US09438075B2
A motor stator of the invention is provided with a laminated stator core comprising a plurality of core pieces having teeth and linked by intermediate thin-wall portions. The thin-wall portions are bent to form the stator core into an annular shape with two ends of the stator core joined by welding, and slots are formed between adjoining pairs of the teeth. A welded portion of the stator core is not near a center line in a radial direction of any of the slots.
US09438072B2
A server includes a power module, a detection circuit, a switching circuit, at least one first electric component and at least one second electric component. The power module supplies a standby voltage under a standby mode and supplies a working voltage under a working mode. The detection circuit receives a working mode signal of the server to output a control signal. The working mode signal specifies that the server is under the standby mode or the working mode. The switching circuit is supplied with the working voltage, the standby voltage and a converted control signal generated by converting the control signal, to transfer either the working voltage or the standby voltage. The first electric component works under the working mode only. The second electric component works under the standby mode and the working mode.
US09438067B2
Provided is a wireless charging system having different wireless modes, the system comprising: a method of providing a coil having different charging modes in one set, which is performed by providing separate coils or providing a lead wire in the middle of one coil, when the coil having at least two different charging modes is provided in the one set in a receiver for the wireless charging system using non-contact magnetic induction, wherein when one charging mode is selected for one coil set, a status value of the coil for transmitting and receiving wireless power energy is detected, thereby enabling the one charging mode to be selected, and different charging modes is mounted in one wireless charging system so that a charging mode appropriate for optimum conditions can be selected according to states and charging conditions wireless power transmitting and receiving devices.
US09438062B2
A wireless electric power receiver for receiving wireless electric power from a wireless electric transmitter is provided. The wireless electric power receiver includes an electric power receiving unit that receives wireless electric power from the wireless electric power transmitter; a rectifying unit that rectifies wireless electric power in the form of alternating current output from the wireless electric power receiving unit and outputs rectified electric power; and an electric power regulation unit that receives an input of the rectified electric power, outputs first electric power which has a lower value of a first voltage than that of the rectified electric power for a first period, and does not output electric power for a second period, so as to output electric power with a predetermined voltage value.
US09438060B2
The inventive subject matter provides a circuit and a method for efficiently charging a battery. In one aspect of the invention, the circuit includes a constant current circuit configured to provide a direct current through the battery. The circuit also includes a pulsing current circuit that works with the constant current circuit and configured to simultaneously provide a series of pulsed current to the battery. In some embodiments, the series of current pulses includes constructive resonant ringing that is constructive with respect to the charging of the battery.
US09438058B2
An electronic device includes a communication control unit configured to perform an enumeration process, and a charging unit configured to charge a battery unit with power supplied from an external device. If a voltage of the battery unit is higher than a predetermined voltage, the communication control unit allows to perform the enumeration process with power supplied from the battery unit.
US09438041B2
A Dispatch Planner (DP) is a component in an Energy System Controller that controls the operation of energy resources interconnected into one energy system to provide optimal energy management for a customer. In one embodiment, the energy storage system includes an electric load, dispatchable sources of energy such as an electrical grid, diesel generators, combined heat and power generators; renewable sources of energy such as photo-voltaic cells and wind turbines; and stored energy resources such as electrochemical batteries or pumped hydro reserves.
US09438035B2
A solar array power generation system includes a solar array electrically connected to a control system. The solar array has a plurality of solar modules, each module having at least one DC/DC converter for converting the raw panel output to an optimized high voltage, low current output. In a further embodiment, each DC/DC converter requires a signal to enable power output of the solar modules.
US09438027B2
A power interruption circuit for use in a power distribution module is provided. The power interruption circuit is configured to provide power to a load and includes a shunt resistor, a plurality of switches, and microprocessor. The microprocessor is configured to determine a digitized value of a current flowing through the shunt resistor, determine a digitized value of an output voltage of the power interruption circuit, calculate, from the digitized current value and the digitized output voltage value, a power provided by the power interruption circuit to the load, compare the calculated power to a threshold power level, and control the plurality of switches based on the comparison.
US09438024B2
An isolator protection device can include a housing having at least one wall and a first coupling feature, where the at least one all forms a cavity, where the first coupling feature is configured to couple to an arrester, and where the at least one wall is configured to house an isolator body of an isolator within the cavity. The isolator protection device can also include a securing device disposed within the cavity, where the securing device is configured to secure a stud of the isolator to the isolator body during normal operating conditions.
US09438018B2
A junction box includes a box body, an upper cover, and a side cover. The box body has a side wall portion, an electric distribution portion, and a drain hole which is located at the inside of the side wall portion. The upper cover has a top panel and a down wall portion which are downwardly provided from the peripheral end of the top panel. The side cover has a terminal connected to the electric distribution portion and a case portion which covers the terminal. A drain groove is provided on an upper face of the case portion along the side wall portion. A downward slope is formed towards the drain hole on a bottom face of the drain groove.
US09438016B1
In one embodiment a wiring conduit comprises a body having a length extending along a longitudinal axis, the body comprising a plurality of interconnected sections defined by cutouts which extend through a portion of the body, wherein at least a portion of the body is removed along the longitudinal axis to define an opening extending along the length of the body. Other embodiments may be described.
US09438014B2
A modular electric power distribution system transmits power between a power source and control modules for power consumers. The system includes a power distribution unit mounted on each module and bridge assemblies which connect adjacent distribution units.
US09438011B2
Single-mode, distributed feedback interband cascade lasers (ICLs) using distributed-feedback gratings (e.g., lateral Bragg gratings) and methods of fabricating such ICLs are provided. The ICLs incorporate distributed-feedback gratings that are formed above the laser active region and adjacent the ridge waveguide (RWG) of the ICL. The ICLs may incorporate a double-ridge system comprising an optical confinement structure (e.g., a RWG) disposed above the laser active region that comprises the first ridge of the double ridge system, a DFB grating (e.g., lateral Bragg grating) disposed above the laser active region and adjacent the optical confinement structure, and an electric confinement structure that passes at least partially through the laser active region and that defines the boundary of the second ridge comprises and the termination of the DFB grating.
US09438005B1
A method of calibrating a tunable laser having a distributed Bragg reflector includes, aligning a reflection peak of the distributed Bragg reflector with a target cavity mode of a plurality of cavity modes defined by a total optical path length inside a resonant cavity of the tunable laser. The method includes aligning a resultant lasing mode with a target wavelength of an output wavelength grid. The resultant lasing mode is formed by alignment of the reflection peak of the distributed Bragg reflector with the target cavity mode. The method also includes setting a target output power and a target extinction ratio of the tunable laser.
US09437995B2
A lamp socket includes a first socket portion, a second socket portion, and a neck portion joining the first and the second socket portions. The first socket portion defines a first cylindrical volume proximate to an open end of the lamp socket. The second socket portion is concentric with the first socket portion and defines a second cylindrical volume distal from the open end of the lamp socket. The second socket portion has a smaller diameter than the first socket portion.
US09437987B1
A connecting structure for an earphone contains: a male connector and a female connector. The male connector includes a plug terminal and an insulation holder, the plug terminal has a locking portion adjacent to a bottom of the plug terminal, and the plug terminal has at least one protrusion extending outwardly from a peripheral side of the locking portion. The plug terminal is mounted in the insulation holder, and between the insulation holder and the plug terminal is defined an inserting groove. The female connector includes an insertion seat and a body. The body has a fixing portion inserted into the inserting groove, and the fixing portion has at least one alignment orifice corresponding to the at least one protrusion. The insertion seat is fixed in the body to electrically connect with the plug terminal.
US09437983B2
Electrical connection boxes for use in recreational vehicle and marine applications must be adapted for a variety of electrical services and electrical connection styles. In order to standardize electrical connection boxes for these uses, a plurality of positioning tabs may be mounted within the connection box to accommodate electrical connection receptacles of various sizes. Unused positioning tabs may be removed during assembly. Further standardization can be achieved through the use of gaskets adapted for use with power cords of different sizes but having common design features to mate with a common seating surface design.
US09437975B2
A crosstalk-proof receptacle connector has multiple insulative boards, multiple sets of terminals, multiple sets of shielding plates and an outer casing. The insulative boards are arranged abreast. The sets of the terminals are mounted respectively in the insulative boards. The terminals of each set are classified into signal terminals and grounding terminals. Each set of the shielding plates is mounted on one of two opposite sides of a corresponding insulative board. The shielding plates of each set are spaced apart without contacting one another. Each shielding plate has multiple folding sections capable of interrupting signal noise. The outer casing covers the insulative boards to combine the insulative boards. The sets of the shielding plates decrease signal interference of the receptacle connector and improve signal transmission efficiency and stability.
US09437973B2
A connector is receivable an object along a receiving direction. The connector ejects the object along an ejecting direction opposite to the receiving direction. The object has a mating terminal, a pressed portion and a regulated portion. The connector comprises a holding member, a terminal and an operation member. The operation member is supported by the holding member so as to be movable between a first position and a second position. The operation member includes a press portion and a regulating portion. When the operation member is operated to be moved from the first position toward the second position, the press portion presses the pressed portion in the ejecting direction to move the object in the ejecting direction. At the latest until the operation member reaches the second position, the regulating portion enters into an ejecting path to regulate a movement of the regulated portion in the ejecting direction so that the regulating portion prevents the object from being released off the connector in the ejecting direction. The ejecting path is a movement path on which the regulated portion passes when moved in the ejecting direction.
US09437971B2
A connector with a locking and unlocking mechanism is disclosed. The connector includes a case, a spring member and an unlocking member. The case includes a guiding groove, a narrow groove, a protrusion, a vertical stop wall and a latching groove. The spring member and the unlocking member are mounted the case. The unlocking member includes a guiding arm, a latching plate and a bending end. A vertical portion of the unlocking member is inserted between the spring member and the case. The guiding arm extends into the corresponding guiding groove. The latching plate enters into the latching groove. The bending end enters into the narrow groove and covers the protrusion. When a pulling portion is pulled back, the vertical portion compresses the spring member, the latching plate slides back along the latching groove, and the bending end moves back along the protrusion.
US09437967B2
An electromagnetic connector is disclosed that is configured to form a first magnetic circuit portion comprising multiple coils disposed about a first core member. The electromagnetic connector is configured to mate with a second electromagnetic connector that is configured to form a second magnetic circuit portion comprising a coil disposed about a second core member. When the electromagnetic connector is mated with the second electromagnetic connector, the first core member and the second core member are configured to couple the multiple coils of the electromagnetic connector to the coil of the second electromagnetic connector with a magnetic circuit formed from the first magnetic circuit portion and the second magnetic circuit portion. The magnetic circuit is configured to induce a signal in a first coil of the multiple coils and the coil of the second electromagnetic connector when a second coil of the multiple coils is energized.
US09437962B2
A waterproof adapter can provide a liquid-tight seal between a waterproof housing for a mobile electronic device and an accessory connector extending from an accessory device, such as a jack plug extending from a pair of headphones. The waterproof adapter can be an integral part of the accessory connector or can be installed on the accessory connector using, for example, a threaded or bayonet-style connection. In one example, the waterproof adapter can include an exterior gasket channel circumscribing an exterior surface of its body, an exterior gasket disposed at least partially within the exterior gasket channel, thereby permitting the waterproof adapter to provide a liquid-tight seal between a connector aperture in the waterproof housing and the accessory connector. When the accessory device is disconnected from the mobile electronic device, a port-sealing bung can be inserted into the connector aperture of the waterproof housing and can provide a liquid-tight seal therewith.
US09437961B1
An electrical power connector assembly includes a body having a housing portion and a connection portion; a coupling ring rotatably disposed on the body; and a power connector disposed within the housing portion of the body. The power connector is configured to form a mating engagement with another power connector having the same configuration. The coupling ring is configured to engage a connection portion of another electrical power connector assembly having the same configuration and the connection portion of the body is configured to be engaged by a coupling ring of the other electrical power connector assembly. The coupling ring and the connection portion of the body are configured to engage the connection portion and the coupling ring of the other electrical power connector assembly, respectively, to bring the power connectors together to complete the mating engagement between the power connectors.
US09437956B2
A waterproof connector has: at least one conductive contact; a metal shell interior of which the contact is disposed; and a housing made of an insulating resin material such that the housing fixes the contact and the shell to form an integral structure, the shell has an insertion port into which a counterpart connector is inserted on one side, and the housing is formed such that the shell is exposed at the outer circumference of and at the vicinity of the insertion port over a predetermined width in the length direction of the shell to form an outer circumferential exposure portion, and the outer circumferential exposure portion of the shell is disposed with a waterproof portion made of an elastic material.
US09437955B2
A connector for electrical supply of a unit of the hydraulics which can be arranged or is arranged at a casing of such unit. Thereby at least one current path penetrates a connector bottom of the connector and the connector bottom is sealed with a silicone-containing compound against penetrating moisture in an area of this passage. The compound is an adhesive having high adhesive forces. A casing of a unit of the hydraulics can include such connector. A method of sealing a connector bottom of a connector penetrated by a current path is disclosed via which connector a unit of the hydraulics is adapted to be electrically supplied, the method includes a step of sealing a passage of the current path through the connector bottom with silicone-containing adhesive.
US09437954B2
A configurable and modular probe device for electrical connections. The probe device has multiple blocks capable of inter-fitting into various layouts. Each block has four sidewalls. Two adjacent sidewalls have a protrusion and the respective opposite sidewalls have a cavity corresponding to the protrusion. The protrusion of one block can removably mate with the cavity of a neighboring block. Each block further has a central cavity extending from a top surface to a bottom surface of the block. A probe snugly fits into the central cavity.
US09437953B2
An electrical plug-in connector having a first housing part and having a second housing part, blade contact elements being arranged in the first or second housing part and spring contact elements being arranged in the second or first housing part which are adapted to the blade contacts and can be inserted therein, has a locking clip which, when it engages around the first or second housing part in a manner substantially parallel to the plug-in direction when the two housing parts are plugged into each other, can be locked in or on the second or first housing part.
US09437930B2
A circular polarized antenna structure is provided, including: an antenna having a main body, a protruding portion, and a stopping portion formed between the main body and the protruding portion; a base; a radiation conductor disposed on an upper surface of the base and having at least a first through hole formed above the via hole; a ground conductor disposed on a lower surface of the base and has at least a second through hole formed below the via hole; solder partially covering an end of the stopping portion opposing the main body and the first through hole; and colloid partially formed on the solder, the radiation conductor, and the upper surface of the base. The antenna penetrates the base, and the stopping portion abuts against the lower surface of the base, such that the antenna can be prevented from dropping due to the impact of an external force.
