17th week of 2016 patent applcation highlights part 69 |
Patent application number | Title | Published |
20160119993 | LIGHT SOURCE DRIVER - Various embodiments of a light source driver are disclosed. In one embodiment, the light source driver may have a driving transistor coupled directly to at least one light source without having additional switches such that the light source driver may be operated with a low voltage supply. Optionally, the light source drivers may have a bypassing circuit configured to reduce power consumption, and peaking current generator configured to speed up the turn on time of the at least one light source. At least some of the circuits, and block diagrams disclosed herein may be implemented using conventional CMOS design and manufacturing techniques and processes to provide, for example, at least one or more integrated circuits. | 2016-04-28 |
20160119994 | Solid State Light Source Device and Dimming Circuit Thereof - A solid state light source device and a dimming circuit are provided. The dimming circuit includes a rectifier circuit, a switch unit, and a control unit. The rectifier circuit is configured to convert an AC voltage signal to a rectified voltage signal. The switch unit is electrically connected between the rectifier circuit and a lighting module and configured to undergo switching according to a pulse width modulation signal to connect or disconnect the rectifier circuit and the lighting module. The control unit is electrically connected to the switch unit and configured to generate the pulse width modulation signal to control the switch unit. | 2016-04-28 |
20160119995 | SIGNAL SMOOTHING DEVICE AND BACKLIGHT DEVICE INCLUDING THE SAME - A signal smoothing device includes: a plurality of capacitors connected in parallel between a conductive line and ground; a plurality of switches connected in series between the conductive line and each capacitor; and a switch selector configured to select one of the switches and to turn on the selected switch, based on a signal applied to the conductive line. | 2016-04-28 |
20160119996 | LIGHTING SYSTEM AND METHODS FOR REDUCING NOISE AT LIGHT SENSING DEVICE - A method may comprise: supplying light energy from a light emitting device principally along a first axis; sensing the light energy with a light sensing device oriented along a second axis, wherein the second axis is oriented substantially orthogonally to the first axis; and adjusting the light energy in response to the sensed light energy. In this way, an amount of retro-reflected light incident at the light sensing device may be reduced, measurement error of the light sensing device may be reduced, and control precision and reliability of the lighting system for curing a work piece can be increased. | 2016-04-28 |
20160119997 | ADJUSTMENT METHOD FOR LED BACKLIGHT BRIGHTNESS - An adjustment method for LED backlight brightness, comprising the following steps of: if the current LED backlight brightness is greater than a preset value, maintaining the PWM duty ratio as the maximum value, and adjusting the LED backlight brightness by adjusting an LED conduction current (S | 2016-04-28 |
20160119998 | APPARATUS FOR CONTROLLING LIGHT MODULE - Apparatuses for controlling light modules ( | 2016-04-28 |
20160119999 | DRIVING APPARATUS FOR A LIGHT EMITTING DEVICE AND METHOD FOR THE SAME - A driving apparatus configured to drive a light emitting device includes a driving current source module operable to supply current to the light emitting device via a node during operation. A protection module coupled to the node and the driving current source module selectively injects current to the node during operation. The driving current source module is controlled based on a detection result of a voltage on the node. | 2016-04-28 |
20160120000 | TWO-LEVEL LED SECURITY LIGHT WITH MOTION SENSOR - A two-level LED security light with a motion sensor. At night, the LED is turned on for a low level illumination. When the motion sensor detects any intrusion, the LED is switched from the low level illumination to a high level illumination for a short duration time. After the short duration time, the LED security light returns to the low level illumination for saving energy. The LED security light includes a power supply unit, a light sensing control unit, a motion sensing unit, a loading and power control unit, and a lighting-emitting unit. The lighting-emitting unit includes one or a plurality of LEDs which may be turned-on or turned-off according to the sensing results from the light sensing control unit. When the motion sensing unit detects an intrusion, the illumination of the LED security light can be immediately turned on to the high level to scare away the intruder. | 2016-04-28 |
20160120001 | Color temperature tuning - An advance control LED lighting system is disclosed. The lightings system includes LED light fixtures with sets of different white LED arrays that emit different output spectra. The system includes a control unit for adjusting relative intensities of light outputs from the different sets of white LED arrays as well as the combined intensity of light output from the different sets of white LED arrays to produce ranges combined output light intensities and the combined output light color temperatures. Preferably the control unit includes a wireless transmitter for receiving and processing input control signals from a remote control interface device, such as a smart-phone or computer. The system also includes sensors coupled to the control unit for automatically adjusting one or more of the combined output light intensity and the combined output light color temperature based on a measured or detected condition. | 2016-04-28 |
20160120002 | LED LAMP COMPRISING A SAFETY MODULE FOR SAFE OPERATION ON VARIOUS BALLASTS - The current invention relates to a LED lamp ( | 2016-04-28 |
20160120003 | WHITE LIGHT EMITTING DEVICE - A white light emitting device includes an LED chip capable of emitting light with a peak wavelength of 390 to 430 nm, and a wavelength conversion layer including first, second and third fluorescent materials. The first fluorescent material is capable of being excited to emit light with a peak wavelength of 450 to 470 nm. The second fluorescent material is capable of being excited to emit light with a peak wavelength of 450 to 470 nm. The third fluorescent material is capable of being excited to emit light with a peak wavelength of 630 to 650 nm. Light emitted by the white light emitting device has a color temperature below 5000 K, and a general color rendering index value (Ra) and special color rendering index values (R9-R15) all greater than 90. | 2016-04-28 |
20160120004 | PIXEL ARRANGEMENT OF COLOR DISPLAY PANEL - A pixel arrangement of color display panel includes a plurality of first sub-pixels, second sub-pixels, third sub-pixels and fourth sub-pixels for respectively providing a first color light, a second color light, a third color light and a fourth color light. The first sub-pixels and the fourth sub-pixels respectively have the same first length and fourth length in a first direction. The second sub-pixels and the third sub-pixels respectively have the same second length and third length in the first direction, which are greater than the first length. The first and fourth sub-pixels are arranged along the first direction to form sub-pixel columns, wherein one of the first sub-pixels in one of the sub-pixel columns partially overlaps one of the first sub-pixels and one of the fourth sub-pixels in another sub-pixel column in a second direction perpendicular to the first direction. | 2016-04-28 |
20160120005 | DISPLAY PANEL - A display panel is disclosed, having a display region and a non-display region out of the display region, wherein the display region comprises a central pixel region and a border pixel region disposed between the central pixel region and the non-display region, the display panel comprising: a first substrate; a second substrate; a display medium layer; a plurality of central pixel units located at the central pixel region and having a plurality of first electrodes disposed on the second substrate; and a plurality of border pixel units located at the border pixel region and having a plurality of second electrodes disposed on the second substrate; wherein outmost edges of a part of the adjacent border pixel units form a ladder-like shape, and a light output area of at least one of the border pixel units is smaller than that of at least one of the central pixel units. | 2016-04-28 |
