Patent application number | Description | Published |
20130010495 | LIGHT EMITTING MODULE AND ILLUMINATION SYSTEM INCLUDING THE SAME - A light emitting module is disclosed. The light emitting module includes a circuit board, a plurality of light emitting devices mounted on the circuit board and spaced apart from each other, molding parts wrapping the respective light emitting devices, and a reflective member disposed on the circuit board to surround the light emitting devices. The reflective member has a height greater than that of each of the molding parts. The reflective member has a plurality of openings exposing the light emitting devices, and each of the openings has a reflective side wall extending upward from the circuit board. | 01-10-2013 |
20140084182 | LIGHT EMITTING DEVICE PACKAGE - Embodiments provide a light emitting device package including a package body, at least one electrode pattern placed on the package body, at least one light emitting device electrically connected to the electrode pattern, a heat dissipation member inserted into the package body to thermally come into contact with the light emitting device, and a anti-fracture layer placed on the heat dissipation member. The anti-fracture layer vertically overlaps with at least a partial peripheral region of the heat dissipation member. | 03-27-2014 |
20140167095 | LIGHT EMITTING DEVICE PACKAGE - Disclosed is a light emitting device package including a package body including at least one electrode pad disposed on a surface thereof, a light emitting device disposed on the package body, the light emitting device being electrically connected to the electrode pad through a wire, and a via hole electrode passing through the package body, wherein the wire forms a stitch on at least one of the light emitting device and the electrode pad, the light emitting device package further includes a bonding ball disposed on the stitch, and the via hole electrode non-overlaps the stitch and the bonding ball in a vertical direction. | 06-19-2014 |
20140191276 | LIGHT EMITTING DEVICE PACKAGE - Disclosed is a light emitting device package with improved light extraction efficiency. The light emitting device package includes a substrate, a light emitting device disposed on the substrate, and a light transmission unit disposed above the light emitting device, the light transmission unit being spaced from the light emitting device, wherein a distance between an upper surface of the light emitting device and the light transmission unit is 0.15 mm to 0.35 mm. | 07-10-2014 |
20140246604 | LIGHT EMITTING DEVICE PACKAGE - A light emitting device package including a package body including a plurality of first ceramic layers, at least one electrode pattern placed on the package body, at least one light emitting device electrically connected to the electrode pattern, and a heat dissipation member disposed in the package body to thermally come into contact with the light emitting device, wherein the heat dissipation member is provided with an expanded portion at a region corresponding to a boundary of different first ceramic layers. | 09-04-2014 |
20150048262 | LIGHT EMITTING DEVICE PACKAGE - A light emitting device package including a package body, at least one electrode pattern placed on the package body, at least one light emitting device electrically connected to the electrode pattern, a heat dissipation member disposed in the package body to thermally come into contact with the light emitting device, and an anti-fracture layer placed on the heat dissipation member, wherein a width of the heat dissipation member is different at different heights of the package body. | 02-19-2015 |
20150102375 | LIGHT EMITTING DEVICE PACKAGE - A light emitting device package is disclosed. The light emitting device package includes a package body including at least one ceramic layer, a submount disposed at the package body, a light emitting device disposed on the submount for emitting ultraviolet (UV)-wavelength light, and an anti-reflection (AR) coating layer disposed around the light emitting device, the AR coating layer being formed of an inorganic coating layer. | 04-16-2015 |
20150270463 | LIGHT EMITTING DEVICE PACKAGE - A light emitting device package including a package body including a first cavity and a second cavity, a pad disposed on a bottom surface of the first cavity, a light emitting device disposed on the second cavity electrically connected to the pad, a heat dissipation member inserted into the package body, the heat dissipation member including a body and expanded portions disposed at a partial edge region of the body and electrode patterns disposed at the package body, wherein the package body has an upper portion and a lower portion disposed under the upper portion, wherein the first cavity including side surfaces and a bottom surface, wherein the second cavity provided in the bottom surface of the first cavity. | 09-24-2015 |
Patent application number | Description | Published |
20140378239 | MOTION ANALYSIS METHOD AND MOTION ANALYSIS DEVICE - In a motion analysis method, an impact point analysis section identifies a posture of a hitting area of sporting equipment at impact using an output of an inertial sensor. A determination section determines a type of a course of a hit ball using information of the posture of the hitting area thus identified. The course of the hit ball is estimated with the posture of the hitting area at impact. The type of the course of the hit ball is determined in accordance with the posture of the hitting area. | 12-25-2014 |
20140379294 | MOTION ANALYSIS METHOD AND MOTION ANALYSIS DEVICE - A motion analysis method includes calculating a change in an amount of inertia of a region attached with an inertial sensor during a swing using an output of the inertial sensor, and identifying a maximum value of the amount of inertia during the swing to compare the maximum value and the amount of inertia at an impact with each other. A deceleration timing during the swing of the region (the grip of the sporting equipment) attached with the inertial sensor is identified, and the quality of the swing can be evaluated. | 12-25-2014 |
20140379295 | MOTION ANALYSIS DEVICE - In a motion analysis device, a first detection section detects a first state of a shaft portion of sporting equipment using an output of an inertial sensor. The first state corresponds to, for example, a resting state. A second detection section detects a second state of the shaft portion of the sporting equipment using the output of the inertial sensor. The second state corresponds to, for example, an impact. The second detection section detects a relative rotational angle of the shaft portion having varied around an axis of the shaft portion from the first state. | 12-25-2014 |