US09437924B2
An antenna structure includes a first radiating body and a second radiating body. The first radiating body includes a feed portion, a first ground portion, a first extending portion, a second extending portion, and a third extending portion. The feed portion is electronically connected to the first ground portion. The first extending portion is electronically connected to the feed portion. The second extending portion is perpendicularly connected between the first extending portion and the third extending portion. The second radiating body includes a second ground portion and a combining portion electronically connected to the second ground portion. The combining portion is spaced from the third extending portion.
US09437922B2
A method of manufacturing a fluidic structure is disclosed. A cavity that defines a shape of an element of the fluidic structure within a material is formed. The cavity is filled with liquid metal. The cavity is sealed. The fluidic structure behaves as an antenna. A fluidic antenna includes a material that defines a shape of the fluidic antenna by a cavity filled with liquid metal formed within the material, where the material further defines at least one mechanical property of the fluidic antenna.
US09437921B2
A system to configure a planar microwave circuit, a method of forming a configurable planar microwave circuit, and a microwave circuit are described. The system includes a ground plane and a substrate disposed on the ground plane. The system also includes a photosensitive layer disposed on the substrate. A light source controllably changes a pattern of illumination on the photosensitive layer to controllably configure a transmission line in the photosensitive layer.
US09437912B2
In an example embodiment, an electronics package includes one or more insulating layers and an electrically conductive transmission line. The electrically conductive transmission line includes a signal trace disposed substantially parallel to the one or more insulating layers. The electrically conductive transmission line further includes one or more signal vias electrically coupled to the signal trace. The one or more signal vias are configured to pass through at least a portion of the one or more insulating layers. The electronics package further includes one or more electrically conductive ground planes substantially parallel to the one or more insulating layers. The ground planes include one or more signal via ground cuts. The one or more signal via ground cuts provide clearance between the one or more signal vias and the one or more ground planes.
US09437907B2
Techniques capable of reducing the width-direction size of a phase shift circuit as much as possible are provided. A phase shift circuit has a signal line, a first dielectric plate, and a second dielectric plate. The signal line has first to third intersecting parts extending in a direction intersecting with a longitudinal direction of the phase shift circuit. On the other hand, the first dielectric plate and the second dielectric plate have first to third overlapping parts overlapping the intersecting parts of the signal line. When the first dielectric plate and the second dielectric plate are moved in the longitudinal direction of the phase shift circuit, the overlapped areas between the intersecting parts of the signal line and the overlapping parts of the first dielectric plate and the second dielectric plate are changed.
US09437905B2
A traction battery system for a vehicle is provided. The system may include a plurality of battery cells, a thermal plate, and an inlet manifold. The thermal plate may support the battery cells and includes a heat exchange region and two lateral sides defining two planes. The inlet manifold may be positioned downstream of an inlet port and upstream of the heat exchange region. The inlet manifold may define distribution channels throughout the inlet manifold and includes an outlet to the heat exchange region having a cross-sectional area defining a third plane. The two planes and third plane define a region normal to the cross sectional area and the inlet manifold may be positioned such that the inlet port is located outside the region.
US09437904B2
A lithium ion secondary battery has a battery can, an electrode assembly in the battery can formed by rolling up a positive electrode, a separator, and a negative electrode, an organic electrolyte solution in the battery can, a positive electrode lead in the battery can connected to the positive electrode, a negative electrode lead in the battery can connected to the negative electrode, an overcharge preventer, a cap body sealing the battery can, a positive electrode terminal fixed to the cap body and connected to the positive electrode lead, and a negative electrode terminal fixed to the cap body and connected to the negative electrode lead.
US09437901B2
An electrolyte additive represented by the following Chemical Formula 1, an electrolyte, and a rechargeable lithium battery are disclosed: In Chemical Formula 1, R1 to R3 and L1 to L3 are the same as defined in the detailed description.
US09437887B2
Fuel cell and/or high-pressure electrolysis cell and a fuel cell membrane arrangement for improved control of a fuel cell by an actuator connected to the fuel cell membrane.
US09437883B2
A manufacturing method of a fuel cell module includes: forming an outer divided body having a frame shape and formed from an uncrosslinked item of solid rubber having adhesiveness in a seal member arrangement portion of a separator to produce an outer temporary assembly, and forming an inner divided body having a frame shape and formed from an uncrosslinked item of solid rubber in a peripheral edge portion of an electrode member to produce an inner temporary assembly; fitting the inner temporary assembly into a frame of the outer temporary assembly to produce a cell assembly temporary assembly; arranging a cell assembly stack, in which a plurality of the cell assembly temporary assemblies are stacked, in a forming die; and pressurizing and heating the forming die to crosslink the uncrosslinked item
US09437882B2
A holding apparatus for a fuel cell gasket has a support having a flat surface part which attracts the gasket and serves to stack a frame-shaped gasket on an outer circumference of an electrolyte membrane or a gas diffusion layer constituting a membrane electrode assembly on which a catalyst layer is disposed. The flat surface part has a frame-shaped recess corresponding to a shape of the gasket, and the recess is connected to an air-sucking section, with the gasket attracted by sucking air in the recess.
US09437878B2
An electricity storage module includes a plurality of electricity storage cells and a plurality of electricity storage cell holders. Each of the plurality of electricity storage cell holders includes a thermistor holding portion. At least one of the thermistor holding portions of the plurality of electricity storage cell holders is provided to support a thermistor. The thermistor holding portion includes a spring member contact portion, a first engaging portion, and a second engaging portion. The first engaging portion of one of adjacent thermistor holding portions engages with the second engaging portion of another of the adjacent thermistor holding portions to prevent a spring member contact portion from being deformed away from one of the electricity storage cells.
US09437872B2
A negative electrode for a rechargeable lithium battery is disclosed. The negative electrode includes a current collector and a negative active material layer positioned on the current collector and including a negative active material and a binder, wherein the negative active material includes a silicon-based material, a tin-based material, or a combination thereof, and the binder includes an organic acid including a carboxyl group-containing polymer and an organic base having a cyclic structure. A method of preparing the same, and a rechargeable lithium battery including the same are also disclosed.
US09437868B2
A method for producing an iron(III)orthophosphate-carbon composite which contains iron(III)orthophosphate of the general formula FePO4×nH2O (n≦2.5), a carbon source being dispersed in a phosphoric aqueous Fe2+ ion-containing solution and orthophosphate-carbon composite being precipitated and removed from the aqueous solution when an oxidant is added to the dispersion.
US09437857B2
A spacer disposed between first and second unit cells has a corrugated portion. The corrugated portion includes first and second protrusions alternating continuously and repeatedly in a vertical direction. The first protrusions protrude from a center in the thickness direction toward the first unit cell to form clearances that function as cooling passages between the first protrusion and the second unit cell. The second protrusions protrude from the center in the thickness direction toward the second unit cell to form clearances that function as cooling passages between the second protrusions and the first unit cell. The spacer includes a straight portion extending in a direction crossing the cooling passages so as to prevent elongation of the corrugated portion in a direction perpendicular to the cooling passages.
US09437845B2
To provide a battery module that may be easily assembled, and is capable of preventing a cell unit from being damaged during assembly, the battery module includes a cell unit provided with at least one unit cell, and first and second cases which enclose and accommodate the cell unit. The first and second cases are respectively provided with a main surface, and a side surface which is bent at one end of the main surface and extends in a direction away from the main surface.
US09437844B2
A display device includes a substrate, a first electrode on the substrate, a pixel defining layer on the substrate, the pixel defining layer having an opening exposing the first electrode, a metal layer on the pixel defining layer, a light emission layer on the first electrode exposed by the opening, and a second electrode on the light emission layer in the opening. The metal layer contacts the second electrode.
US09437833B2
An organic electroluminescent element includes a light-emitting layer between an anode and a cathode. The light-emitting layer contains a phosphorescent light-emitting organic metal complex and at least one host compound. The difference in relative dielectric constant between the host compound and the phosphorescent light-emitting organic metal complex is 0 to −0.5, and the difference in dipole moment between the host compound and the phosphorescent light-emitting organic metal complex is 0 to −5.5 debye.
US09437832B2
A flexible device is provided. The hardness of a bonding layer of the flexible device is set to be higher than Shore D of 70, or preferably higher than or equal to Shore D of 80. The coefficient of expansion of a flexible substrate of the flexible device is set to be less than 58 ppm/° C., or preferably less than or equal to 30 ppm/° C.
US09437830B2
A display device is disclosed. In one aspect, the display device includes a flexible substrate capable of being bent in a first direction and an insulating layer including a first opening pattern positioned on the flexible substrate and extending in a second direction crossing the first direction.
US09437827B2
A heterocyclic compound represented by Formula 1 below and an organic light-emitting device including the same,
US09437826B2
A heterocyclic compound, an organic light-emitting device, and a flat panel display apparatus, the compound being represented by Formula 1, below:
US09437824B2
A light-emitting element includes a light-emitting layer having a two-layer structure in which a first light-emitting layer containing a first light-emitting substance and a second light-emitting layer containing a second light-emitting substance, which is in contact with the first light-emitting layer, are provided between an anode and a cathode. The first light-emitting layer is separated into two layers of a layer provided on the anode side and a layer provided on the cathode side. The layer provided on the anode side contains only a first light-emitting substance, or a first organic compound of less than 50 wt % and the first light-emitting substance of 50 wt % to 100 wt %. The layer provided on the cathode side contains a second organic compound and the first light-emitting substance. The second light-emitting layer, which is provided in contact with the first light-emitting layer, contains the second light-emitting substance and a third organic compound.
US09437821B2
When a thin film is formed by an application method, damage to a substrate or existing electrodes and functional layers can be reduce. A method for manufacturing an electronic device comprising two or more electrodes, and an organic thin film provided between the two or more electrodes, the method comprising the steps of: forming a coating film by applying a coating liquid that comprises a material having a crosslinking group, and forming the organic thin film by repeating an irradiation of electromagnetic waves to the coating film to cross-link with the crosslinking group.
US09437820B2
A substrate laminating low film, a substrate laminated structure and a method of manufacturing an organic light emitting display are disclosed. One inventive aspect includes a base member, a first adhesion layer formed on the base member, and a second adhesion layer formed on the first adhesion layer. The second adhesion layer has a second adhesion strength less than the first adhesion strength of the first adhesion layer.
US09437818B2
An exposure apparatus capable of preventing a reduction in its accuracy due to, for example, the influence of aging or the influence of heat is disclosed. Also disclosed is a method of controlling the same, and an alignment method for exposure. In one aspect, the exposure apparatus includes a main stage for adjusting a position of a substrate, a beam irradiation unit for irradiating a beam onto a mask, and a beam monitoring unit having a position fixed with respect to the main stage, and for recognizing the beam emitted from the beam irradiation unit and passed through one pattern of the mask.
US09437810B2
According to one embodiment, a magnetoresistive element includes a first magnetic layer having a variable magnetization direction; a second magnetic layer having an invariable magnetization direction; and a tunnel barrier layer provided between the first magnetic layer and the second magnetic layer and including an MgFeO film, wherein the MgFeO film contains at least one element selected from a group consisting of Ti, V, Mn, and Cu.
US09437809B2
A magnetic cell structure including a nonmagnetic filament contact, and methods of fabricating the structure are provided. The magnetic cell structure includes a free layer, a pinned layer, an insulative layer between the free and pinned layers, and a nonmagnetic filament contact in the insulative layer which electrically connects the free and pinned layers. The nonmagnetic filament contact is formed from a nonmagnetic source layer, also between the free and pinned layers. The filament contact directs a programming current through the magnetic cell structure such that the cross sectional area of the programming current in the free layer is less than the cross section of the structure. The decrease in the cross sectional area of the programming current in the free layer enables a lower programming current to reach a critical switching current density in the free layer and switch the magnetization of the free layer, programming the magnetic cell.
US09437805B2
A piezoelectric thin film element that includes a substrate, a lower electrode on the substrate, a piezoelectric film on the lower electrode, and an upper electrode on the piezoelectric film. The piezoelectric film is a potassium sodium niobate film represented, as its main constituent, by the general formula (1−n)(K1-xNax)NbyO3-nM1M2O3 in which M1 is any one of Ca, Sr, and Ba, and M2 is Zr, and x, y, and n respectively are within the ranges of: 0.25≦x≦1.00; 0.85≦y≦1.10; and 0.01≦n≦0.10. Alternatively, M2 is any one of Sn and Hf, and x, y, and n respectively are within the ranges of: 0.25≦x≦1.00; 0.90≦y≦1.05; and 0.01≦n≦0.10.
US09437796B2
A thermoelectric material and a thermoelectric converter using this material. The thermoelectric material has a first component including a semiconductor material and a second component including a rare earth material included in the first component to thereby increase a figure of merit of a composite of the semiconductor material and the rare earth material relative to a figure of merit of the semiconductor material. The thermoelectric converter has a p-type thermoelectric material and a n-type thermoelectric material. At least one of the p-type thermoelectric material and the n-type thermoelectric material includes a rare earth material in at least one of the p-type thermoelectric material or the n-type thermoelectric material.
US09437786B2
A spectrally adapted light emitting device for illuminating plants includes at least one semiconductor light-emitting diode (LED), at least one light conversion element for down-converting a portion of light emitted at the first wavelength to at least a second wavelength between 600 nm-680 nm, and at least one scattering device to diffuse light within the light emitting device. The at least one LED is configured to emit at least a first wavelength between 400 nm and 480 nm. The spectral light output from the spectrally adapted light emitting device is bi-modal with wavelengths in a range of 400 nm and 800 nm including a first local maximum between 400 nm and 480 nm and a second local maximum between 600 nm-680 nm with a local minimum between the first local maximum and the second local maximum.
US09437782B2
The disclosed technology provides micro-assembled micro-LED displays and lighting elements using arrays of micro-LEDs that are too small (e.g., micro-LEDs with a width or diameter of 10 μm to 50 μm), numerous, or fragile to assemble by conventional means. The disclosed technology provides for micro-LED displays and lighting elements assembled using micro-transfer printing technology. The micro-LEDs can be prepared on a native substrate and printed to a display substrate (e.g., plastic, metal, glass, or other materials), thereby obviating the manufacture of the micro-LEDs on the display substrate. In certain embodiments, the display substrate is transparent and/or flexible.
US09437770B2
A radiation detector is disclosed, including a plurality of detector elements arranged adjacent to one another in a planar manner. In an embodiment, for the purpose of radiation detection, a semiconductor layer with an upper side and a lower side is present, the semiconductor layer on one of the sides including an electrode embodied so as to extend across a number of detector elements and electrodes subdivided into individual electrodes being arranged on the other side of the semiconductor layer so that by applying voltage between the electrodes of the two sides, an electrical field is generatable and each individual electrode is assigned an effective volume so as to collect charge in the semiconductor layer. In an embodiment, the individual electrodes are alternately connected to at least two different voltage potentials. Furthermore, a medical diagnostic system is disclosed, including at least one such radiation detector.