20160120006 | Organic el display panel for reducing resistance of electrode lines - Method for fabricating an organic EL display panel having an EL region at every cross of first and second electrodes, including the steps of forming a plurality of first electrodes at regular intervals on a transparent substrate, forming an insulating later in regions other than the EL regions, forming second supplementary electrodes on the insulating layer, forming an electric insulating barrier between adjacent EL regions perpendicular to the first electrodes, forming an organic EL layer in each of the EL regions with a shadow mask, depositing an electrode material on an entire surface inclusive of the organic EL layer, to form a plurality of second electrodes, and forming a protection film on an entire surface inclusive of the second electrodes. | 2016-04-28 |
20160120007 | SMART LIGHTING SYSTEM - According to at least one embodiment, a computer-implemented method to illuminate a room is described. At least one person entering the room may be identified. The room may be illuminated based at least in part on the identifying. An occupancy count for the room may be maintained based at least in part on the illuminating, wherein the occupancy count comprises a number of one or more people present in the room. The room may be darkened based at least in part on the occupancy count for the room reaching a pre-determined count. | 2016-04-28 |
20160120008 | MUSICAL DISPLAY DEVICE - A musical display assembly includes a housing. A processor is coupled to the housing. An actuator is coupled to the housing and the processor to actuate and de-actuate the processor. An electronic memory is coupled to the housing and the processor. The electronic memory stores music. Each of a pair of speakers is coupled to the housing and to the processor to emit the music. A display is coupled to the housing and the processor. A plurality of light emitters is electrically coupled to a conductor. Thus, the light emitter may be displayed in a desired arrangement. A plurality of data ports is provided. Each of the data ports is coupled to the housing and the processor. The conductor is electrically coupled to a selected one of the data ports wherein each of the light emitter emits light in a pattern corresponding to a rhythm of the music. | 2016-04-28 |
20160120009 | DEVICE WITH A GRAPHICAL USER INTERFACE FOR CONTROLLING LIGHTING PROPERTIES - The invention provides a device comprising a screen for displaying a graphical user interface, wherein the device is configured to control a lighting property of a lighting unit of a plurality of lighting units, wherein the device is configured to display on a screen of the device a plurality of lighting-related user interface elements, wherein each lighting-related user interface element includes a photograph-based picture of the corresponding lighting unit in its application environment, wherein each lighting-related user interface element is configured to control the lighting unit light of the corresponding lighting unit, and wherein each lighting-related user interface element is configured to show a lighting effect corresponding to the lighting property of the corresponding lighting unit. | 2016-04-28 |
20160120010 | DETECTION AND CORRECTION OF FAULTY PHOTO CONTROLS IN OUTDOOR LUMINAIRES - Systems, methods and articles for providing centralized control of area lighting hours of illumination. An area illumination system includes a central control system operatively coupled to a plurality of luminaires through a data communications network. In some implementations, the data communications network may include a power-line power distribution system and/or a wired or wireless communications network. Each of the plurality of luminaires includes a local illumination control system, which may include a photosensor. The central control system identifies one or more luminaires as having a faulty local illumination control system and issues illumination commands to such luminaires through the data communications network so that the luminaires continue to operate normally without a working local illumination control system. The central control system may store data relating to luminaires having faulty illumination control systems, such as addresses, map data, routing data, or the like. | 2016-04-28 |
20160120011 | CASE OF PERSONAL TERMINAL DEVICE WITH ELECTRIC SHOCKING FUNCTION AND FINGER SCAN - A case of personal terminal device with electric shocking function and finger scan is disclosed, which including the shock unit mounted so that it can be accommodated and projected on one side of the case body accommodating the portable terminal and generate high current by amplifying electric energy supplied from the power supply unit mounted on the case body, the control unit that operates the shock unit in case of emergency, the multimedia unit mounted on one side of the case body to directly collect or control the control unit to collect the operating conditions of the shock unit in sound or image by using the microphone or camera built in the portable terminal, and the communication unit transmitting the current position of the portable terminal to specific organizations along with sound or image collected in the multimedia unit during the operation of the shock unit. | 2016-04-28 |
20160120012 | X-RAY SOURCE AND METHOD FOR PRODUCING X-RAYS - An X-ray source is provided, the X-ray source including an outer housing that may be evacuated, including at least one radiation exit window, an electron source for emitting an electron beam, and an anode for producing X-rays. When the X-ray source is in operation, the anode is present in a vapor phase, wherein the vaporous anode may be produced by evaporating a stock of anode material present in a condensed phase by exposure to the electron beam. A method for producing X-rays is also provided, in which inside of an outer housing of an X-ray, which may be evacuated, a vaporous anode is continuously formed by bombarding the anode material that is present in a condensed phase with an electron beam. The vaporous anode emits X-rays by interaction with the electron beam. | 2016-04-28 |
20160120013 | PLASMA GENERATION APPARATUS - A plasma generation apparatus includes a flow path tube through which a liquid flows and which includes a concave portion and/or a convex portion on an internal wall surface thereof, a liquid feed device, a first electrode, a second electrode, a power source, and a control circuit which controls the liquid feed device and the power source. The concave portion and/or the convex portion causes, when the liquid flows therethrough, a pressure difference to be generated between at least part of the inside of the flow path tube and the external space, allowing a gas to be introduced into the liquid from the external space through a gas introduction path. The power source applies a predetermined voltage between the first electrode and the second electrode in a state in which a bubble containing the gas is generated in the liquid. | 2016-04-28 |
20160120014 | SINGLE OR MULTI-PART INSULATING COMPONENT FOR A PLASMA TORCH, PARTICULARLY A PLASMA CUTTING TORCH, AND ASSEMBLIES AND PLASMA TORCHES HAVING THE SAME - The invention relates to a single or multipart insulating component for a plasma torch, particularly a plasma cutting torch, for electrical insulation between at least two electrically conductive components of the plasma torch, characterized in that the insulating component consists of an electrically non-conductive and easily thermally conductive material, or at least one part thereof consists of an electrically non-conductive and easily thermally conductive material. The invention further relates to assemblies and plasma torches having the same and to a method for processing, plasma cutting and plasma welding. | 2016-04-28 |