20150106050 | MOTION ANALYSIS METHOD AND MOTION ANALYSIS APPARATUS - A motion analysis method includes: specifying plural operations included in a motion operation using an output from an inertial sensor; calculating an operating time of each of the plural operations; adjusting a time axis of each operating time; and outputting operation information of the operation based on the adjusted time axis. | 04-16-2015 |
20150111657 | MOVEMENT ANALYSIS METHOD, MOVEMENT ANALYSIS APPARATUS, AND MOVEMENT ANALYSIS PROGRAM - A designation unit designates a checkpoint of sporting equipment on which a swing motion is performed. A first calculation unit calculates a movement path of the sporting equipment, which is being swung, using an output of an inertial sensor. A second calculation unit calculates a posture of an interest part of the sporting equipment at the checkpoint using the output of the inertial sensor up to the checkpoint on the movement path of the sporting equipment. The display unit displays the posture of the interest part of the sporting equipment at the checkpoint. | 04-23-2015 |
20150119159 | MOTION ANALYZING APPARATUS, MOTION ANALYZING METHOD, AND MOTION ANALYZING PROGRAM - When a sporting tool or a subject changes from a first state (e.g., address state) to a second state (during swing), a detection part detects, within a plane orthogonal to a first direction (y-axis) in which a shaft part of the sporting tool extends, a rotation angle θxn or θzn at which the sporting tool or the subject changes around an axis in a second direction or a third direction orthogonal to each other (x-axis or z-axis) using output of an inertial sensor. | 04-30-2015 |
20150146933 | MOTION ANALYSIS METHOD, MOTION ANALYSIS DISPLAY METHOD, AND MOTION ANALYSIS DEVICE - A motion analysis device has a determination unit which uses an output from an inertial sensor mounted on at least one of a subject and a tool operated by the subject, to determine a dominant hand of the subject in a swing. The determination unit can determine the dominant hand on the basis of the sign of angular velocity or acceleration from the inertial sensor. A calculation unit which calculates motion analysis information in a swing, using an output from the inertial sensor can add dominant hand information from the determination unit to the motion analysis information. The motion analysis device can include a coincidence determination unit which determines that a first subject and a second subject have different dominant hands, and an inverted image generation unit which inverts first motion analysis information in the case of no coincidence. | 05-28-2015 |
Patent application number | Description | Published |
20130242371 | ELECTROWETTING DISPLAY APPARATUS AND METHOD OF MANUFACTURING THE SAME - A manufacturing method of an electrowetting display apparatus, in which a pixel electrode is formed on a substrate including pixel areas, a first mixture including a hydrophobic material and a solvent is disposed on the substrate to form a hydrophobic insulating layer, and a first heat process is performed to remove a portion of the solvent. Then, a second mixture including a material for a barrier and the solvent is disposed on the hydrophobic insulating layer, and the second mixture is patterned to form a barrier wall surrounding the pixel electrode in each pixel area. A second heat process is performed to remove the solvent in the hydrophobic insulating layer and the barrier wall, and a polar fluid and a non-polar fluid are disposed on the pixel electrode to form an electrowetting layer. | 09-19-2013 |
20140043671 | ELECTROWETTING DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - The present disclosure relates to an electrowetting display device and a manufacturing method for the same, using a UV light reactive fluorosurfactant layer. The UV light reactive fluorosurfactant layer can include a UV-cured fluorine based material positioned above a cured UV reactive material. In an embodiment, the electrowetting display device can also include a substrate with a layer of pixel electrodes formed over the substrate, and partition walls formed over at least a portion of the layer of pixel electrodes. In one embodiment, the UV light reactive fluorosurfactant layer can be formed between the partition walls and above an inter-layer insulation film. In another embodiment, the UV light reactive fluorosurfactant layer can be formed between the partition walls and above the layer of pixel electrodes. The electrowetting display can also include a water repellent layer formed over the UV light reactive fluorosurfactant layer. | 02-13-2014 |
20140285870 | ELECTROWETTING DISPLAY DEVICE - An electrowetting display device includes a first base substrate, a plurality of first electrodes disposed on the first base substrate and positioned to respectively correspond to positions of a plurality of pixels, a partition wall disposed on the first base substrate to partition the pixels, a second electrode disposed on the partition wall and including a plurality of openings, a second base substrate facing the first base substrate, and an electrowetting layer disposed between the first base substrate and the second base substrate, the electrowetting layer respectively being moved by voltages respectively applied to the first electrode and the second electrode. | 09-25-2014 |
20150109656 | ELECTROWETTING DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - The present disclosure relates to an electrowetting display device and a manufacturing method for the same, using a UV light reactive fluorosurfactant layer. The UV light reactive fluorosurfactant layer can include a UV-cured fluorine based material positioned above a cured UV reactive material. In an embodiment, the electrowetting display device can also include a substrate with a layer of pixel electrodes formed over the substrate, and partition walls formed over at least a portion of the layer of pixel electrodes. In one embodiment, the UV light reactive fluorosurfactant layer can be formed between the partition walls and above an inter-layer insulation film. In another embodiment, the UV light reactive fluorosurfactant layer can be formed between the partition walls and above the layer of pixel electrodes. The electrowetting display can also include a water repellent layer formed over the UV light reactive fluorosurfactant layer. | 04-23-2015 |