US09437767B2
A multi-junction solar cell having a Ge or GaAs substrate, as well as a solar cell structure having several subcells deposited on the substrate, the substrate having peripheral side faces, and the solar cell structure having a peripheral circumferential surface, which runs spaced apart from the side faces. To prevent oxidation and penetration of moisture, the circumferential surface of the solar cell structure is coated with a protective, electrically insulating first coating under essential exclusion of the upper surface facing the rays, or that without encroaching on the solar cell structure, the side faces of the substrate are coated with a protective, electrically insulating second coating or that both the side faces of the substrate as well as the circumferential surface of the solar cell structure are coated with a third coating by essential exclusion of the upper surface facing the rays.
US09437753B2
A device includes a conductive surface (12) and electrical contacts (14) by which an electric current is able to be passed. The electrical contacts (14) include conductive seeds (16) deposited on the conductive surface (12), an electrically insulating layer (18), which covers discontinuously the conductive seeds (16) in order to form openings leaving access to the conductive seeds (16), and a plating layer (22) recovering the discontinuous insulating layer (18) and deposited on conductive seeds (16) which are accessible through the openings and form points from which the deposit of the plating layer (22) can start. The rest of the conductive surface (12), which doesn't include any electrical contacts (14), is continuously covered by the electrically insulating layer (18).
US09437752B2
A resonant inter-band tunnel diode (RITD) can be fabricated using semiconductor processing similar to that used for Complementary Metal-Oxide-Semiconductor (CMOS) device fabrication, such as can include using silicon. A memory cell (e.g., a random access memory (RAM) cell) can be fabricated to include one or more negative differential resistance device, such as tunneling diodes, such as to provide a single-bit or multi-bit cell. In an example, a “hybrid” memory cell can be fabricated, such as including one or more negative resistance devices, a MOS transistor structure, and a capacitor structure, such as including an integrated capacitor configuration similar to a generally-available dynamic RAM (DRAM) structure, but such as without requiring a refresh and offering a higher area efficiency.
US09437743B2
An object is to provide a method for manufacturing a semiconductor device without exposing a specific layer to moisture or the like at all. A thin film element is manufactured in such a manner that a first film, a second film, and a third film are stacked in this order; a resist mask is formed over the third film; a mask layer is formed by etching the third film with the use of the resist mask; the resist mask is removed; a second layer and a first layer are formed by performing dry etching on the second film and the first film with the use of the mask layer; a fourth film is formed to cover at least the second layer and the first layer; and sidewall layers are formed to cover at least the entire side surfaces of the first layer by performing etch back on the fourth film.
US09437738B2
In some embodiments, an FET structure comprises a heterostructure, and a gate structure. The heterostructure comprises a first section, a barrier section and a second section such that a portion of the first section, the barrier section, and a portion of the second section form a channel region, and portions of the first section and the second section on opposite sides of the channel region form at least portions of source and drain regions, respectively. When the channel region is p type, the barrier section has a positive valence band offset with respect to each of the first section and the second section, or when the channel region is n type, the barrier section has a positive conduction band offset with respect to each of the first section and the second section. A gate structure is configured over the channel region.
US09437737B2
A semiconductor device has: a silicon (semiconductor) substrate; a gate insulating film and a gate electrode, which are formed on the silicon substrate in this order; and source/drain material layers formed in recesses (holes) in the silicon substrate, the recesses being located beside the gate electrode. Here, each of side surfaces of the recesses, which are closer to the gate electrode, is constituted of at least one crystal plane of the silicon substrate.
US09437735B1
According to one embodiment, a tunnel FET includes a semiconductor region of a first conductivity type, a gate electrode provided on a surface portion of the semiconductor region via a gate insulating film, a source region provided in the semiconductor region on one side of the gate electrode, and a drain region provided in the semiconductor region on the other side of the gate electrode. The source region is a region of either the first conductivity type or a second conductivity type having a higher impurity concentration than the semiconductor region of the first conductivity type. The drain region includes a Schottky barrier junction.
US09437734B2
A semiconductor device includes a semiconductor substrate having a drain region, a source region and an impurity diffusion region; an oxide film formed on the impurity diffusion region; a first protective film including a SiN film as a principal component and being formed on the oxide film; and a second protective film containing carbon and being formed on the first protective film. A method of manufacturing the semiconductor device, includes doping an impurity into a semiconductor substrate, thereby forming a drain region, a source region and an impurity diffusion region; forming an oxide film on the impurity diffusion region; forming a first protective film including a SiN film as a principal component on the oxide film; and forming a second protective film containing carbon on the first protective film.
US09437730B2
According to example embodiments, a semiconductor device includes a first fin, a second fin that is separated from the first fin, and a gate on the first fin and the second fin. The gate crosses the first fin and the second fin. The first fin includes a first doped area at both sides of the gate. The first doped area is configured to have a first voltage applied thereto. The second fin includes a second doped area at both sides of the gate. The second doped area is configured to have a second voltage applied thereto. The second voltage is different than the first voltage.
US09437729B2
A method for producing a power MOSFET. The method includes fabricating a plurality of layers of a power MOSFET to produce an upper surface active area and performing a chemical mechanical polishing process on the active area to produce a substantially planar surface. A metalization deposition process is then performed on the substantially planar surface and the fabrication of the power MOSFET is subsequently completed.
US09437719B2
A technology for reducing contact resistance between a semiconductor substrate and an electrode is provided. A provided method for manufacturing a semiconductor device includes: forming an oxide film 62 on a surface 12b of a semiconductor substrate 12 by bringing the surface 12b into contact with ammonia-hydrogen peroxide water mixture; forming a groove 60 on the surface 12b by irradiating light to heat the surface 12b covered with the oxide film 62; removing the oxide film 62 to expose the surface 12b; and forming an electrode 16 on the exposed surface 12b.
US09437700B2
A semiconductor device is provided with a silicon layer, an upper surface side aluminum layer containing silicon and an insulation film. The upper surface side aluminum layer contacts and is layered on a part of a surface of the silicon layer. The insulation film contacts and is layered on another part of the surface of the silicon layer. The insulation film is adjacent to and contacts the upper surface side aluminum layer. The insulation film includes an insulation film body and a plurality of first nodule segregated portions projecting from the insulation film body toward the upper surface side aluminum layer as seen along a vertical direction relative to the surface of the silicon layer. A corner is formed by a side surface of the insulation film body and a side surface of each of the first nodule segregated portions as seen along the vertical direction.
US09437693B2
A transistor includes a surface region, a gate, a source dopant region, a drain dopant region, a drift dopant region, a set of electrically conductive shield plates, and a shield plate dopant region. A sidewall of the gate aligns with a drain side boundary of the surface region. The drain dopant region is within the surface region on the drain side. The drift dopant region is within the surface region between the drain side boundary and the drain dopant region. The set of electrically conductive shield plates includes a first shield plate overlying the drift dopant region. The shield plate dopant region is within the drift dopant region and underlies the set of shield plates.
US09437686B2
The invention provides semiconductor materials including a gallium nitride material layer formed on a silicon substrate and methods to form the semiconductor materials. The semiconductor materials include a transition layer formed between the silicon substrate and the gallium nitride material layer. The transition layer is compositionally-graded to lower stresses in the gallium nitride material layer which can result from differences in thermal expansion rates between the gallium nitride material and the substrate. The lowering of stresses in the gallium nitride material layer reduces the tendency of cracks to form. Thus, the invention enables the production of semiconductor materials including gallium nitride material layers having few or no cracks. The semiconductor materials may be used in a number of microelectronic and optical applications.
US09437685B2
There are disclosed herein various implementations of a semiconductor structure and method. The semiconductor structure comprises a substrate, a transition body over the substrate, and a group III-V intermediate body having a bottom surface over the transition body. The semiconductor structure also includes a group III-V device layer over a top surface of the group III-V intermediate body. The group III-V intermediate body has a continuously reduced impurity concentration wherein a higher impurity concentration at the bottom surface is continuously reduced to a lower impurity concentration at the top surface.
US09437681B2
A CMOS semiconductor FinFET device and a method for manufacturing a CMOS semiconductor FinFET device are disclosed. The device may comprise an nFinFET and a pFinFET having a channel region comprising Ge on a common strain-relaxed buffer layer comprising SiGe. The concentration of Ge in the channel regions is higher than the concentration of Ge in the strain-relaxed buffer layer. The device further comprises a source/drain region for the nFinFET, the source/drain region comprising SiGe; and a source/drain region for the pFinFET, the second source/drain region comprising Ge.
US09437680B1
A method of forming a semiconductor device substrate includes forming a donor wafer having a surface comprising regions of relaxed silicon and regions of relaxed silicon germanium (SiGe); epitaxially growing a silicon device layer on the surface of the donor wafer, wherein the silicon device layer comprises tensile strained silicon on the regions of relaxed silicon germanium of the donor wafer, and wherein the silicon device layer comprises relaxed silicon on the regions of relaxed silicon of the donor wafer; and transferring the silicon device layer from the donor wafer to a handle wafer comprising a bulk substrate and an insulator layer, so as to form a silicon-on-insulator (SOI) substrate with the silicon device layer maintaining regions of tensile strained silicon and regions of relaxed silicon.
US09437678B2
A fabrication method of a semiconductor device that includes trench gate structures each having a gate electrode extending in a depth-direction of an element, where first trench gate structures contribute to controlling the element and second trench gate structures do not contribute. The fabrication method includes forming the trench gate structures on a front face of a semiconductor substrate; forming on the front face, an electrode pad connected to the gate electrode of at least one trench gate structure; executing screening by applying a predetermined voltage between the electrode pad and an electrode portion having a potential other than a gate potential, to apply the predetermined voltage to gate insulator films in contact with each gate electrode connected to the electrode pad; and forming the second trench gate structures having the gate electrodes connected to the electrode pad, by short-circuiting the electrode portion to the electrode pad after executing screening.
US09437671B2
A power and signal extender, which is utilized on a circuit board for preventing a power or a signal on the circuit board from influencing an integrity of a ground plane on the circuit board, includes a first pin, coupled to a first transmission wire of the circuit board, for receiving the power or the signal from the first transmission wire; and a second pin, coupled to a second transmission wire of the circuit board, for outputting the power or the signal to the second transmission wire.
US09437662B2
A display device including a pixel array having a plurality of pixels arranged in a matrix form, each of the pixels including a sampling transistor configured to sample a data potential from a video signal line which is insulated from and intersects a control line in response to the change in potential of the control line, and a light-emitting element configured to emit light at the brightness commensurate with the magnitude of the post-sampling data potential.
US09437655B2
A magnetic tunnel junction is provided. The magnetic tunnel junction can enhance the tunnel magnetoresistance ratio and a device including the magnetic tunnel junction. The magnetic tunnel junction includes: a pinned layer; a free layer; and a superlattice barrier, the barrier configured between the pinned layer and the free layer. The magnetic tunnel junction may be a series or parallel connection of the above-mentioned basic form. The device including a magnetic tunnel junction may be a magnetic random access memory bit cell, a magnetic tunnel junction transistor device, a magnetic field sensor, etc.
US09437645B1
A semiconductor structure for back side illumination (BSI) pixel sensors is provided. Photodiodes are arranged within a semiconductor substrate. A composite grid includes a metal grid and a low refractive index (low-n) grid. The metal grid includes first openings overlying the semiconductor substrate and corresponding to ones of the photodiodes. The low-n grid includes second openings overlying the semiconductor substrate and corresponding to ones of the photodiodes. Color filters are arranged in the first and second openings of the corresponding photodiodes and have a refractive index greater than a refractive index of the low-n grid. Upper surfaces of the color filters are offset relative to an upper surface of the composite grid. A method for manufacturing the BSI pixel sensors is also provided.
US09437642B2
A semiconductor device is reduced in power consumption, the semiconductor device including a solid-state imaging device that includes pixels each having a plurality of light receiving elements. A pixel having first and second photodiodes is provided with a first transfer transistor that transfers charge in the first photodiode to a floating diffusion capacitance section, and a second transfer transistor that combines charge in the first photodiode and charge in the second photodiode, and transfers the combined charge to the floating diffusion capacitance section. Consequently, the semiconductor device is reduced in power required for activation of each transfer transistor in operation such as imaging with the solid-state imaging device.
US09437641B2
A solid-state imaging device includes a substrate, a photoelectric conversion section, a first impurity layer having a carrier polarity of a second conductivity type, a charge-to-voltage converting section, an amplifying section, and a second impurity layer having a carrier polarity of the second conductivity type. The second impurity layer is disposed in a region between the photoelectric conversion section and the amplifying section. The second impurity concentration of the second P-type impurity layer is made higher than the first impurity concentration of the first impurity layer.
US09437629B1
Technologies pertaining to converting infrared (IR) radiation to DC energy are described herein. In a general embodiment, a rectenna comprises a conductive layer. A thin insulator layer is formed on the conductive layer, and a nanoantenna is formed on the thin insulator layer. The thin insulator layer acts as a tunnel junction of a tunnel diode.
US09437622B2
A thin film transistor and a method for manufacturing the same, an array substrate and a display device that can prevent the semiconductor layer in a channel region from damage. The thin film transistor includes a gate electrode, a gate insulating layer, a semiconductor layer, an insulator layer, and source/drain electrodes, the insulator layer is provided on the semiconductor layer, covers channel regions of the source/drain electrodes, and is formed of a metal oxide insulator. In this thin film transistor, when water vapor from the air penetrates, the insulator layer formed of the metal oxide insulator will firstly reacts with the water vapor to prevent the metal oxide semiconductor in the channel region from damage.
US09437621B2
A method of manufacturing a display panel assembly includes: preparing a mother substrate on which are defined first regions and dummy regions respectively between adjacent first regions; forming pixel driving lines and pixels connected to the pixel driving lines on each of the first regions in a same process at the same time as forming circuit connection lines on each of the dummy regions; connecting a driving element which drives the pixels to the circuit connection lines of the dummy regions; dividing the mother substrate to separate the first regions and the dummy regions from each other, each of the separated first regions defining a thin film transistor board of the display panel assembly, and each of the separated dummy regions defining a driving circuit board of the display panel assembly; and connecting the driving circuit board to the thin film transistor board.
US09437620B2
It is an object of the present invention to provide a semiconductor device where, even in a case of stacking a plurality of semiconductor elements provided over a substrate, the stacked semiconductor elements can be electrically connected through the substrate, and a manufacturing method thereof. According to one feature of the present invention, a method for manufacturing a semiconductor device includes the steps of selectively forming a depression in an upper surface of a substrate or forming an opening which penetrates the upper surface through a back surface; forming an element group having a transistor so as to cover the upper surface of the substrate and the depression, or the opening; and exposing the element group formed in the depression or the opening by thinning the substrate from the back surface. A means for thinning the substrate can be performed by partially removing the substrate by performing grinding treatment, polishing treatment, etching by chemical treatment, or the like from the back surface of the substrate.