20160120015 | ELECTRODE-SUPPORTING ASSEMBLY FOR CONTACT-START PLASMA ARC TORCH - An electrode-supporting assembly for a contact-start plasma arc torch has an insulator that partially houses an electrode, and employs a spring-loaded plunger to bias the electrode to a forward position. The spring is engaged between the plunger and a contact element attached to the insulator, and may conduct electrical current to the electrode. The plunger, spring, and contact element are retained in the insulator when the torch is opened to replace the electrode, which is a consumable part. The electrode and the plunger have axially-engagable mating surfaces to assure good thermal and electrical conductivity therebetween. Conductivity can be further enhanced by forming the plunger of silver or a silver-bearing alloy. In some embodiments, a passage through the insulator is partitioned into forward and rear chambers, with the plunger, spring, and contact element trapped in the rear chamber. | 2016-04-28 |
20160120016 | LOW-POWER, COMPACT PIEZOELECTRIC PARTICLE EMISSION - A low-power, compact piezoelectric particle emitter for emitting particles such as X-rays and neutrons. A piezoelectric transformer crystal receives an input voltage at an input end and generates a higher output voltage at an output electrode disposed at an output end. The emitter is in a vacuum and the output voltage creates an electric field. A charged particle source is positioned relative a target such that charged particles from the charged particle source are accelerated by the electric field toward the target. Interaction between the accelerated charged particles and the target causes one of X-rays and neutrons to be emitted. | 2016-04-28 |
20160120017 | Copper Heat Dissipation Material, Carrier-Attached Copper Foil, Connector, Terminal, Laminate, Shield Material, Printed-Wiring Board, Metal Processed Member, Electronic Device and Method for Manufacturing the Printed Wiring Board - A copper heat dissipation material having a satisfactory heat dissipation performance is provided. The copper heat dissipation material has an alloy layer containing at least one metal selected from Cu, Co, Ni, W, P, Zn, Cr, Fe, Sn and Mo on one or both surfaces, in which surface roughness Sz of the one or both surfaces, measured by a laser microscope using laser light of 405 nm in wavelength, is 5 μm or more. | 2016-04-28 |
20160120018 | MULTI-LAYER PRINTED CIRCUIT BOARDS SUITABLE FOR LAYER REDUCTION DESIGN - A multi-layer printed circuit board comprises: at least two insulation layers, respectively having glass fiber cloth and cured resin covering thereon, the insulation layers being stacked on each other; an internal trace layer formed between two neighboring insulation layers; and an external trace layer formed on an outer surface of the outermost insulation layer; wherein the insulation layers have a dielectric constant of 3.4 or less, and the internal and external trace layers have a trace width between 40 and 75 micrometers, such that the multi-layer printed circuit board has a characteristic impedance between 45 and 55 Ω in single-ended signaling and between 90 and 110 Ω in differential signaling. | 2016-04-28 |
20160120019 | CIRCUIT BOARD ASSEMBLY ADAPTED FOR FLUID COOLING - A circuit board assembly, such as a motherboard, graphics card, sound card, or network card, can be adapted for fluid cooling. The circuit board assembly can include a processor electrically connected to a printed circuit board. The circuit board assembly can include a cooling line assembly with an inlet fitting, an outlet fitting, and a heat sink module fluidly connected between the inlet and outlet fittings by sections of tubing. The heat sink module can be mounted on a surface to be cooled that is a surface of, or a surface in thermal communication with, the processor. When fluidly connected to a cooling system, coolant flowing through the cooling line assembly can flow through a plurality of orifices in the heat sink module forming a plurality of jet streams that are projected against the surface to be cooled, resulting in heat transferring from the processor to the flowing coolant. | 2016-04-28 |
20160120020 | ROBOT - A robot includes: a first member; a second member which is provided to be movable with respect to the first member; a connection wiring which is disposed on the first member; and a wiring board which is a flexible printed wiring board which includes a board wiring line connected to the connection wiring and is deformed according to movement of the second member with respect to the first member, in which the characteristic impedance of the connection wiring is included in a change range of the characteristic impedance of the board wiring line corresponding to the deformation of the wiring board. | 2016-04-28 |
20160120021 | ROBOT - A robot includes: a wiring board which is a flexible printed wiring board including a first board wiring line through which current having a first frequency flows in a wiring direction and a second board wiring line through which current having a second frequency which is a frequency smaller than the first frequency flows in the wiring direction; and a shield board which is a flexible printed wiring board including a conductor and which is overlapped with the wiring board in a thickness direction, in which, in an orthogonal direction which is orthogonal to the wiring direction and the thickness direction, a first conductor edge which is one end portion of the conductor, the first board wiring line, the second board wiring line, a second conductor edge which is another end portion of the conductor are lined in this order, and a distance from the second conductor edge to the second board wiring line is shorter than a distance from the first conductor edge to the first board wiring line. | 2016-04-28 |
20160120022 | FLEXIBLE DISPLAY APPARATUS HAVING A ROLLABLE DISPLAY PANEL - A flexible display apparatus having a rollable display panel includes a case having an opening portion formed therein, a first roller rotatably provided inside the case, a display portion provided on the first roller to be wound around the first roller or released from the first roller, and a rotatable guide portion provided inside the case to guide the display portion by radially bending the display portion at least one time during a movement of the display portion. | 2016-04-28 |
20160120023 | ROLLABLE DISPLAY DEVICE, METHOD OF MANUFACTURING THE SAME, AND FLEXIBLE DISPLAY DEVICE - A rollable display device includes a flexible display panel, a housing, a grip part, and a connection part. The flexible display panel is configured to display an image. The flexible display panel is rolled and kept inside the housing. The grip part extends the flexible display panel from the housing to expose the flexible display panel to the outside of the housing. The connection part is between the flexible display panel and the grip part to connect the flexible display panel and the grip part. The connection part is not configured to display the image. | 2016-04-28 |
20160120024 | Linear Conductor Connection Terminal - A linear conductor connection terminal that is fixed to a substrate and that comes in contact in a conductive manner with a linear conductor that is inserted in a hole portion provided in the substrate. The linear conductor connection terminal includes a contact portion that is positioned inside the hole portion and that comes in contact in the hole portion with the linear conductor in a conductive manner; an elastic piece that elastically supports the contact portion; a top surface portion provided so as to be spaced apart from the contact portion in an insertion direction of the linear conductor, the top surface portion including an insertion hole to introduce the linear conductor to the contact portion; and a first leg portion and a second leg portion that support the top surface portion that is spaced apart from the contact portion. | 2016-04-28 |
