method for a magnetic head includes the steps of; forming a structure on a lower shield, the structure including a lower gap, a main magnetic pole and first and second side gaps; forming first and second side shields; forming an upper gap; and forming an upper shield. In the step of forming the structure, an initial lower gap layer is formed on the lower shield, the initial lower gap layer including a pre-lower-gap portion, and two to-be-removed portions that are located on opposite sides of the pre-lower-gap portion. Then, a protrusion including the main magnetic pole and the first and second side gaps is formed on the pre-lower-gap portion. With the top surface of the protrusion covered with a mask, the initial lower gap layer is etched in part to thereby form the lower gap. | 06-02-2011 |
| Patent application number | Description | Published |
|---|
| 20100134928 | HEAD SUSPENSION ASSEMBLY AND STORAGE MEDIUM DRIVING APPARATUS - According to one embodiment, a head suspension assembly includes: a head slider; a fixed piece supported on a surface of a platy gimbal; a first arm configured to extend from the fixed piece, be connected to the head slider, and include a platy first flexible portion that extends, between the fixed piece and the head slider, along a first virtual plane perpendicular to the surface of the gimbal; a second arm configured to extend from the fixed piece, be connected to the head slider, and include a platy second flexible portion configured to extend along a second virtual plane that is perpendicular to the surface of the gimbal and that intersects with the first virtual plane at an intersection angle less than 180 degrees; a first piezoelectric element joined to the first flexible portion; and a second piezoelectric element joined to the second flexible portion. | 06-03-2010 |
| 20100195251 | MICRO ACTUATOR DEVICE, HEAD SUSPENSION ASSEMBLY AND STORAGE MEDIUM DRIVING DEVICE - According to one embodiment, a micro actuator device, includes: a first piezoelectric element superposed on a first lower support plate coupled to a fixed plate; a second piezoelectric element superposed on a second lower support plate in parallel with the first lower support plate coupled to the fixed plate; a first upper support plate interposing the first piezoelectric element between the first upper support plate and the first lower support plate, and generating strain equal to strain of the first lower support plate when a tensile force of the first piezoelectric element acts on the first lower support plate; and a second upper support plate interposing the second piezoelectric element between the second upper support plate and the second lower support plate, and generating strain equal to strain of the second lower support plate when a tensile force of the second piezoelectric element acts on the second lower support plate. | 08-05-2010 |