US09437616B2
A liquid crystal display device includes: a TFT substrate that includes gate lines; and a driver circuit section that includes a gate driver that is connected to the gate lines. A frame region includes a wiring substrate that sandwiches the gate lines. The wiring substrate includes: a first wiring substrate that has first wiring lines that are connected to the gate lines; a second wiring substrate that has second wiring lines that are connected to the first wiring lines; and a third wiring substrate that is attached to the second wiring substrate and has third wiring lines that are connected to the second wiring lines and a gate driver.
US09437615B2
A ceramic metal halide lamp according to various embodiments can include a discharge vessel and an ionizable fill. The ionizable fill is sealed within the discharge vessel. The ionizable fill includes an oxygen dispenser to introduce oxygen in a form of a pellet into the discharge vessel in a controlled manner to facilitate a tungsten halogen wall cleaning cycle. The pellet comprises aluminum-oxide and molybdenum-oxide.
US09437604B2
Methods for forming a string of memory cells, an apparatus having a string of memory cells, and a system are disclosed. A method for forming the string of memory cells comprises forming a metal silicide source material over a substrate. The metal silicide source material is doped. A vertical string of memory cells is formed over the metal silicide source material. A semiconductor material is formed vertically and adjacent to the vertical string of memory cells and coupled to the metal silicide source material.
US09437600B2
A method of making a flash memory includes providing a substrate. Then, a first insulating layer, a first conductive layer and a second insulating layer are formed to cover the substrate. Later, a first trench is formed in the first conductive layer and the second insulating layer. After that, a second conductive layer and a mask layer are formed to cover the second insulating layer, and the second conductive layer fills up the first trench. Then, the mask layer are patterned to form patterned mask layers. Subsequently, a spacer is formed on the sidewall of the patterned mask layer. Then, an etching process is carried out by using the patterned mask layers and the spacer as a mask so as to form a first gate structure and a second gate structure.
US09437596B2
A semiconductor device includes a substrate, a first well of a first conductivity type formed within the substrate, a second well of a second conductivity type formed underneath the first well within the substrate and a third well of the second conductivity type formed horizontally to the first well within the substrate, and including a first region formed to a first depth from a surface of the substrate, and a second region formed to a second depth greater than the first depth from the surface of the substrate and connected to the second well.
US09437590B2
An ESD device disposed on a substrate is provided. The ESD device includes a first well, a second well, a first poly-silicon region, a second poly-silicon region and a first protection layer. The first well has a first conductive type and is disposed on the substrate. The second well has a second conductive type, is disposed on the substrate and is adjacent to the first well. The first poly-silicon region is disposed on the first well. The second poly-silicon region is disposed on the second well. The first protection layer covers portions of the first well, the second well, the first poly-silicon region and the second poly-silicon region. There is no doping region in the portions of the first well and the second well which are covered by the first protection layer and between the first poly-silicon region and the second poly-silicon region.
US09437585B2
A photoelectric device includes an electrode structure, an LED (light emitting diode) element, a zener diode and a reflective cup. The LED element, the zener diode and the reflective cup are arranged on the electrode structure. The LED element and the zener diode are electrically connected in anti-parallel with each other. The reflective cup comprises an inner surface defined thereof and a nick defined in an outside of the reflective cup. The LED element is surrounded by the inner surface of the reflective cup and the zener diode is arranged in the nick.
US09437581B2
The LED module includes: a light diffusing substrate having light transmissive properties; an LED chip bonded to a first surface of the light diffusing substrate with a transparent first bond in between; a color converter facing the first surface to cover the LED chip; and a mounting substrate. The color converter is made of transparent material containing phosphor which, when excited by light emitted from the LED chip, emits light having a different color from the LED chip. The mounting substrate includes a diffuse reflection layer diffusely reflecting light emitted from the LED chip and light emitted from the phosphor. The diffuse reflection layer is placed facing a second surface of the light diffusing substrate.
US09437575B1
Methods for a semiconductor device package formed in a chip-on-wafer last process using thin film adhesives are disclosed and may include bonding a first carrier to a first surface of an interposer in wafer form, forming conductive bumps on a second surface of the interposer, bonding a second carrier to the conductive bumps utilizing a film adhesive, removing the first carrier from the interposer, bonding a semiconductor die to the first surface of the interposer, and encapsulating the die and the first surface of the interposer in an encapsulant material. The second carrier and the film adhesive may be removed from the conductive bumps utilizing a slide-off process. The interposer and encapsulant may be diced into a plurality of interposer and die structures. One of the die and interposer structures may be bonded to a substrate. The die may be bonded to the interposer utilizing a mass reflow process.
US09437573B2
A semiconductor device which includes a first semiconductor chip 10, a first electrode 12 formed on the first semiconductor chip 10, a second semiconductor chip 20 to which the first semiconductor chip 10 is mounted, a second electrode 22 with a protrusion 24, which is formed on the second semiconductor chip 20, and a solder bump 14 which bonds the first electrode 12 and the second electrode 22 to cover at least a part of a side surface of the protrusion 24, and a method for manufacturing thereof are provided.
US09437566B2
In some embodiments, to increase the height-to-pitch ratio of a solder connection that connects different structures with one or more solder balls, only a portion of a solder ball's surface is melted when the connection is formed on one structure and/or when the connection is being attached to another structure. In some embodiments, non-solder balls are joined by an intermediate solder ball (140i). A solder connection may be surrounded by a solder locking layer (1210) and may be recessed in a hole (1230) in that layer. Other features are also provided.
US09437557B2
A capacitor can include a substrate having a first surface, a second surface remote from the first surface, and a through opening extending between the first and second surfaces, first and second metal elements, and a capacitor dielectric layer separating and insulating the first and second metal elements from one another at least within the through opening. The first metal element can be exposed at the first surface and can extend into the through opening. The second metal element can be exposed at the second surface and can extend into the through opening. The first and second metal elements can be electrically connectable to first and second electric potentials. The capacitor dielectric layer can have an undulating shape.
US09437548B2
Various embodiments provide a chip package. The chip package may include a metallic chip carrier; at least one chip carried by the metallic chip carrier; encapsulation material encapsulating the at least one chip and the metallic chip carrier; and a plurality of redistribution layers disposed over the at least one chip opposite the metallic chip carrier, wherein at least one redistribution layer of the plurality of redistribution layers is electrically coupled with the at least one chip.
US09437547B2
A device and methods for forming a device are disclosed. A substrate is provided and a TSV is formed in the substrate through a top surface of the substrate. The TSV and top surface of the substrate is lined with an insulation stack having a first insulation layer, a polish stop layer and a second insulation layer. A conductive layer is formed on the substrate. The TSV is filled with conductive material of the conductive layer. The substrate is planarized to remove excess conductive material of the conductive layer. The planarizing stops on the polish stop layer to form a planar top surface.
US09437544B2
A semiconductor device includes a semiconductor chip, a wiring on the chip, an insulating film coating the wiring and having an opening partially exposing the wiring, a Ti/W film on a portion of the wiring facing the opening, a Cu layer on the Ti/W film and the wiring's exposed portion, and having a peripheral edge protruding away from the opening more than Ti/W film's peripheral edge in parallel to an insulating film surface, and a solder ball bonded to the Cu layer. The protrusion of the Cu layer's peripheral edge with respect to the Ti/W film's peripheral edge is greater than the Ti/W film's thickness. The Ti/W film's surface doesn't vertically surpass the Cu layer's upper surface in the opening's center. A Cu layer/solder ball interface is arc-shaped on both sides of the Cu layer's upper surface in a cross section taken perpendicularly to the Cu layer's upper surface.
US09437541B2
A method for patterning vias in a chip comprises forming a photomask layer including a gap on a patterned hardmask layer including a plurality of trenches and in contact with a uniform layer on a substrate, wherein the gap overlaps with two or more of the trenches. The method further comprises exposing a portion of the uniform layer under the gap using a photo exposure process, etching the exposed portion of the uniform layer with the photomask layer to obtain a plurality of vias extended partially through the substrate, and further etching the vias to obtain corresponding through-substrate vias. Another method comprises patterning a plurality of vias in a plurality of trenches of a hardmask layer on a substrate using a single photo exposure step and a photomask comprising a single gap that overlaps with the trenches.
US09437529B2
A chip package structure includes a lead frame having first and second patterned metal layers and an insulation layer, a chip, and an encapsulant covering the first patterned metal layer and the chip. The first patterned metal layer includes a chip pad with first recesses and bonding pads in the first recesses. A first groove exists between each bonding pad and the chip pad. The second patterned metal layer connecting the first patterned metal layer includes terminal pads and a heat dissipation block thermally coupled to the chip pad. The heat dissipation block includes second recesses where the terminal pads are located and electrically connected to the corresponding bonding pads. A second groove exists between each terminal pad and the heat dissipation block. The insulation layer is located between the bonding pads and the terminal pads. The chip on the chip pad is electrically connected to the bonding pads.
US09437528B1
A dual-side exposed semiconductor package with ultra-thin die and a manufacturing method are disclosed. A die having a source electrode and a gate electrode at top surface is flipped and attached to a die paddle of a lead frame and then is encapsulated with a first molding compound. The first molding compound and the die are ground to reduce the thickness. A mask is applied atop the lead frame with the back of the flipped die exposed and a metal layer is deposited on the exposed area at the back of the flipped die. A metal clip is attached to the back of the flipped die. A second molding compound is deposited on the lead frame with the top surface of the metal clip exposed from the top surface of the second molding compound and the bottom surface of the lead frame exposed from the bottom surface of the second plastic molding compound.
US09437527B2
A resin casing is insert-molded while clamp protrusions of clamp portions formed in bonding portions of lead terminals are put between an upper mold and a lower mold. An insulating substrate which has a wiring pattern mounted with semiconductor elements is fitted into an opening portion of the resin casing and adhesively bonded to the resin casing. Electric connection between the semiconductor elements and the bonding portions of the lead terminals and between the wiring pattern on the insulating substrate and the bonding portions of the lead terminals is made by bonding wires. Thus, it is possible to provide a method for manufacturing a semiconductor device and the semiconductor device, in which stress applied to lead terminals of a lead frame formed by insert molding can be suppressed, and wire bonding properties and reliability can be improved even when the thickness of each of the lead terminals is reduced.
US09437526B2
A chip on film (COF) package includes a film substrate, first leads on a first surface of the film substrate, the first leads having a first length, and second leads on the first surface of the film substrate, the second leads having a second length larger than the first length, first via plugs penetrating the film substrate and connected to first ends of the first leads, and second via plugs penetrating the film substrate and connected to first ends of the second leads, and first connection leads on a second surface of the film substrate facing the first surface, the first connection leads having first ends connected to the first via plugs, and second connection leads on the second surface of the film substrate, the second connection leads having first ends electrically connected to the second via plugs.
US09437515B2
Embodiments of the invention comprise a homogeneous heat spreading cap element in chip packages to facilitate better heat spreading and dissipation. The heat spreading cap comprises a single high-K graphite layer supported by a copper frame for increased stability and reduced thermal warpage during handling and operation while minimizing thermal penalty by reducing the amount of material having a relatively low heat conductivity that is needed in conventional heat spreading caps.
US09437497B2
A method of fabricating a fin-like field-effect transistor device is disclosed. The method includes forming mandrel features over a substrate and performing a first cut to remove mandrel features to form a first space. The method also includes performing a second cut to remove a portion of mandrel features to form a line-end and an end-to-end space. After the first and the second cuts, the substrate is etched using the mandrel features, with the first space and the end-to-end space as an etch mask, to form fins. Depositing a space layer to fully fill in a space between adjacent fins and cover sidewalls of the fins adjacent to the first space and the end-to-end space. The spacer layer is etched to form sidewall spacers on the fins adjacent to the first space and the end-to-end space and an isolation trench is formed in the first space and the end-to-end space.
US09437496B1
A semiconductor device such as a FinFET includes a plurality of fins formed upon a substrate and a gate covering a portion of the fins. Diamond-shaped volumes are formed on the sidewalls of the fins by epitaxial growth which may be limited to avoid merging of the volumes or where the epitaxy volumes have merged. Because of the difficulties in managing merging of the diamond-shaped volumes, a controlled merger of the diamond-shaped volumes includes depositing an amorphous semiconductor material upon the diamond-shaped volumes and a crystallization process to crystallize the deposited semiconductor material on the diamond-shaped volumes to fabricate controllable and uniformly merged source drain.
US09437489B2
A method of manufacturing a wiring substrate including a step of forming a through hole that includes forming a first concave portion in a substrate that extends from a second surface to a first insulating layer without passing through the first insulating layer; forming a second insulating layer at least within the first concave portion; and forming a second concave portion through the second insulating layer and the first insulating layer to expose a surface of a pad electrode, wherein the second concave portion is formed within the first concave portion; and filling the first concave portion and the second concave portion with a conductive body or forming the conductive body to coat inner walls of the first concave portion and the second concave portion, and forming the through electrode such that it is connected to the pad electrode.
US09437484B2
An integrated circuit structure includes a dielectric layer and an etch stop layer. The etch stop layer includes a first sub layer including a metal nitride over the first dielectric layer, and a second sub layer overlying or underlying the first sub layer. The second sub layer includes a metal compound comprising an element selected from carbon and oxygen, and is in contact with the first sub layer.
US09437483B2
A plurality of vertical channels of semiconductor material are formed to extend in a vertical direction through the plurality of insulation layers and the plurality of conductive patterns, a gate insulating layer between the conductive pattern and the vertical channels that insulates the conductive pattern from the vertical channels. Conductive contact regions of the at least two of the conductive patterns are in a stepped configuration. An etch stop layer is positioned on the conductive contact regions, wherein the etch stop layer has a first portion on a first one of the plurality of conductive patterns and has a second portion on a second one of the plurality of conductive patterns, wherein the first portion is of a thickness that is greater than a thickness of the second portion.
US09437477B1
In one embodiment, a pattern forming method includes forming a first film on a substrate that includes a convex portion and a concave portion so as to expose an upper end of the convex portion. The method further includes forming a photosensitive second film on the first film so as to cover the upper end of the convex portion. The method further includes exposing the second film to light. The method further includes developing the second film with a development liquid to form a second pattern of the second film. The method further includes dissolving and removing the first film exposed from the second pattern with a liquid to form a first pattern of the first film.