20160120025 | PRINTED CIRCUIT BOARD AND MANUFACTURING METHOD THEREOF - There are provided a printed circuit board and a manufacturing method thereof. The printed circuit board includes: a core layer having a cavity provided therein; an electronic component included in the cavity; a conductive partition disposed on a side of the cavity; and insulating layers disposed on and below the core layer. | 2016-04-28 |
20160120026 | CIRCUIT BOARD, ELECTRONIC COMPONENT HOUSING PACKAGE, AND ELECTRONIC DEVICE - This circuit board includes a plate body made of a dielectric body and having a front surface and a back surface, a differential signal line formed on the front surface, the differential signal line being made of a pair of signal lines, and a ground conductor formed on the back surface. The signal lines include: terminals formed at a distance from the ground conductor, in an end portion at a prescribed distance from one end of the back surface; connection pads connected to the terminals and provided on the end portion of the front surface so as to be opposed to the terminals; transmission line units extending from the connections pads; and a widened portion provided in a position on the transmission line units corresponding to a space between the terminal and the ground conductor, the widened portion having a line width greater than that of the transmission line units. | 2016-04-28 |
20160120027 | MULTILAYER CERAMIC ELECTRONIC COMPONENT AND BOARD HAVING THE SAME - A multilayer ceramic electronic component including: a multilayer ceramic capacitor (MLCC) including first and second external electrodes extended from both side surfaces of the ceramic body in a width direction of the ceramic body onto portions of a mounting surface of the multilayer cermic capacitor, respectively; and an interposer substrate on which the first and second external electrodes are mounted, and having an elongated groove formed in a length direction of the interposer substrate intersecting the first and second external electrodes. | 2016-04-28 |
20160120028 | APPLIANCE USING COLORED MATERIAL FOR APPEARANCE OF DESIRED COLOR LIGHT ON USER INTERFACE - The present invention provides a cooktop appliance with features for correcting the color of light passing through the cooking surface such that the light appears a desired to a user of the cooktop appliance. More specifically, a colored translucent ink may be applied to a light transmissive layer of a user interface assembly such that light passing through the ink and the cooking surface appears a desired color to the user. | 2016-04-28 |
20160120029 | FLEXIBLE SUBSTRATE - There is provided a flexible substrate having excellent flexibility and gas barrier properties. A flexible substrate | 2016-04-28 |
20160120030 | PRINTED CIRCUIT BOARD AND LIGHTING UNIT INCLUDING THE SAME - Provided are a printed circuit board a lighting unit including the printed circuit board, the printed circuit board including: a metal substrate; a light emitting element disposed on the metal substrate; and a wiring portion disposed between the light emitting element and the metal substrate. | 2016-04-28 |
20160120031 | SEMICONDUCTOR PACKAGE WITH DUAL SECOND LEVEL ELECTRICAL INTERCONNECTIONS - A semiconductor package such as a multi-chip package is disclosed. The semiconductor package may be configured for dual second level interconnection onto a printed circuit board of a host device. Thus, a single semiconductor package may be used on host printed circuit boards having different configurations. | 2016-04-28 |
20160120032 | PACKAGE FRAME AND METHOD OF MANUFACTURING SEMICONDUCTOR PACKAGE USING THE SAME - A package frame includes a plurality of unit regions disposed on one surface of the package frame, a peripheral region surrounding the unit regions on the one surface, and a wrinkled structure disposed on the one surface in the peripheral region. A first surface of the wrinkled structure extends from the one surface and is disposed at a different level than the one surface. Each of the unit regions includes a plurality of conductive pads. | 2016-04-28 |
20160120033 | PRINTED WIRING BOARD - A printed wiring board includes a substrate, a first conductor layer formed on first surface of the substrate, a second conductor layer formed on second surface of the substrate, a through-hole conductor penetrating through the substrate and connecting the first and second conductor layers, a build-up layer formed on the second surface of the substrate and including conductor layers, insulating layers and via conductors, and a first insulating layer formed on the first surface the substrate and covering the first conductor layer. The substrate has a cavity penetrating through the first insulating layer and substrate and exposing the build-up layer on the substrate, the via conductors include a lowermost via conductor having a bottom portion exposed at bottom of the cavity, and the bottom portion of the lowermost via conductor is recessed relative to surface of a lowermost insulating layer in the build-up layer at the bottom of the cavity. | 2016-04-28 |
20160120034 | SGS OR GSGSG PATTERN FOR SIGNAL TRANSMITTING CHANNEL, AND PCB ASSEMBLY, CHIP PACKAGE USING SUCH SGS OR GSGSG PATTERN - A printed circuit board (PCB) assembly includes a PCB having a core substrate, a plurality of conductive traces on a first surface of the PCB, and a ground layer on the second surface of the PCB. The conductive traces comprise a pair of differential signal traces. An intervening reference trace is disposed between the differential signal traces. A connector is disposed at one end of the plurality of conductive traces. A semiconductor package is mounted on the first surface at the other end of the plurality of conductive traces. | 2016-04-28 |
20160120035 | SYSTEMS AND METHODS FOR MOUNTING THE PRINTED WIRING ASSEMBLY TO THE HEADER ASSEMBLY OF A PRESSURE SENSOR - Systems and method for mounting the printed wiring assembly to the header assembly of a pressure sensor are provided. In at least one embodiment, the pressure sensor comprises: a header assembly; a printed wiring assembly having a pressure sensor mounted thereon; and, at least one substantially cylindrical member that mechanically couples the printed wiring assembly to the header assembly. The substantially cylindrical member has a substantially hollow core, a substantially circular first end attached to the header assembly, a substantially circular second end opposite the substantially circular first end, and at least one side extending from the substantially circular first end to the substantially circular second end of the cylindrical member. Furthermore, the substantially circular second end or the at least one side or both are attached to the printed wiring assembly. | 2016-04-28 |
20160120036 | Method for Producing Portable Data Carriers - A method for producing a portable data carrier includes a spatial structure printed on a first foil. Electroconductive lines are applied first, and components are subsequently inserted in the structure, wherein the structure corresponds to the dimensions or the shape and size of the inserted components. The components are electroconductively connected to the lines therein. A cover is printed over the components. A second foil can be applied to the cover, wherein a design print can be applied to both foils. A gap can be incorporated in the structure and the foils, in order to insert a chip module. | 2016-04-28 |
20160120037 | COMPONENT MOUNTING APPARATUS - A component mounting apparatus includes a carriage that holds a part feeder for supplying a component in a state of being attached to a base and attaches the part feeder to the base in a state of being coupled to the base; a mounting head that mounts the component to a substrate after the component is taken out of the part feeder held by the carriage coupled to the base through an opening formed between the base and a cover member formed so as to cover an upward side of the base; and a shutter moved from an opened position in which the opening is opened to a closed position in which the opening is closed when the carriage is separated from the base. | 2016-04-28 |