US09437474B2
A method of producing a microelectronic device in a substrate comprising a first semiconductor layer, a dielectric layer and a second semiconductor layer, comprising the following steps: etching a trench through the first semiconductor layer, the dielectric layer and a part of the thickness of the second semiconductor layer, thus defining, in the first semiconductor layer, one active region of the microelectronic device, ionic implantation in one or more side walls of the trench, at the level of the second semiconductor layer, modifying the crystallographic properties and/or the chemical properties of the implanted semiconductor, etching of the implanted semiconductor such that at least a part of the trench extends under a part of the active region, —filling of the trench with a dielectric material, forming an isolation trench surrounding the active region and comprising portions extending under a part of the active region.
US09437469B2
A substrate transport apparatus for a processing tool. The apparatus has a drive section, a movable arm, and an end effector. The arm is operably connected to the drive section. The end effector is connected to the movable arm for holding and transporting the substrate in the processing tool. The apparatus has a substrate inertial capture edge grip connected to the end effector and arranged so that the grip effects capture and centering of the substrate onto the end effector from substrate inertia.
US09437467B2
A loadport for handling film frames is disclosed. The loadport is modular and substantially compatible with applicable standards regarding modular equipment. In particular, the load port is substantially interchangeable with loadports not adapted for handling film frames. The loadport has a compact shuttle for moving film frames and flexible alignment mechanisms for aligning film frames and cassettes of different configurations.
US09437466B2
Provided is a wafer stocker that can prevent the inflow of an external atmosphere, maintain a wafer storage space at a desired atmosphere with a relatively small amount of gas, and prevent dust from being attached to a wafer surface. A shutter portion, including multiple shield plates having the same height as an interval between shelf plates disposed in a storage container, is disposed with a slight space from a body portion, and by supplying clean gas into the storage container, a clean atmosphere of a higher pressure than an external environment is maintained, and a shutter portion is opened and closed by moving up and down the shield plate independently from the shelf plate that supports a wafer.
US09437465B2
When a step is delayed, an operator can be rapidly informed of the delay. A substrate processing apparatus comprises a process system configured to process a substrate; a control unit configured to control the process system for performing a plurality of steps; and a manipulation unit configured to monitor a progress of each of the plurality of steps, wherein when a time elapsed after the control unit goes into a hold state exceeds an allowable time previously allocated to the one of the plurality of steps while waiting for a completion of the one of the plurality of steps started by the process system, the control unit transmits an alarm message to the manipulation unit so as to inform the manipulation unit that the allowable time is exceeded, terminates the hold state, and performs a recovery action.
US09437454B2
It is an object to reduce defective conduction in a wiring board or a semiconductor device whose integration degree is increased. It is another object to manufacture a highly reliable wiring board or semiconductor device with high yield. In a wiring board or a semiconductor device having a multilayer wiring structure, a conductive layer having a curved surface is used in connection between conductive layers used for the wirings. The top of a conductive layer in a lower layer exposed by removal of an insulating layer therearound has a curved surface, so that coverage of the conductive layer in the lower layer with a conductive layer in an upper layer stacked thereover can be favorable. A conductive layer is etched using a resist mask having a curved surface, so that a conductive layer having a curved surface is formed.
US09437446B2
The present invention provides a slurry for chemical mechanical polishing, containing abrasive grain (a), compound (b) having an amino group having a pKa of more than 9, and not less than 3 hydroxyl groups, and water.
US09437440B2
A method for producing a semiconductor device is provided. The method includes: forming in a semiconductor substrate a plurality of semiconductor mesas extending to an upper side so that adjacent semiconductor mesas are spaced apart from each other by one of a substantially empty trench and a trench substantially filled with a sacrificial layer selectively etchable with respect to the semiconductor mesas; forming a support structure mechanically connecting the semiconductor mesas spaced apart from each other by one of the substantially empty trench and the trench substantially filled with the sacrificial layer; and processing the semiconductor substrate from the upper side while the semiconductor mesas are mechanically connected via the support structure.
US09437435B2
The present invention proposes a low temperature poly-silicon thin-film transistor having a dual-gate structure and a method for forming the low temperature poly-silicon thin-film transistor. The low temperature poly-silicon thin-film transistor includes: a substrate, one or more patterned amorphous silicon (a-Si) layers, disposed in a barrier layer on the substrate, for forming a bottom gate, an NMOS disposed on the barrier layer, and a PMOS disposed on the barrier layer. The NMOS comprises a patterned gate electrode (GE) layer as a top gate, and the patterned GE layer and the bottom gate formed by the one or more patterned a-Si layers form a dual-gate structure. The present invention proposes a low temperature poly-silicon thin-film transistor with a more stabilized I-V characteristic, better driving ability, low power consumption, and higher production yield.
US09437433B2
Embodiments of method for cooling a wafer in an ion implantation process are provided. A method for cooling the wafer in the ion implantation process includes placing the wafer in a process module. The method also includes performing the ion implantation process on the wafer and simultaneously cooling the wafer in the process module. The method further includes removing the wafer from the process module. In addition, the method includes heating up the wafer.
US09437409B2
Systems, devices, circuits, and methods are provided for an improved mass spectrometry detection system that comprises at least one component that operates at a high voltage. A number of high voltage filters or circuits are provided for reducing noise from high voltage power supplies that produce positive and negative voltages. In some embodiments, the filters can comprise one or more diodes. In some embodiments, the filters can comprise one or more transistors. In some embodiments, the filters can comprise one or more transistor pairs. A variety of embodiments of systems, devices, circuits, and methods in conjunction with the disclosures are provided.
US09437407B2
A method of performing a mass spectrometry analysis includes labeling each of a plurality of samples with a corresponding chemical tag; forming a first plurality of ions from molecules in the samples; selecting a subset of the first plurality of ions, the subset being selected by isolating ions of the first plurality of ions in a plurality of ranges of mass-to-charge; forming a second plurality of ions by fragmenting ions in the subset; and measuring information indicative of a quantity of each of the plurality of chemical tags present in each of the plurality of samples.
US09437405B2
Disclosed is a hot rolled plate produced by hot rolling an ingot cast by continuous casting, in which the plate is made of a copper alloy containing 0.5 to 10.0 at % of Ca and the balance consisting of Cu and inevitable impurities and the average grain size of Cu-α phase crystal grains is 5 to 60 μm in a Cu matrix.
US09437401B2
A system including a directional dielectric barrier discharge (DBD) energy system, including a first electrode assembly configured to generate energy, including a first housing having a first fluid disposed in a first chamber, a first magnet, wherein the first magnet is configured to help guide or contain the energy generated by the first electrode assembly, and a first dielectric barrier.
US09437389B2
An assembly of a support plate and an exit window foil for use in an electron beam device. The support plate is designed to reduce wrinkles in said foil, which wrinkles may arise due to surplus foil arising in the assembly process. The foil is being bonded to the support plate along a closed bonding line bounding a substantially circular area in which the support plate is provided with apertures and foil support portions and in which area the foil is adapted to serve as a portion of a wall of a vacuum tight housing of the electron beam device. Another aspect involves a method for using the assembly in a filling machine, as well as a method of reducing wrinkles.
US09437388B2
A system and method for depositing a phosphor composition onto a light emitting device improves manufacturing yield, simplifies conventional processes, and decreases costs. For example, a method of dispensing a phosphor composition onto a light emitting device includes dispensing a portion of the phosphor composition onto the light emitting device utilizing a plurality of colored phosphor dispensers each for dispensing a respective type of phosphor. Power is applied to the light emitting device to emit light, and a characteristic the light emitted by the light emitting device is detected. Phosphor mixing and phosphor dispensing are dynamically controlled. Therefore the color characteristics of phosphor dispensed on LEDs are consistent. The system and method may also reduce the difference between detected characteristic of the light and a desired characteristic of the light.
US09437386B2
The present is directed to a protective device that includes a separator portion disposed between a back body member and a front cover portion. The separator portion includes a reset pin aperture accessible via a first major surface facing the front cover and a reset pin guide portion disposed on an opposite second major surface facing the back body member. The device further includes a latch block assembly having a central latch block portion configured to accommodate a reset pin and a latching element. The central latch block portion includes an open side configured to accommodate the reset pin guide portion. The reset pin is substantially prevented from exiting the central latch block portion via the open side by the reset pin guide portion.
US09437366B2
Disclosed are methodology for providing a precision laser adjustable (e.g., trimmable) thin film capacitor array. A plurality of individual capacitors are formed on a common substrate and connected together in parallel by way of fusible links. The individual capacitors are provided as laddered capacitance value capacitors such that a plurality of lower valued capacitors corresponding to the lower steps of the ladder, and lesser numbers of capacitors, including a single capacitor, for successive steps of the ladder, are provided. Precision capacitance values can be achieved by either of fusing or ablating selected of the fusible links so as to remove the selected subcomponents from the parallel connection. In-situ live-trimming of selected fusible links may be performed after placement of the capacitor array on a hosting printed circuit board.
US09437363B2
An inductor may include: a body, and a first and a second external electrode formed on end surfaces of the body. The body may include a coil support layer, a conductive coil formed on at least one surface of the coil support layer, a lamination part formed in a gap of the conductive coil and on an upper surface thereof, an insulating coating part formed to enclose an overall surface of the conductive coil on which the lamination part is formed, and upper and lower cover layers covering the overall surface of the conductive coil on which the insulating coating part is formed.
US09437358B2
A soft magnetic exchange-coupled composite structure, and a high-frequency device component, an antenna module, and a magnetoresistive device including the soft magnetic exchange-coupled composite structure, include a ferrite crystal grain as a main phase and a soft magnetic metal thin film bound to the ferrite crystal grain by interfacial bonding on an atomic scale. A region of the soft magnetic metal thin film adjacent to an interface with the ferrite crystal grain includes a crystalline soft magnetic metal.
US09437356B2
The invention concerns a medium frequency transformer with a housing, in which numerous winding chambers, having primary and secondary windings, are disposed, wherein the housing is filled, at least partially, with an insulating liquid. The transformer is distinguished in that numerous winding chambers, filled with the insulating liquid, are disposed in the housing, and at least one winding is disposed in each winding chamber, such that, for the most part, only the windings are surrounded by the insulating medium. Preferably the winding chambers are sealed and separated from one another by means of insulating separating walls, wherein the windings are positioned and fixed in place in the winding chambers, and the winding chambers are filled with the insulating liquid. Between the windings there are thus, according to the invention, at least two insulating barriers, which function simultaneously and consist of solid matter insulation in the form of housing and separating walls, and the insulating liquid.
US09437352B2
Provided is a resistor for current detection, wherein connection failure etc. due to electro-migration is prevented from being generated in state that the resistor is mounted on a mounting board. The resistor has a resistance body (11) and electrodes (12). The electrode (12) includes first electrode portion (12a) connected to the resistance body (11) and second electrode portion (12b) formed on the first electrode portion (12a). The second electrode portion (12b) consists of material having higher resistivity than the first electrode portion (12a) and solder, which is used for mounting the resistor on the mounting board.
US09437349B2
A waterproofing structure in a core wire includes a covered electric wire in which a plurality of core wires are covered with an insulating covering, a core wire bundle expanded portion in which the core wires of an intermediate core wire exposed portion are separated from each other and expanded in diameter by removing a part of the insulating covering, and a mold portion that is molded to surround the core wire bundle expanded portion by cooling and solidifying a thermoplastic adhesive filling between the core wires in the core wire bundle expanded portion by hot melting, together with the insulating coverings at both sides between which the intermediate core wire exposed portion is interposed.
US09437347B2
The invention is achieved by applying a layer of the mixture that contains polymer and conductive particles over a first surface, when the mixture has a first viscosity that allows the conductive particles to rearrange within the layer. An electric field is applied over the layer, so that a number of the conductive particles are aligned with the field and thereafter the viscosity of the layer is changed to a second, higher viscosity, in order to mechanically stabilize the layer. This leads to a stable layer with enhanced and anisotropic conductivity that can be used in the manufacture of ESD devices.
US09437341B2
An apparatus to generate negative hydrogen ions includes an ion source operative to generate positive hydrogen ions, a first component to adjust positive molecular hydrogen ion species in the ion source, a second component to adjust extraction voltage for extraction of the positive molecular hydrogen ions from the ion source, and a charge exchange cell comprising charge exchange species to convert the extracted positive molecular hydrogen ions to negative hydrogen ions. The adjusted extraction voltage is effective to generate an ion energy to maximize negative ion current yield in the charge exchange cell based upon a product of extraction efficiency of the positive molecular hydrogen ions and a peak in charge exchange efficiency for converting a species of the positive molecular hydrogen ions to negative hydrogen ions through charge exchange between the extracted hydrogen ions and charge exchange species.
US09437333B2
This invention concerns robotic systems and is specifically concerned with an improved apparatus and method for remotely positioning a sensor, such as an ultrasonic probe, in limited access areas within a nuclear reactor. The apparatus includes a bottom frame and a top cover which is substantially aligned with and positioned above the bottom frame. A sensor is connected to the top cover and linear rails are connected to the bottom frame in a parallel relationship. There is a mechanism movably connected to the first and second linear rails in order to allow horizontal travel of the top cover. Further, there is at least one cable connected to the sensor and a power source, signal source or receiver.
US09437332B2
In a nuclear fuel storage rack including a plurality of rack cells (1) configured to house a nuclear fuel assembly, the rack cell (1) includes a plurality of plate members (10 to 13) containing a radiation absorption material and stood to form a nuclear fuel housing space (8) configured to house the nuclear fuel assembly, and a fastening unit (14) configured to fasten the plurality of plate members (10 to 13). Each of the plate members (10 to 13) includes projections (16) protruding outward in a lateral direction from one side end and the other side end extending in an upward/downward direction (T1), and concave sections (17) formed at one side end side and the other side by the projections (16). The projections (16) protruding outward from outer surfaces of the plate members (10 to 13) in the lateral direction are fastened by the fastening unit (14).
US09437331B2
Generally, the present disclosure is directed to gas monitoring systems that use inductive power transfer to safely power an electrically passive device included within a nuclear material storage container. In particular, the electrically passive device can include an inductive power receiver for receiving inductive power transfer through a wall of the nuclear material storage container. The power received by the inductive power receiver can be used to power one or more sensors included in the device. Thus, the device is not required to include active power generation components such as, for example, a battery, that increase the risk of a spark igniting flammable gases within the container.
US09437330B2
A memory device includes: a non-volatile memory circuit suitable for storing hard repair data; a data bus suitable for transmitting the hard repair data during a boot-up operation, and transmitting soft repair data during a soft repair mode; a plurality of registers suitable for storing repair data transmitted through the data bus and activated when the transmitted repair data is stored; a control circuit suitable for selecting a register to store the transmitted repair data among the plurality of the registers, and during the soft repair mode, deactivating a register that stores the same data as the transmitted repair data; and a memory bank suitable for performing a repair operation based on the data stored in a register that is activated among the plurality of the registers.