20160120038 | Method for producing a switching device with a moisture-tight and electrically insulating cover and for producing an arrangement therewith - A method for producing a power electronic switching device comprising a substrate, having a power semiconductor component arranged thereon; a connection device, and terminal devices. The method comprises: Providing the substrate with an insulation ply and conductor tracks electrically insulated from one another, wherein a power semiconductor component is arranged on a conductor track and is cohesively connected thereto; Arranging the connection device embodied as a film stack; Arranging a thin pressure- and temperature-resistant and moisture-blocking insulation layer along a surface contour of the connection device and comprising a covering section and an overlap section, which overlaps the connection device circumferentially and covers the substrate in a circumferential contact region; Cohesively connecting the connection device to the substrate, whereby the connection device connects the switching device in a circuit-conforming manner internally; Connecting the covering section to the connection device; Connecting the overlap section to the contact region. | 2016-04-28 |
20160120039 | METHOD OF MANUFACTURING PRINTED-CIRCUIT BOARD ASSEMBLY - A method is provided for manufacturing a printed circuit board assembly. A method includes applying a liquefied radiant-heat material on a heating component mounted on the printed circuit board; mounting a shield unit on the printed circuit board in contact with the liquefied radiant-heat material; and simultaneously curing the liquefied radiant-heat material and bonding the shield unit. | 2016-04-28 |
20160120040 | Fabrication of Intra-Structure Conductive Traces and Interconnects for Three-Dimensional Manufactured Structures - A method for forming a three-dimensional object with at least one conductive trace comprises providing an intermediate structure that is generated (e.g., additively or subtractively generated) from a first material in accordance with a model design of the three-dimensional object. The intermediate structure may have at least one predefined location for the at least one conductive trace. The model design includes the at least one predefined location. Next, the at least one conductive trace may be generated adjacent to the at least one predefined location of the intermediate structure. The at least one conductive trace may be formed of a second material that has an electrical and/or thermal conductivity that is greater than the first material. | 2016-04-28 |
20160120041 | DISPLAY APPARATUS - A display apparatus including a cabinet, a display panel disposed on a rear side of the cabinet to display an image toward a front side of the cabinet, a backlight unit disposed on a rear side of the display panel to provide light onto the display panel, a bottom cover disposed on a rear side of the backlight unit, the bottom cover being coupled to the cabinet to package the display panel and the backlight unit, a main board disposed on a rear side of the bottom cover, the main board being disposed away from a center of a back surface of the bottom cover, and a back cover covering the main board, the back cover being coupled to the bottom cover to partially cover the bottom cover. | 2016-04-28 |
20160120042 | Slidable Engagement of Enclosure Housings - An enclosure having a first and second housing. The housings are slidably engaged along a first axis to form the enclosure. In one example, a compressed resilient member urges the housings together. | 2016-04-28 |
20160120043 | DISPLAY APPARATUS - Disclosed herein is a display apparatus capable of implementing to be slim and lightweight. The display apparatus includes a display panel for displaying an image; a bottom chassis disposed in a rear of the display panel; and wherein the bottom chassis is formed with a panel including a plastic core and a planar material stacked on a side of the plastic core. | 2016-04-28 |
20160120044 | ELECTRONIC CONTROL UNIT AND PROTECTIVE CASE - An electronic control unit includes a plate-shaped control board, a long pillar-shaped battery pack, a fixing frame that includes a juxtaposing and mounting part, to which the control board and the battery pack are fixed, and a housing that includes an opening portion and a back side holding portion to accommodate the control board and the battery pack. The juxtaposing and mounting part is inserted into the opening portion. The fixing frame is fixed to the opening portion. The back side holding portion holds the juxtaposing and mounting part at an inner back side of the housing opposed to the opening portion. The back side holding portion includes a protruding portion protruding toward the opening portion at a position away from a bottom surface of the housing on the inner back side of the housing. The juxtaposing and mounting part includes a tip portion in a direction of the insertion of the juxtaposing and mounting part into the housing. The tip portion has a curved shape that is urged from its upper side by a lower surface of the protruding portion and that is urged from its lower side by the bottom surface of the housing on the inner back side of the housing. | 2016-04-28 |
20160120045 | DISPLAY DEVICE - A display device includes a display panel, a top chassis partially surrounding a top surface of the display panel and having first and second inserting holes, a bottom chassis configured to accommodate the display panel and having third and fourth inserting holes, and at least one fixing member extending through the third inserting hole, the first inserting hole, the second inserting hole and the fourth inserting hole to thereby couple the bottom chassis and the top chassis to each other. | 2016-04-28 |
20160120046 | HOUSING, ELECTRONIC DEVICE USING SAME, AND METHOD FOR MAKING SAME - A housing includes a base. The base has a number of main portions separated by one or more portions having a number of openings formed therein. Each of the number of openings has a metal strip therebetween thereby forming a series of openings and metal strips. Each of the openings has non-conductive members being formed therein. The metal strips are fixed together by the non-conductive members to form a metal strip assembly. The metal strips and the main portions are fixed together by the non-conductive members. | 2016-04-28 |
20160120047 | ELECTRONIC DEVICE WITH CONCEALED COUPLING MEMBER - An electronic device with a concealed coupling member includes a first shell, a second shell, and at least one locking mechanism. The first shell includes a sidewall with a first through hole. Each locking mechanism includes a chassis, a screw, a first coupling portion, and a second coupling portion. The first coupling portion defines a second through hole, the second coupling portion defines a third through hole. The first through hole can communicate with the second through hole and the third through hole. The screw passes through the third through hole and the second through hole to couple the first shell to the second shell. | 2016-04-28 |
20160120048 | WEARABLE ELECTRONIC DEVICE - A wearable electronic device is provided. The wearable electronic device includes a main body and a wearing unit that allows the main body to be worn on a user's body. The wearing unit may include a first wearing member extending from the main body, a binding member coupled to the first wearing member to be moved in a longitudinal direction of the first wearing member, and a driving member installed in the first wearing member to move the binding member. | 2016-04-28 |
20160120049 | A RETAINING DEVICE FOR POWER DISTRIBUTION UNIT - In the disclosure a retaining device ( | 2016-04-28 |
20160120050 | MULTI-DIRECTIONAL DISPLAY DEVICE - A multi-directional display device includes a base body, a support frame, and a display module. The base body includes a first rotatable module. The support frame is movably disposed on the base body via the first rotatable module. The support frame has a first viewable position and a second viewable position. The support frame is rotatable between the first and the second viewable position. The support frame includes a second rotatable module. The display module is rotatably disposed on the support frame via the second rotatable module. When the support frame rotates between the first and the second viewing positions, the display module is rotatable on the support frame and a display surface of the display module faces outward with respect to the base body. | 2016-04-28 |
20160120051 | PACKAGE, MANUFACTURING METHOD OF PACKAGE, ELECTRONIC DEVICE, ELECTRONIC APPARATUS, AND MOVING OBJECT - A package includes a package base, a lid that is disposed to overlap the package base in a plan view when viewed in a thickness direction of the package base and has light permeability, and low melting point glass that is disposed between the package base and the lid, and bonds the package base and the lid, in which the low melting point glass has a region of which a width in a cross section along the thickness direction is widened toward a bonding surface of the lid. | 2016-04-28 |
20160120052 | CASING OF ELECTRONIC DEVICE - A casing of an electronic device including a metallic housing and a first non-conductive spacer is provided. The metallic housing has an inner surface and an outer surface opposite to the inner surface, the outer surface of the metallic housing is dyed, the inner surface is substantially a recessed structure, and the metallic housing has a first gap communicating the inner surface and the outer surface, wherein the metallic housing further comprises at least one connecting terminal. The first non-conductive spacer, disposed in the first gap of the metallic housing. | 2016-04-28 |
20160120053 | STORAGE AND PROTECTION CASE FOR A THUMB DRIVE - A storage device and method for storing, protecting, and cataloging a thumb drive. | 2016-04-28 |
20160120054 | FUNCTIONAL PANEL, METHOD FOR MANUFACTURING THE SAME, MODULE, DATA PROCESSING DEVICE - A novel, highly convenient or reliable functional panel is provided. A novel, highly convenient or reliable method for manufacturing a functional panel is provided. The functional panel includes a first base; a second base having a region overlapping with the first base; a bonding layer that bonds the first base to the second base; and an insulating layer in contact with the first base, the second base, and the bonding layer. With this structure, an opening which is formed easily in a region where the bonding layer is in contact with the first base or the second base can be filled with the insulating layer, which can prevent impurities from being diffused into the functional layer located in a region surrounded by the first base, the second base, and the bonding layer that bonds the first base to the second base. | 2016-04-28 |
20160120055 | Fixing Structure Applicable To Multiple Sizes Of Storage Device - A fixing structure applicable to multiple sizes of storage device includes an enclosure, which has an interior forming an accommodation space that receives a storage device of one of the multiple sizes to be inserted into the enclosure. The enclosure includes, in an upper portion of the interior thereof, at least one spring-biasing section, which applies a spring force to an upper surface of the storage device opposite thereto for positioning in a longitudinal direction. The enclosure includes therein positioning sections and retention sections respectively set on opposite lateral sides thereof for cooperating with lateral sides of the storage device for positioning in a lateral direction. A lid has an inside surface on which a supporting section is formed so that when the lid is mounted to and closing a front side of the enclosure, the supporting section is in engagement with the storage device to secure the storage device. | 2016-04-28 |
20160120056 | Board Assembly, Communications System, Ejector Lever, and Ejector Lever Unlocking Method - An ejector lever includes a lever body and an unlocking mechanism, where the unlocking mechanism includes an unlocking hook and a safety latch, the unlocking hook is rotatably connected to the lever body using a first rotating shaft, and the safety latch is rotatably connected to the lever body using a second rotating shaft. The unlocking hook is provided with a first end and a second end, the first end is opposite to the second end across the first rotating shaft, the first end is provided with a hook, the second end is provided with a first abutting part, the safety latch is provided with a second abutting part, and the first abutting part is in contact with the second abutting part; and the second abutting part is configured to apply first force on the first abutting part when the safety latch rotates around the second rotating shaft. | 2016-04-28 |
20160120057 | COUPLING FRAME AND METHODS FOR MAKING THE SAME - A coupling frame to provide structural support and electrical functionality includes a plurality of conductive frames spaced from each other and having predetermined gaps. A plurality of conductive sheets are electrically connected to the different places of the inside surface of the conductive frames and an insulating frame fills in the predetermined gaps. Each conductive frame and the insulating frame are annular structures. The insulating frame extends inwardly to partially cover the plurality of conductive sheets. A method for making the coupling frame is also provided. | 2016-04-28 |
20160120058 | FLUID DISTRIBUTION UNIT FOR TWO-PHASE COOLING SYSTEM - A fluid distribution unit for a two-phase cooling system can include a reservoir configured to receive a two-phase flow of dielectric coolant. A first pump can be fluidly connected to a supply line extending from the reservoir. A heat rejection loop can be fluidly connected to the reservoir. The heat rejection loop can include a heat exchanger and a second pump. The second pump can be configured to circulate a flow of single-phase liquid coolant from the reservoir, through the heat exchanger, and back to the reservoir. | 2016-04-28 |
20160120059 | TWO-PHASE COOLING SYSTEM - A two-phase cooling system can include a primary cooling loop and a heat rejection loop. The primary cooling loop can include a reservoir, a first pump fluidly connected to the primary cooling loop downstream of the reservoir, and a heat sink module fluidly connected to the primary cooling loop downstream of the first pump and upstream of the reservoir. The first pump can draw dielectric coolant from the reservoir and provide a primary flow of pressurized dielectric coolant through the primary cooling loop, with a first portion flowing through the heat sink module and a second portion flowing through a bypass. The heat rejection loop can be fluidly connected to the same reservoir and can include a second pump and a heat exchanger. The second pump can draw dielectric coolant from the reservoir and provide a secondary flow of pressurized coolant through the heat exchanger and back to the reservoir. | 2016-04-28 |
20160120060 | PRINTED CIRCUIT BOARD, ELECTRONIC MODULE AND METHOD OF MANUFACTURING THE SAME - A printed circuit board, an electronic module and a method of manufacturing the printed circuit board are provided. The printed circuit board includes a plurality of insulation layers, metal layers formed on the plurality of insulation layers, a via formed for interlayer electrical connection of the metal layers, a trench penetrating the insulation layers, and a heat-transfer structure formed in the trench. | 2016-04-28 |
20160120061 | ELECTRONIC APPARATUS - A plurality of vent perforations are formed on a side face of an electronic apparatus and communicate the inside and the outside of the electronic apparatus with each other therethrough. The electronic apparatus includes a fan which sucks or discharges air through the plurality of vent perforations. A groove is formed on the side face of the electronic apparatus and extends in a forward and rearward direction. The plurality of vent holes are formed on an inner face of the groove of the side face. With the structure, the vent holes can be suppressed from being closed up when the electronic apparatus is placed vertically, and the drop of the ventilation efficiency can be suppressed. | 2016-04-28 |