US09437318B2
Techniques are provided for reducing program disturb in a memory device. The techniques include compensating for a temperature in the memory device to reduce the upshift in the threshold voltage (Vth) of erased-state memory cells. A minimum allowable program pulse duration increases with temperature to account for an increase in the attenuation of a program pulse along a word line. A program pulse duration which accounts for reduced channel boosting at relatively high temperatures is reduced as the temperature increases. An optimum program pulse duration is based on the larger of these durations. The optimum program pulse duration can also be based on factors such as a measure of program disturb or a memory hole width. Program disturb can also be reduced by easing the requirements of a verify test for the highest data state.
US09437314B2
A precharge control signal generator and a semiconductor memory device include a precharge control signal generating circuit which generates a precharge control signal and applies the precharge control signal to a sensing circuit, and a sensing circuit configured to precharge a bit line connected to a memory cell according to the precharge control signal and read data stored in the memory cell. The precharge control signal controls the sensing circuit so that a precharge time is adjusted according to operating temperature.
US09437305B2
Techniques are provided for reducing the effects of short-term charge loss while programming charge-trapping memory cells. Short-term charge loss can result in a downshift and widening of a threshold voltage distribution. A programming operation includes a rough programming pass in which memory cells are programmed close to a final threshold voltage distribution, for each target data state. Subsequently, a negative voltage is applied to control gates of the memory cells. Subsequently, a final programming pass is performed in which the memory cells are programmed to the final threshold voltage distribution. Since the negative voltage accelerates charge loss, there is reduced charge loss after the final programming pass. The rough programming pass can use incremental step pulse programming for the lowest target data state to obtain information regarding programming speed. An initial program voltage in the final programming pass can be set based on the programming speed.
US09437304B2
An embodiment of a method includes decreasing a difference of a voltage applied to a first select gate minus a voltage applied to a source while the first select gate is off, decreasing a difference of a voltage applied to a second select gate minus a voltage applied to a data line while the second select gate is off, and increasing a voltage of a signal applied to a selected access line that is coupled to an untargeted memory cell in a string of memory cells coupled to the first and second select gates to a program voltage after or substantially concurrently with decreasing the difference of the voltage applied to the first select gate minus the voltage applied to the source and with decreasing the difference of the voltage applied to the second select gate minus the voltage applied to the data line.
US09437303B1
A programming method of a memory array is provided and includes following steps, wherein the memory array includes a target memory cell and two periphery memory cells electrically connected to a first word line. After a first programming operation is performed on the target memory cell, the target memory cell and the two periphery memory cells are verified to obtain a first verification result. Whether to perform a second programming operation or a third programming operation on the target memory cell is determined according to the first verification result. The step of performing the second programming operation or the third programming operation on the target memory cell includes: turning off a first transistor and a second transistor; and increasing a level of a passing voltage for turning on a plurality of non-target memory cells and a level of a programming voltage transmitted by the first word line.
US09437302B2
A sense amplifier provides a state-dependent lockout to limit sensing to those bit lines that target a currently selected state for sensing. A sense amplifier scans program data prior to sensing at the verify levels corresponding to a plurality of states. When program data matches a currently selected state, the sense amplifier senses the bit line voltage during verification and writes the result to a data latch. The sense amplifier may write the result to a data latch for storing quick pass write data, in response to sensing at a low verify level for the selected state for example. When program data does not match the currently selected state, the sense amplifier skips sensing for the bit line. The sense amplifier locks out the bit line prior to sensing based on the program data.
US09437300B2
A semiconductor memory device includes first and second memory cell transistors, first and second word lines electrically connected to the first and second memory cell transistors, respectively, first and second transfer transistors. The first and second transistors are electrically connected to the first and second word lines, respectively. The sizes of the first transistor and the second transistor are different.
US09437297B2
A method for programming a two terminal resistive memory device, the method includes applying a bias voltage to a first electrode of a resistive memory cell of the device; measuring a current flowing through the cell; and stopping the applying of the bias voltage if the measured current is equal to or greater than a predetermined value.
US09437287B2
Devices include multiple phase change materials connected in parallel between electrodes. Memory cells with multiple parallel phase change materials can be programmed to transition among more than two states representing multiple bits of information. Methods for manufacture and use are also disclosed.
US09437285B1
An aspect relates to a memory array that includes at least a first and a second six transistor static random access memory cell, and first and second address decoders. The first address decoder comprises a first latch, the second address decoder a second latch. First and second address data paths provide first and second address data to the at least two address decoders. The first latch is electrically conductive connected to the first data path and the second latch is electrically conductive connected to the second data path. The first latch is further electrically conductive connectable to the second data path via a first multiplexer. The first multiplexer and the at least two latches are configured to be selectively operated in a first write mode for a write access or in a read mode for a read access to the memory array.
US09437282B1
A sense amplifier device for sensing a differential signal produced by a memory cell includes a first n-type metal-oxide-semiconductor field-effect transistor (NMOS) stack having multiple NMOS devices sharing a gate connection connected to a complementary data line; and a second NMOS stack having multiple NMOS devices sharing a gate connection connected to a true data line. At least one of the devices in the first stack has higher gate-to-source and drain-to-source voltages than a gate-to-source and drain-to-source voltages of at least one device in the second stack when the voltage of the complementary data line is higher than the true data line. At least one of the devices in the second stack has a higher gate-to-source and drain-to-source voltages than the gate-to-source and drain-to-source voltages of at least one device in the first stack when the voltage of the true data line is higher than the complementary data line.
US09437281B2
A device includes a transistor switch coupled between a bit line voltage node and a ground node and a boost signal circuit coupled to a gate node of the transistor switch, where the boost signal circuit providing a boost signal responsive to a write enable signal. The device also includes a first delay element and a first capacitor in series with the first delay element. The first capacitor has a first end coupled to the bit line voltage node and a second end coupled to the gate node through the first delay element.
US09437271B2
An electronic device comprising a semiconductor memory unit that includes a resistance variable element configured to be changed in a resistance value according to a value of data stored therein; a first reference resistance element having a first resistance value; a second reference resistance element having a second resistance value larger than the first resistance value; and a comparison unit configured to receive a voltage corresponding to the resistance value of the resistance variable element through a first input terminal and a second input terminal thereof, a voltage corresponding to the first resistance value of the first reference resistance element through a third input terminal, and a voltage corresponding to the second resistance value of the second reference resistance element through a fourth input terminal, the comparison unit configured to output a result of comparing inputs to the first input terminal and the second input terminal and inputs to the third input terminal and fourth input terminal.
US09437266B2
A programmable metallization device comprises a first electrode and a second electrode, and a dielectric layer, a conductive ion-barrier layer, and an ion-supplying layer in series between the first and second electrodes. In operation, a conductive bridge is formed or destructed in the dielectric layer to represent a data value using bias voltages having the same polarity, enabling the use of diode access devices. To form a conductive bridge, a bias is applied that is high enough to cause ions to penetrate the conductive ion-barrier layer into the dielectric layer, which then form filaments or bridges. To destruct the conductive bridge, a bias of the same polarity is applied that causes current to flow through the structure, while ion flow is blocked by the conductive ion-barrier layer. As a result of Joule heating, any bridge in the dielectric layer disintegrates.
US09437257B2
A sensing circuit includes a sensing resistor, a reference resistor and a comparator. The comparator has a first input coupled to the sensing resistor, a second input coupled to the reference resistor, and an output. The first input is configured to be coupled to a data bit line associated with a memory cell to receive a sensing input voltage caused by a cell current of the memory cell flowing through the sensing resistor. The second input is configured to be coupled to a reference bit line associated with a reference cell to receive a sensing reference voltage caused by a reference current of the reference cell flowing through the reference resistor. The comparator is configured to generate, at the output, an output signal indicating a logic state of data stored in the memory cell based on a comparison between the sensing input voltage and the sensing reference voltage.
US09437254B2
A method is provided for using a multi-level cell memory device. The method includes writing first data to a first portion of a memory array using a first number of state levels for memory cells of the first portion of the memory array. The method further includes re-writing second data to a second portion of the memory array using a second number of state levels for memory cells of the second portion of the memory array. The second number is different from the first number.
US09437245B2
An external terminal having a communication unit capable of communicating with a video recording apparatus, the external terminal includes an input unit operable to input additional information from a user, an input start detecting unit operable to detect start of the input of the additional information to the input unit, and a recording state inquiring unit operable to inquire of the video recording apparatus and acquire information representing a recording position in video data currently being recorded by the video recording apparatus via the communication unit, when the input start detecting unit detects the start of the input of the additional information.
US09437244B2
The present invention comprises an input part for inputting image data, a receiving part for receiving production information relating to production transmitted from another apparatus, a recording part for recording the production information received by the receiving part and image data input by the input part, a detection part for detecting a recording position on a recording medium at an editing point of image data recorded by the recording part, and a transmission part for transmitting information of the recording position detected by the detection part, whereby identification information for identifying image data and voice data is recorded in a recording medium or a recording device, this relieving a burden on a photographer and an editor and facilitating extraction of image data and voice data.
US09437242B1
A data storage device is disclosed comprising a disk comprising a plurality of data tracks each comprising a plurality of data sectors, and a head actuated over the disk. A first frequency preamble is written to a first data sector of a first data track and a second frequency preamble is written to a second data sector of a second data track, wherein the first frequency is different from the second frequency and the first data track is adjacent to the second data track.
US09437234B1
An apparatus comprises a read/write head having a heater, wherein a low- or non-modulation interface is defined between the head and a magnetic recording medium. A microactuator is coupled to the head. A main actuator is coupled to the microactuator and the head. A controller is coupled to the main actuator, the microactuator, and the head. The controller is configured to control movement of the main actuator and the microactuator in response to a position error signal. The controller is further configured to induce an oscillation in the heater at a predetermined frequency. A detector is coupled to the controller. The detector is configured to sense a disturbance in the PES supplied to the microactuator resulting from the induced heater oscillation, and detect contact between the head and the medium using the PES disturbance.
US09437233B1
A disc drive assembly that includes a disc having a surface, a slider having an air-bearing surface (ABS) opposite the disc surface, and a voltage source for applying a voltage/potential across the disc and slider. Present on either the ABS or the disc surface is a surface treatment that provides a surface potential of at least +/−0.1 V. In some implementations the surface treatment is a self-assembled monolayer (SAM).
US09437226B1
A method of testing a TAMH includes providing a slider body having a waveguide embedded therein with an incidence end extending toward a back surface of the slider body; providing a light source unit including a light source and a unit substrate; coating a bonding material layer on the back surface, under the bottom, or both on the back surface and under the bottom of the unit substrate; coating a localization material layer on the back surface; aligning the light source unit to the slider body; causing a light emitted from the light source and allowed to be incident on the incidence end to anneal the localization material layer to generate an annealing mark; removing the light source unit or the light source from the slider body; and measuring a position offset between the annealing mark and the incidence end. The method can evaluate alignment accuracy of a slider body and a light source unit in two dimensional directions.
US09437222B1
A magnetic oscillator for use in Microwave Assisted Magnetic Recording (MAMR). The magnetic oscillator can be a spin torque oscillator and includes a magnetic spin polarization layer, a magnetic field generation layer and a non-magnetic intermediate layer sandwiched between the magnetic spin polarization layer and the magnetic field generation layer. The non-magnetic intermediate layer is constructed of a material that provides improved performance, increased lifespan and thermal robustness. The magnetic intermediate layer is constructed of an alloy of Ag and an element X. More preferably the element X can be Sn or Zn.
US09437217B2
A pre-processing apparatus for speech recognition may include: a trailing silence period detection unit configured to detect the length of a trailing silence period contained in a speech signal; a reference trailing silence period storage unit configured to store the length of a reference trailing silence period; and a trailing silence period adjusting unit configured to adjust the length of the trailing silence period contained in the speech signal based on the length of the reference trailing silence period.
US09437215B2
The methods and systems described herein predict user behavior based on analysis of a user video communication. The methods include receiving a user video communication, extracting video facial analysis data from the video communication, extracting voice analysis data from the video communication, associating the video facial analysis data with the voice analysis data to determine an emotional state of a user, collecting biographical profile information specific to the user, applying a linguistic-based psychological behavioral model to the spoken words to determine personality type of the user, and inputting the collected biographical profile information, emotional state, and personality type into a predictive model to determine a likelihood of an outcome of the video communication.
US09437207B2
Various of the disclosed embodiments relate to systems and methods for extracting audio information, e.g. a textual description of speech, from a speech recording while retaining the anonymity of the speaker. In certain embodiments, a third party may perform various aspects of the anonymization and speech processing. Certain embodiments facilitate anonymization in compliance with various legislative requirements even when third parties are involved.
US09437200B2
A method and computing system for suppressing noise in an audio signal, comprising: receiving the audio signal at signal processing means; determining that another signal is input to the signal processing means, the input signal resulting from an activity which generates noise in the audio signal; and selectively suppressing noise in the audio signal in dependence on the determination that the input signal is input to the signal processing means to thereby suppress the generated noise in the audio signal.
US09437199B2
The invention relates to a method and the associated device 1 for separating one or more particular digital audio source signals (si) contained in a mixed multichannel digital audio signal (smix) obtained by mixing a plurality of digital audio source signals (s1, . . . , sp). According to the invention: the modulus of the amplitude or the normalized power of the particular source signal(s) (si) is determined from representative values of said particular source signal(s) contained in the mixed signal; and then linearly constrained minimum variance spatial filtering is performed on the mixed signal in order to obtain each particular source signal (s′i), said filtering being based on the distribution of said particular source signal between at least two channels of the mixed signal, and the modulus of the amplitude or the normalized power of said particular source signal is used as a linear constraint of the filter.
US09437188B1
Systems and methods for assisting automatic speech recognition (ASR) are provided. An example system includes a buffer operable to store sensor data. The sensor data includes an acoustic signal, the acoustic signal representing at least one captured sound. The system includes a processor communicatively coupled to the buffer and being operable to store received sensor data in the buffer. The received sensor data is analyzed to produce new parameters associated with the sensor data. The buffered sensor data is processed based at least on the new parameters. The processing may include separating clean voice from noise in the acoustic signal. The processor is further operable to provide at least the processed sensor data (for example, the clean voice) to an ASR system operable to receive and process the processed sensor data at a speed faster than real time. The new parameters may also be provided to the ASR system.
US09437186B1
Determining the end of an utterance for purposes of automatic speech recognition (ASR) may be improved with a system that provides early results and/or incorporates semantic tagging. Early ASR results of an incoming utterance may be prepared based at least in part on an estimated endpoint and processed by a natural language understanding (NLU) process while final results, based at least in part on a final endpoint, are determined. If the early results match the final results, the early NLU results are already prepared for early execution. The endpoint may also be determined based at least in part on the content of the utterance, as represented by semantic tagging output from ASR processing. If the tagging indicate completion of a logical statement, an endpoint may be declared, or a threshold for silent frames prior to declaring an endpoint may be adjusted.
US09437163B2
Methods and apparatuses to varying the apparent brightness of a display are described. The change in apparent brightness is accompanied by unchanged in relative contrast, rendering a display with higher or lower brightness while maintaining contrast fidelity. In exemplary embodiments, the signals for the middle tone levels are adjusted to increase or decrease the brightness intensity, while keeping constant the gamma correction. This maintains the relative contrast of images while rendering them at a different brightness. Implementations of the present process include an adjusted gamma correction lookup table, incorporated in the video card to modify the video signal before reaching the display. The present invention can be used for matching the brightness of two or more displays or to provide compensation for variations in display characteristics to ensure consistency in display brightness within a data processing model.
US09437152B2
A scan driving circuit is provided. The scan driving circuit includes a pull-up control module, a pull-up module, a pull-down module, a pull-down maintenance module, a bootstrap capacitor, and a low-level constant source. The pull-up control module herein is respectively coupled to the pull-up module, the pull-down module, the pull-down maintenance module, and the bootstrap capacitor; the low-level constant source is respectively coupled to the pull-down maintenance module and the pull-down module. The present invention can avoid a leakage phenomenon well and improve reliability of the scan driving circuit.
US09437149B2
An array substrate and a display are provided, and the array substrate includes: a substrate; a pixel region, provided on the substrate; a plurality of data lines, formed on the substrate; a plurality of gate signal lines, formed on the substrate and configured to apply a gate signal; a plurality of pixel units, located in the pixel region and defined by crossing of the plurality of data lines and the plurality of gate signal lines; and at least one leading wire, provided at the periphery of the pixel region and configured to transmit the gate signal, wherein two ends of each of the plurality of gate signal lines near the periphery of the pixel region are connected with one leading wire through a first thin film transistor and a second thin film transistor respectively.
US09437139B2
A pixel driving current extracting apparatus and a pixel driving current extracting method, the pixel driving current extracting apparatus comprises driving current extracting circuits corresponding to pixel driving circuits for respective colors respectively. Each of the driving current extracting circuits comprises a driving current amplifying and converting unit connected to the pixel driving circuit, for amplifying and converting a driving current of the pixel driving circuit into a voltage signal. A driving current computing unit connected to the driving current amplifying and converting unit is used for computing a pixel driving current according to the voltage signal. An amplification ratio of the driving current amplifying and converting unit in the driving current extracting circuits corresponding to the pixel driving circuits for respective colors is inversely proportional to a magnitude of the pixel driving current for respective colors. The pixel driving currents for respective colors are extracted uniformly and amplified properly without being distorted, thereby providing a well data support for the subsequent signal processing.
US09437135B2
A pixel and an organic light emitting display, the pixel including an organic light emitting diode, a first driver, and a second driver. The first driver controls whether current is supplied to the organic light emitting diode, according to a first data signal from a first data line. The second driver controls whether current is supplied to the organic light emitting diode, according to a second data signal from a second data line.
US09437130B2
A display panel includes a display area, a shift register circuit, a first start signal line, and a second start signal line. The shift register circuit is electrically coupled to the display area through a plurality of signal output lines. The first start signal line and the second start signal line are electrically coupled to the shift register circuit. The first start signal line and the second start signal line are both arranged without crossing the signal output lines.
US09437129B2
Provided are display driving integrated circuits, display devices, and/or methods of operating the display driving integrated circuit. The display driving integrated circuit including a timing controller processing input data and outputting output data; and a source driving unit including at least one source driver and converting into analog data the output data received through a transmission channel connected to the timing controller and outputting the analog data as display data may be provided. The timing controller may include a data selecting unit comparing a transition count of the input data with a transition count of encoded data obtained by encoding the input data, and outputting one of the input data and the encoded data as selection data according to the comparison, a data randomizing unit randomizing the selection data and generating random data, and a data transmitting unit converting the random data into the output data may be provided.
US09437127B2
A device and a method for displaying an image, a device and a method for supplying power, and a method for adjusting brightness of contents are provided. The device for displaying the image includes: a pixel value converter which, if a plurality of color pixel values of the image is received, converts the received color pixel values; a display panel which includes a plurality of color light-emitting devices and which drives each of the plurality of color light-emitting devices based on the converted color pixel values; a light-emission controller which provides the display panel with a control signal which variably controls respective driving times of each of the color light-emitting devices based on colors; and a global controller which controls the light-emission controller to variably adjust a duty ratio of the control signal based on colors and the converted color pixel values.
US09437126B2
A test apparatus for a display includes an interface transmitting characteristic information including a resolution of the display unit and each equivalent model of a plurality of pixels, a reference voltage model including a plurality of reference voltages respectively corresponding to a plurality of pixels included in a unit region of the display unit, and pixel information including a position of a plurality of pixels to be tested among a plurality of pixels, a pixel model generator that schematizes a plurality of pixels into a plurality of test pixels and at least one equivalent load pixel according to the characteristic information and the pixel information to generate a pixel model, and a voltage mapper that maps the reference voltage model to the pixel model to calculate test voltages respectively corresponding to a plurality of test pixels and the equivalent load pixel.
US09437111B2
Systems and methods provide for tracking objects around a vehicle, analyzing the potential threat of the tracked objects, and implementing a threat response based on the analysis in order to keep occupants of the vehicle safe. Embodiments include a boundary detection system comprising a memory configured to store threat identification information, and a sensor unit configured to sense the object outside the vehicle and obtain sensor information based on the sensed object. The boundary detection system further includes a processor in communication with the memory and sensor unit, the controller configured to receive the sensor information, and control a threat response based on the sensor information and the threat identification information.
US09437110B2
A drive assisting apparatus includes an assistance controller configured to create a target vehicle travelling state in which a timing to start stop assistance is changed in accordance with an elapsed time elapsed from at the time a traffic light, which exists in an advancing direction of a vehicle, is switched to a stop display, and an assisting device configured to be able to output drive assisting information for assisting the driving of the vehicle based on the target travelling state amount of the vehicle.
US09437106B2
Remote control systems utilize touch-sensitive user-input devices and/or displays which may be integral with the touch-sensitive user-input devices. Gestures input into a touch-sensitive user-input device result in signals transmitted to one or more appliances for the purpose of controlling the one or more appliances. A display provides intuitive visual feedback regarding input into the remote control system, through a touch-sensitive user-input device and/or other user-input devices. The remote control systems may be configured and dynamically updated based on user activity in connection with the remote control systems.
US09437103B2
A fluid dispenser including a contaminant sensor and methods of use of such a fluid dispenser to monitor contaminants either alone or in an array of similar dispensers within a facility.
US09437101B2
A system for the wireless control of an RC model, comprising a transmitting device separate from the RC model, a multifunctional device in the RC model, and a receiver model in the RC model. The transmitting device comprises a first transmitter for transmitting information via digital radio communication to the RC model, and a second receiver adapted to receive second information via digital radio communication from the RC model. The multifunctional device comprises or is connected to one or more electronic accessory modules. The receiver module is connected to or integrated with the multifunctional device, and comprises a first receiver configured to receive the first information and a second transmitter configured to transmit the second information. A method for using the system, a transmitting device suitable for use with the system, and a receiving device suitable for use with the system are also claimed.
US09437093B2
An ion chamber provides a current representative of its characteristics as affected by external conditions, e.g., clean air or smoke. A direct current (DC) voltage is applied to the ion chamber at a first polarity and the resulting current through the ion chamber and parasitic leakage current is measured at the first polarity, then the DC voltage is applied to the ion chamber at a second polarity opposite the first polarity, and the resulting current through the ion chamber and parasitic leakage current is measured at the second polarity. Since substantially no current flows through the ion chamber at the second polarity, the common mode parasitic leakage current contribution may be removed from the total current measurement by subtracting the current measured at the second polarity from the current measured at the first polarity, resulting in just the current through the ion chamber.
US09437085B1
An integrated electronic donation acceptance device and money collection basket. The money collection basket is portable. The electronic donation acceptance device includes a housing and circuitry that is capable of receiving electronic payments. At least a portion of the housing of the electronic donation acceptance device is releasably couplable to the money collection basket.
US09437083B2
A system for computer gaming includes a processor configured to provide a first table of a first group of players grouped together to play a first hand and provide to each of the first group of players one or more cards for the first hand. The system includes an interface couple to the processor and configured to receive from a first player of the first group of players a request to fold the one or more cards of the first player. The processor is also configured to automatically move the first player to a second table of a second group of players grouped together to play a second hand.
US09437075B2
Method and apparatus for modifying gaming machines to provide supplemental or modified functionality
A method, apparatus, and article of manufacture for transferring credits from one gaming device to another via the use of coded scrip is disclosed. The method comprises the steps of accepting a cash-out command in the gaming device, scanning a magnetically manifested code uniquely identifying a scrip stored in the gaming device, transmitting a cash-out message comprising the code to a remote processor having access to a database configured to store and retrieve codes from a plurality of gaming devices, receiving a scrip dispense message from the remote processor, and dispensing the scrip. The apparatus comprises a scrip storage unit, a scrip dispensing unit having a scrip transducer for reading and recording a magnetically manifested code on a scrip retrieved from the scrip storage unit, and a processor, communicatively coupled to the scrip transducer and a remote computer having access to a database for storing and retrieving code information from the plurality of gaming devices.
US09437068B2
A cash replenishment method for financial self-service equipment. The method comprises: by using a general solution method for directly solving an integral solution of a linear equation with n unknowns, obtaining a general solution formula of the integral solution of the linear equation with n unknowns; then, in accordance with a principle that the cash replenishment amount of each denomination must be greater than zero and less than the number of remaining available banknotes of this denomination in self-service equipment, solving a limiting range of free factors in the general solution formula, so that all cash replenishment solutions are obtained; and lastly, in accordance with a cash replenishment principle of a self-service equipment system, obtaining an optimal cash replenishment solution. The cash replenishment method can find out all cash replenishment solutions without using an exhaustive attack method, and can achieve rapid and highly-efficient cash replenishment.
US09437055B2
When calculating an angle of articulation between two portions of an articulated vehicle such as a tractor-trailer combination, a camera-based articulation angle measuring system comprises camera(s) mounted on the tractor and/or trailer that observe their counterpart and/or features on the other portion of the vehicle. The angles or locations of the counterpart features are measured in the image(s) produced by the camera(s). A geometric model is employed to convert the location and/or angular measurements into a corresponding articulation and/or roll angle for the tractor-trailer combination.
US09437044B2
A method and system is provided for automatic generation and navigation of optimal views of facades of 3D building models in an interactive three-dimensional (3D) map system. The system and method allows for navigation and visualization of facades of building models in a 3D building model visualization system through optimal views of facades.
US09437041B2
A laser ablation tomography system includes a specimen stage for supporting a specimen. A specimen axis is defined such that a specimen disposed generally on the axis may be imaged. A laser system is operable to produce a laser sheet in a plane intersecting the specimen axis and generally perpendicular thereto. An imaging system is operable to image the area where the laser sheet intersects the specimen axis.
US09437038B1
Approaches enable image content (e.g., still or video content) to be displayed in such a way that the image content will appear, to a viewer, to include portions with different locations in physical space, with the relative positioning of those portions being determined at least in part upon a current relative position and/or orientation of the viewer with respect to the device, as well as changes in that relative position and/or orientation. For example, relationship pairs for image content capable of being displayed on a display screen can be determined. Based on the relationship pairs, a node hierarchy that includes position information for planes of content that include the image content can be determined. The position information can be to render a view of the image content based on the relative position, direction, and/or orientation between the viewer and device to provide a two- or three-dimensional representation of that image content that is appropriate for that viewing angle, giving the impression of a three-dimensional view or display even when the display is in two dimensions.
US09437034B1
Systems and methods for generating textures to be rendered in conjunction with a polygon mesh are provided. More particularly, a polygon mesh modeling a geographic area can be accessed. A plurality of source images depicting the geographic area can then be identified. The plurality of source images can be aligned to reduce projection misalignments between source images when the source images are projected to the polygon mesh. A texture can then be determined based at least in part on a weighted average of pixels in the plurality of source images corresponding to a point on the surface of the polygon mesh. Determining a texture can include removing at least one outlier pixel associated with a moving object from the weighted average.
US09437029B2
A computer system running image processing software receives an identification of a desired geographical area to be imaged and collected into an oblique-mosaic image; creates a mathematical model of a virtual camera looking down at an oblique angle, the mathematical model having an oblique-mosaic pixel map of the desired area encompassing multiple source images; assigns surface locations to pixels included in the oblique-mosaic pixel map; creates a ground elevation model of the ground and vertical structures within the oblique-mosaic pixel map using overlapping source images of the desired geographical area, wherein the source oblique images were captured at an oblique angle and compass direction similar to that of the virtual camera; and reprojects, with the mathematical model, source oblique image pixels of the overlapping source images for pixels included in the oblique-mosaic pixel map using the ground elevation model to thereby create an oblique-mosaic image of the desired area.
US09437026B2
An image creating device includes: an acquiring unit, a component creation unit, an extraction unit, a specifying unit, and an image creation unit. The acquiring unit acquires an image. The component creation unit creates a face component image related to main components of a face included in the image acquired by the acquiring unit. The extraction unit extracts feature information from the face included in the image acquired by the acquiring unit. The specifying unit specifies a hair style image, which corresponds to the feature information extracted by the extraction unit, from hair style images which show outlines of hair and are associated with feature information of faces, the feature information being recorded in a recording section. The image creation unit creates a portrait image by using the hair style image specified by the specifying unit and the face component image created by the component creation unit.
US09437020B2
Systems and methods for determining a correct rendering of a candidate entity are provided. An example method includes identifying a first combined image including an image of a reference entity. The reference entity is bound by a first grid including one or more grid cells. The method further includes rendering a second combined image including an image of a candidate entity. The candidate entity is bound by a second grid including one or more grid cells. The method also includes identifying reference and candidate patterns. The method further includes mapping corresponding grid cell patterns of the reference and candidate entities and determining a variance measurement between the mapped grid cell patterns of the reference and candidate entities. The method also includes determining, based on the variance measurement, whether the candidate entity is a correct rendering in accordance with the reference entity.
US09437018B2
The present invention provides a method and apparatus for reducing artifacts in CT image reconstruction. The method comprises obtaining an original reconstructed image and an original sinogram and determining a proportion of metal pixels in the original reconstructed image. If the proportion is greater than a first threshold value, then generating an expanded metal template based on the original reconstructed image, generating a metal-free, metal artifact reduced (MAR) image based on the expanded metal template and the original sinogram, and generating a final image based on the expanded metal template and the metal-free, MAR image. However, if the proportion of metal pixels is less than a second threshold value, then generating an expanded metal template based on the original reconstructed image, generating a metal-free, metal artifact reduced image based on a treatment, and generating a final image based on the expanded metal template and the metal-free, MAR image.