20160120062 | Network Device - A network device includes a shelf in which a first accommodation area, a second accommodation area, a first channel, and a second channel are disposed. A third channel is formed between adjacent rear board modules or between the rear board module and the shelf. A first fan and a second fan are both disposed at a rear end of the shelf, the first fan faces the third channel, and the second fan faces the second channel. A first airflow sequentially passes, from a front end of the shelf, through the front board module in the first accommodation area, the third channel, and the first fan to form a first heat dissipation channel. A second airflow sequentially passes through the inside of the rear board module, the second channel, and the second fan after entering the first channel from the outside of the shelf to form a second heat dissipation channel. | 2016-04-28 |
20160120063 | LIQUID COOLING SYSTEM HAVING HEAT DISSIPATION FINS THEREIN - A liquid cooling system includes a liquid cooling radiator, a circulation device, and a plurality of circulation pipes coupling the circulation device with the liquid cooling radiator. A liquid circulation channel is defined in the liquid cooling radiator. A plurality of heat dissipation fins are arranged in the liquid circulation channel. The circulation device drives a liquid coolant through the liquid cooling radiator via the liquid circulation channel to make a heat exchange circulation. | 2016-04-28 |
20160120064 | REDUNDANT HEAT SINK MODULE - A redundant heat sink module can include a first independent coolant pathway and a second independent coolant pathway. The first independent coolant pathway can include a first inlet chamber, a first outlet chamber, and a first plurality of orifices extending from the first inlet chamber to the first outlet chamber and providing a first plurality of impinging jet streams of coolant against a first region of a surface to be cooled when pressurized coolant is provided to the first inlet chamber. The second independent coolant pathway can include a second inlet chamber, a second outlet chamber, and a second plurality of orifices extending from the second inlet chamber to the second outlet chamber and providing a second plurality of impinging jet streams of coolant against a second region of the surface to be cooled when pressurized coolant is provided to the second inlet chamber. | 2016-04-28 |
20160120065 | MANIFOLD FOR A COOLING SYSTEM - A manifold can convey and distribute fluid within a cooling system. The manifold can include an inlet chamber and an outlet chamber. A first plurality of quick-connect fittings can fluidly connect to the inlet chamber, and a second plurality of quick-connect fittings can fluidly connect to the outlet chamber. The quick-connect fittings can allow one or more cooling line assemblies to be rapidly connected between the inlet chamber and the outlet chamber. The manifold can include a bypass fluidly connecting the inlet chamber to the outlet chamber. A valve can be positioned in the bypass. The valve can control a flow of pressurized coolant from the inlet chamber to the outlet chamber through the bypass to maintain a desired pressure differential between the inlet chamber and the outlet chamber. The valve can be a differential pressure bypass valve. | 2016-04-28 |
20160120066 | PLANAR HEAT CUP WITH CONFINED RESERVOIR FOR ELECTRONIC POWER COMPONENT - A cooling system for cooling an electronic component has a heat pipe defined by an inner wall and an outer wall with an intermediate fluid chamber. The heat pipe has a wall to be put in contact with a cold plate and extends away from the cold plate to define a cup shape with a fluid movement member positioned within the chamber to move the fluid from an end of the chamber adjacent to the cold plate to a spaced end of the cup shape. | 2016-04-28 |
20160120067 | SYSTEM AND METHODS FOR COOLING ELECTRONIC EQUIPMENT - Systems and methods for cooling an inverter of a variable frequency drive that drives a compressor in a cooling system for electronic equipment are disclosed. The system includes a first fluid circuit that cools electronic equipment using a first fluid flowing therethrough and a second fluid circuit that free cools a second fluid flowing therethrough. The second fluid circuit cools the first fluid using the free-cooled second fluid. The system further includes a third fluid circuit that mechanically cools the second fluid using a third fluid flowing therethrough as a function of the wet bulb temperature of atmospheric air. The third fluid circuit includes at least one compressor compresses the third fluid and is driven by a motor coupled to the variable frequency drive. At least a portion of the first fluid flowing through the third fluid circuit is diverted to cool the inverter of the variable frequency drive. | 2016-04-28 |
20160120068 | HEAT SPREADING TAPE - The present invention provides a heat spreading tape including at least one heat spreading layer adapted for heat dissipation and at least one heat insulating layer adhesively attached to the heat spreading layer. Void regions are formed in the at least one heat insulating layer and are adapted for acting as heat transfer barriers in a direction perpendicular to the major surfaces of the heat spreading tape, i.e. the thickness tape. | 2016-04-28 |
20160120069 | DRIVE UNIT - A drive unit for driving a motor has a component assembly including a main circuit board having a component side and a solder side, one or more main circuit conductors formed in at least one layer of the main circuit board, a power component module including one or more power components, the power component module having electrical connection terminals for connecting the power component(s) to the one or more main circuit conductors of the main circuit board and a cooling plate coupled to the power component(s) in a manner enabling transfer of heat from the power component(s) to the cooling plate. The power component module is mounted to the component side of the main circuit board. The component assembly further includes a heat sink mounted on the cooling plate and a fan mounted on the heat sink. | 2016-04-28 |
20160120070 | DATA CENTER PRESSURE ANOMALY DETECTION AND REMEDIATION - A system is described that can detect pressure anomalies within a data center, generate an alert when anomalies are detected, and initiate remediative actions. The system monitors each of a plurality of fans used to dissipate heat generated by one or more servers to obtain data that indicates how an actual speed of each of the fans relates to a target speed thereof. The system compares the obtained data to reference data that indicates, for each of the plurality of fans, how an actual speed of the fan relates to a target speed thereof in a substantially pressure-neutral environment. Based on the comparison, the system determines whether or not a pressure anomaly exists. If the system determines that a pressure anomaly exists, then the system may perform various actions such as generating an alert and modifying a manner of operation of one or more of the fans or servers. | 2016-04-28 |
20160120071 | SERVER WITH COOLING LINE ASSEMBLY - A server can include a cooling line assembly to provide fluid cooling of one or more server components. The server can include a chassis, a circuit board positioned within the chassis, and a processor electrically connected to the circuit board. The cooling line assembly can include a heat sink module on a surface to be cooled that is in thermal communication with the processor. The heat sink module can include an inlet port fluidly connected to an inlet chamber, a plurality of orifices fluidly connecting the inlet chamber to an outlet chamber, and an outlet port fluidly connected to the outlet chamber. The orifices can deliver jet streams of coolant into the first outlet chamber and against the surface to be cooled when pressurized coolant is provided to the inlet chamber of the heat sink module. | 2016-04-28 |
20160120072 | SERVER RACK-DEDICATED VERTICAL VORTEX AIRFLOW SERVER COOLING - A vortex-producing fan controller uses a variable-speed vortex-producing fan to create a helical airflow within a server rack that couples with cooled air entering a data center through a floor opening situated near a bottom of the server rack and that draws the cooled air up through the server rack in a helical pattern. An input air temperature of air entering the variable-speed vortex-producing fan is measured using readings from a fan input air temperature sensor positioned above the server rack. A speed of the variable-speed vortex-producing fan and a flow rate of the cooled air coupled within the helical airflow up through the server rack are adjusted responsive to changes in the input air temperature of the air entering the variable-speed vortex-producing fan. | 2016-04-28 |
20160120073 | SERVER RACK-DEDICATED VERTICAL VORTEX AIRFLOW SERVER COOLING - A vortex-producing fan controller uses a variable-speed vortex-producing fan to create a helical airflow within a server rack that couples with cooled air entering a data center through a floor opening situated near a bottom of the server rack and that draws the cooled air up through the server rack in a helical pattern. An input air temperature of air entering the variable-speed vortex-producing fan is measured using readings from a fan input air temperature sensor positioned above the server rack. A speed of the variable-speed vortex-producing fan and a flow rate of the cooled air coupled within the helical airflow up through the server rack are adjusted responsive to changes in the input air temperature of the air entering the variable-speed vortex-producing fan. | 2016-04-28 |
20160120074 | SYSTEM TO INCREASE SERVER'S DENSITY IN DATACENTER - A system and method of forming the system. Rack containers include rack units stacked in a first direction that is parallel to a floor. Each rack unit has wheels positioned on a supporting structure on the floor which enables adjacent rack containers to move closer to or further from each other. The supporting structure is on the floor and is oriented in the second direction. The second direction is parallel to the floor and perpendicular to the first direction. A cooling conduit is secured on a top surface of each rack container to allow a cooling fluid to flow through a flexible tube into each rack container via the cooling conduit that encapsulates the flexible tube. | 2016-04-28 |
20160120075 | Electromagnetic Pulse Protected Hard Drive - A computer storage system protected from electromagnetic pulses is described. The storage system utilizes either a hard drive or a solid state drive to hold the data. The device uses fiber optics to transfer data and is powered by either a Power over Fiber system or by a switched battery system. The device protects against radiation, magnetic pulses, and electronic pulses using an enclosure that incorporates a faraday cage, a radiation shield, and/or a magnetic shield. | 2016-04-28 |
20160120076 | DISPLAY DEVICE - A display device includes a display panel unit having a noise generating source, and a metal frame to which the display panel unit is attached. The display panel unit is fixed to an attachment part which is provided at the frame. The frame includes a contact part that brings the display panel unit into contact with the frame, in addition to the attachment part. | 2016-04-28 |
20160120077 | ELECTROMAGNETIC WAVE SHIELD FILM, PRINTED WIRING BOARD USING SAME, AND ROLLED COPPER FOIL - An electromagnetic wave shield film in which peeling off between a metal thin film and an adhesive layer is prevented and a printed wiring board employing the electromagnetic wave shield are provided. An electromagnetic wave shield film is formed by laminating at least a metal thin film and an adhesive layer in order, and the water vapor permeability of the electromagnetic wave shield film according to JISK7129 is 0.5 g/m | 2016-04-28 |
20160120078 | FORMATION OF SYSTEM TO INCREASE SERVER'S DENSITY IN DATACENTER - A method for forming a system. Rack containers include rack units stacked in a first direction. Each rack unit has wheels and includes at least one heat generating device configured to generate heat while in operation. The wheels are positioned on a supporting structure on the floor which enables adjacent rack containers to move closer to or further from each other. A cooling conduit is secured on a top surface of each rack container to allow a cooling fluid to flow through a flexible tube into each rack container via the cooling conduit that encapsulates the flexible tube. The cooling fluid is configured to be heated by absorbing heat from the at least one heat generating device. The exhaust conduit is secured on the top surface of each rack container to allow the heated cooling fluid to be exhausted from each rack container via the exhaust conduit. | 2016-04-28 |
20160120079 | Conveyor Device for Printed Circuit Boards - The invention relates to a conveyor device for printed circuit boards ( | 2016-04-28 |
20160120080 | METHODS AND APPARATUS FOR MITIGATING ARC FLASH INCIDENT ENERGY IN MOTOR CONTROL DEVICES - Industrial motor control apparatus and techniques are presented for mitigating incident energy associated with an internal arcing. Interior enclosure surfaces and/or surfaces of electrical components are provided with textures and/or coatings which may be non-reflective with respect to visible and/or infrared light in order to redirect or absorb incident energy associated with internal arcing conditions. The electrical components are also arranged so as to substantially minimize the percentage of back wall exposure, and filler material and/or tile structures may be mounted within the enclosure, which may be non-reflective and/or have textured surfaces or coating layers to mitigate incident arcing energy. In addition, baffles or barriers may be provided within the enclosure to redirect or absorb incident energy from internal arcing. | 2016-04-28 |
20160120081 | NOZZLE MANAGEMENT SYSTEM - In a nozzle management system provided with multiple nozzle management devices, a control device includes a housed nozzle information acquisition section that acquires information related to all suction nozzles housed in multiple nozzle management devices, first determination section that determines whether all the required suction nozzles to be transferred to a nozzle tray are housed in a prescribed nozzle housing device, and a second determination section that determines whether non-housed suction nozzles which are not housed in the prescribed nozzle housing device from among the required suction nozzles are housed in another suction nozzle housing device. | 2016-04-28 |
20160120082 | 'A132-926' blueberry plant - A new and distinct low-chilling blueberry ( | 2016-04-28 |
20160120083 | Sweet orange tree named 'OLL-4' - A new and distinct sweet orange clone, ‘OLL-4’ was produced via embryonic callus (tissue culture) from an original tree selection (‘OLL’) from an abandoned USDA field trial. ‘OLL-4’ produces easy-to-peel, round oranges with excellent internal and external color. Trees of ‘OLL-4’ exhibit improved cold and drought tolerance over industry standard oranges, and do not seem to exhibit alternate bearing. | 2016-04-28 |
20160120084 | GRAPEVINE PLANT NAMED 'SUGRAFORTYFIVE' - A new and distinct grapevine variety ‘Sugrafortyfive’ is characterized by the production of a medium-sized, dark red berry with near black skin color and an ellipsoidal, elongated shape. The berries of ‘Sugrafortyfive’ ripen early and are firm and very juicy. The new variety ‘Sugrafortyfive’ has a similar harvest time as ‘Summer Royal’ (unpatented) but the shape of the berry of the new variety ‘Sugrafortyfive’ is ellipsoidal elongated compared to round for ‘Summer Royal’. | 2016-04-28 |
20160120085 | Polyspora plant named 'SaPaRuby' - A new and distinct | 2016-04-28 |
20160120086 | Daphne 'MonStrk' - A new and distinct | 2016-04-28 |
20160120087 | Mandevilla Plant Named 'FRI0613' - A new cultivar of | 2016-04-28 |
20160120088 | Phalaenopsis orchid Plant named 'Phaldasyh' - A new and distinct variety of | 2016-04-28 |
20160120089 | Phalaenopsis orchid plant named 'PHALDIQYK' - A new and distinct variety of | 2016-04-28 |
20160120090 | Vanda plant named SPCDW1403 - A new and distinct | 2016-04-28 |