US09437014B2
A method for labeling a segment of a two-dimensional input path defined according to a nonzero winding rule as either interior or exterior is described. A winding number is initialized. A scan line that intersects the segment is identified. For each contour of the input path, winding values are accumulated into the winding number for any segments of the contour that cross the identified scan line, where the accumulation for coincident segments that cross the identified scan line at a same location as the segment is postponed. These coincident segments are marked and saved in a list. The labeling of the segment as either interior or exterior is determined from the list and the winding number.
US09437010B2
A method for generating a motion field between a current frame and a reference frame belonging to a video sequence from an input set of elementary motion fields is disclosed. The method comprises performed for each pixel belonging to said current frame: determining a plurality of candidate motion vectors between the current frame and the reference frame wherein each candidate motion vector is the result of the sum of a first motion vector between the current frame and an intermediary frame belonging to the video sequence and of a second motion vector between the intermediary frame and the reference frame; and selecting a motion vector among candidate motion vectors. The method is remarkable in that elementary motion fields are obtained with different time intervals between pairs of frames and in that the first motion vector belongs to the input set of elementary motion fields and the second motion vector belongs to a set of previously selected motion vectors for other current frames of the video sequence.
US09437007B2
A binarizing section generates binary image data representing a binary image from raster image data representing a raster image. A white-pixel ratio determining section determines, based on the binary image data, a white pixel ratio for each line of the binary image and a position of each of lines having a white pixel ratio equal to or greater than a predetermined first threshold among the lines of the binary image, and also determines a white pixel ratio for an entirety of the binary image. An image-type determining section determines that the raster image is a photographic image when the white pixel ratio of the entirety of the binary image is equal to or less than a predetermined second threshold, and that the raster image includes a text image when the lines having a white pixel ratio equal to or greater than the first threshold appear cyclically in the binary image.
US09436993B1
Systems and methods for image guidance, which may include an image processing unit, cameras, and handheld real-time imaging components or handheld displays, wherein the cameras observe visual features on patients, tools, or other components, and wherein said features allow camera or object positions to be determined relative to secondary image data or a reference position, and wherein the image processing unit is configured to dynamically register observations with secondary image data, and to compute enhanced images based on combinations of one or more of secondary image data, positioning data, and real-time imaging data.
US09436986B2
An image processing apparatus that obtains a synthesized image of a subject viewed from an arbitrary viewpoint includes a calculator, a storage, and a synthesizer. The calculator calculates a correction value for a pixel value of a pixel that partially constitutes the picked-up images on the basis of a brightness of each of the plurality of picked-up images. The storage stores the correction value for each of the pixels. The synthesizer obtains a pixel value of a pixel in the synthesized image that corresponds to the pixel that partially constitutes the picked-up images by correcting a pixel value of the pixel that partially constitutes the picked-up images on the basis of a positional relationship of the pixel in the picked-up images, a correspondence relationship between the picked-up images and the synthesized image, and the correction value, and thereby generates the synthesized image.
US09436982B1
A scalable rank filter and method for performing rank filtering are disclosed. In one embodiment, the rank filter comprises a W staged pipeline with W stages to receive N input data samples and operable to generate an output based on the N input data samples as a result of the W stages completing execution, where W is a bit length of the inputs and W and N are integers greater than two; and output logic coupled to the W staged pipeline to determine the output prior to all W stages completing execution and to output the median.
US09436979B2
A device includes: an image acquisition device acquiring a taken image in which a subject is imaged; a smoothing device generating a smoothed image by smoothing the taken image; a noise extraction device extracting a difference noise component from a difference between the taken image and the smoothed image; a noise addition device adding the difference noise component to the smoothed taken image; a map acquisition device acquiring a blurring strength map that represents a distribution of blurring strengths for the taken image; and an image combining device combining the taken image with the smoothed image on the basis of the blurring strength map, and generating an output image.
US09436978B2
An information processing apparatus has a decomposition unit that decomposes an image into multiple frequency component images, a reduction unit that reduces linear noise included in the frequent component images, and a reconstruction unit that reconstructs the frequency component images with reduced linear noise.
US09436974B2
Methods, computer program products, and computer systems for recovering data of scene are provided. The techniques include: obtaining, by at least one processor, data of a scene; re-sampling, by the at least one processor, the data of the scene to obtain re-sampled sensing data of the scene and a corresponding sensing matrix; and constructing, by the at least one processor, recovered data of the scene using the re-sampled sensing data of the scene and the corresponding sensing matrix. In one embodiment, the method includes enhancing occluded data of the scene to construct the recovered data of the scene, where the recovered data of the scene facilitates identification of the scene. In another embodiment, the method includes compressing original data of a scene, the compressing including sampling the original data of the scene to select the data of the scene.
US09436972B2
Methods and systems may provide for executing, by a physically distributed set of compute slices, a plurality of work items. Additionally, the coherency of one or more memory lines associated with the plurality of work items may be maintained, by a cache fabric, across a graphics processor, a system memory and one or more host processors. In one example, a plurality of crossbar nodes track the one or more memory lines, wherein the coherency of the one or more memory lines is maintained across a plurality of level one (L1) caches and a physically distributed cache structure. Each L1 cache may be dedicated to an execution block of a compute slice and each crossbar node may be dedicated to a compute slice.
US09436969B2
One embodiment of the present invention sets forth a technique for redistributing geometric primitives generated by tessellation and geometry shaders for processing by multiple graphics pipelines. Geometric primitives that are generated in a first processing cycle are collected and redistributed more evenly and in smaller tasks to the multiple graphics pipelines for vertex processing in a second processing cycle. The smaller tasks do not exceed the resource limits of a graphics pipeline and the per-vertex processing workloads of the graphics pipelines in the second cycle are balanced and make full use of resources. Therefore, the performance of the tessellation and geometry shaders is improved.
US09436968B1
A system and method for managing licensing of virtual environment applications. A licensing module of a first installed virtual environment application detects installation of affiliated applications and gives them a group licensing key for passing it to the licensing server. The licensing server derives licensing parameters of the affiliated applications from the group key and gives the licenses to the affiliated applications, in case of successful validation. The licensing system provides protection from un-authorized copying of the applications. If an affiliated virtual environment application is copied (or moved) to another hardware node without its virtual environment, the licensing server will not give the license activation key to this virtual environment application.
US09436967B2
A system for providing location-based services to a mobile device regularly determines the location of the mobile device. Using the location of the device, the system queries a database of virtual geographic regions to determine if the location of the mobile device falls within one or more of the virtual geographic regions. The virtual geographic regions correspond to service entities that have purchased, rented, leased, or otherwise acquired the virtual geographic regions. The virtual geographic regions cover a certain area of a map. If the mobile device is within a virtual geographic region, the system notifies the mobile device. A location-based services application installed on the mobile device launches an applet for the entity that acquired the virtual geographic region within which the mobile device is located. When the mobile device is located within multiple overlapping virtual geographic regions, the system generates a prioritization scheme that defines which of the corresponding service entities should be displayed on the mobile device, and in what order the service entities should be displayed.
US09436963B2
Techniques are described for visualizing a product at the actual location in the environment at which the product is to be used or displayed. An embodiment of the approaches described herein may be used in the context of a computer-based system that can receive and store digital images, receive a request to manufacture a custom framed product including an identification of an image to be framed and a type of mat and/or frame, and display a preview image of the custom framed product that simulates the actual appearance of the product as closely as possible. With such a system, the preview image may be highly realistic under idealized lighting and display conditions. A digital asset visualizing the custom product may be built using a data that maps nodes of a reference connectivity graph of a marker to nodes of a candidate connectivity graph.
US09436959B2
The present invention is an individual product identification method, comprising: previously storing epidermal pattern images in a predetermined scope with a predetermined location of a registered product taken as a reference; imaging the epidermal pattern in the predetermined scope with the predetermined location of the product, being a target of individual product identification, taken as a reference; correcting the imaged epidermal pattern image of the product, being a target of individual product identification to an image for collation with the registered product with the predetermined location of the product taken as a reference: and collating an image characteristic of the epidermal pattern image of the registered product with the image characteristic of the corrected epidermal pattern image, and identifying whether the product, being a target of individual product identification, is one of the registered products.
US09436958B2
System, method, and computer program product embodiments for receiving customer requests use a request management system. An embodiment operates by establishing a connection with a customer's mobile device, obtaining information about the location of the customer's mobile device, providing to the customer's mobile device a set of data describing goods or services currently offered by one or more business locations, receiving from the customer's mobile device a request for a good or service offered by a particular business location, and adding the request to a queue associated with one or more groups assigned to fulfill the request based on the request type.
US09436956B2
A subscription-based system for providing commerce information for one or more mobile devices for one or more merchants. Some techniques employed feature a subscription-based method for presenting commercial resources to a mobile device. The method involves receiving mobile device user information relating to a geographic location to locate one or more merchants within a subscription-based shopping network, and receiving mobile device user information relating to a merchant type within the subscription-based shopping network. The method also involves receiving, from a database over a communication network, information for one or more merchants associated with the mobile device user information for the geographic location and the merchant type, and presenting the associated merchant information on the mobile device. The associated merchant information can include a merchant name and address, a merchant telephone number, a merchant advertisement, a merchant coupon, or a merchant product or service offering to subscribers of the shopping network.
US09436952B2
A method for caching targeted webpage content is disclosed. In one embodiment, such a method includes dividing a cacheable content pertaining to a website into a static portion and a dynamic frame for displaying visitor targeted content. The method determines a result for one or more targeting rules applied to a visitor's activity on a portion of the website and provides the result to the visitor's browser. The method further includes loading the dynamic frame of the cacheable content with visitor targeted content based on the provided result. A corresponding apparatus and computer program product are also disclosed.
US09436935B2
A system and method for transaction bitcoin is described. Bitcoin can be sent to an email address. No miner's fee is paid by a host computer system. Hot wallet functionality is provided that transfers values of some Bitcoin addresses to a vault for purposes of security. A private key of a Bitcoin address of the vault is split and distributed to keep the vault secure. Instant exchange allows for merchants and customers to lock in a local currency price. A vault has multiple email addresses to authorize a transfer of bitcoin out of the vault. User can opt to have private keys stored in locations that are under their control. A tip button rewards content creators for their efforts. A bitcoin exchange allows for users to set prices that they are willing to sell or buy bitcoin and execute such trades.
US09436932B2
A method and system for highlighting email recipients according to a user's social network are provided. The method includes receiving an email message at a user's email client, the email message having multiple recipients, one of the recipients being the user. The method further includes obtaining a social network list for the user and comparing the social network list for the user with the email message recipients and highlighting recipients in the email message who are also in the social network list. The social network list for a user may be obtained by different methods including using the user's contact resources, or using an aggregating social network system including weighting relationships between contacts.
US09436929B2
Exemplary collaborative event playlist systems and methods are disclosed herein. An exemplary system includes a moderator device located at an event premises, connected to a local area network at the event premises, and hosting a collaborative event playlist for playback at an event at the event premises. The system further includes a participant device located at the event premises, connected to the local area network at the event premises, and configured to communicate with the moderator device by way of the local area network to participate in populating the collaborative event playlist with a song to which the participant device has access rights. Corresponding methods and systems are also disclosed.
US09436920B2
Various embodiments of the present disclosure include methods and apparatus for tracking and reporting the social impact of food products. In an example embodiment, an apparatus comprises a hand-held device including a display and one or more input devices to sense product identification indicia associated with a food product that is grown or raised in an agricultural operation. The hand-held device includes at least one processor to determine a machine-readable identification code from the product identification indicia; send the identification code to at least one remote server; receive, from the at least one remote server, information that is associated with the product, the information including social impact information that is associated with the production of the food product; and display at least some of the received social impact information on the display in human readable form.
US09436915B2
A medical decision making support apparatus performs the inference processing of obtaining an inference result by performing inference processing associated with medical diagnosis based on a plurality of pieces of input medical information, and the calculation processing of calculating the degree of denial or affirmation of the inference result in association with each of a plurality of partial sets including each medical information extracted from the plurality of pieces of medical information as an element. The medical decision making support apparatus presents a user an inference result obtained by the inference processing and negative information indicating medical information included in a partial set, of the plurality of partial sets, for which the degree of denial is calculated by the calculation processing.
US09436913B2
An adaptive probabilistic computer-controlled method and system determines computer-controlled actions that are expected to reduce uncertainties that are embodied as probabilities and then updates the probabilities in accordance with the results of the computer-controlled actions. The updated probabilities inform the determination of subsequent computer-controlled actions. Expected values of information may also be applied in determining the subsequent computer-controlled actions. The computer-controlled actions may comprise analysis of content and generating recommendations that are delivered to users, and inferences from the analysis of content and usage behaviors may inform the updating of the probabilities. Statistical learning functions and/or neural networks may be applied in determining the computer-controlled actions.
US09436906B2
Disclosed is a system for analyzing user-behavior using a TaP algorithm. For example, raw data are collected and segmented to become segmented data. In this example, the TaP algorithm in combination with a sliding time window is implemented to derive a convex hull polygon. A determination of geometric properties of the derived convex hull polygon facilitates the analysis of the user-behavior.
US09436905B2
A method for manufacturing an antenna sheet. The method is for connecting at least one of an antenna coil and a connection pattern, to a conductive member. The at least one of the antenna coil and the connection pattern is provided on one surface of a substrate and the conductive member is provided on the other surface of the substrate. The method includes a pressing process performed to form a first through hole to the substrate, wherein the first through hole passes through the substrate, and to bring the at least one of the antenna coil and the connection pattern, and the conductive member into contact with each other. The method also includes a melting process performed to melt the at least one of the antenna coil and the connection pattern, and the conductive member to each other.
US09436904B2
Robust merchandise tags, patches, inlays and labels are provided for mounting on garments, fabrics, apparel accessories and other flexible merchandising materials. These are robust enough to withstand processing during manufacturing, including steps such as machine washing, stone washing and chemical treatments, while being capable of remaining on the garment, fabric or the like during inventory handling, merchandising and consumer use. The robust merchandise tags combine a hybrid-slot loop antenna structure with an uncharacteristically large area conductor sheet in the nature of a foil or the like. Overlaminations and fold-over portions also can be included for robustness enhancement.
US09436903B2
A wearable device is provided with a wearable device structure with first end and second ends. A plurality of magnets is positioned at the first and second ends that provide for coupling of the first end to the second end of the wearable device structure. At least a portion of adjacent magnets are separated a defined distance from each other. ID circuitry is at a surface or an interior of the wearable device structure.
US09436898B2
A printer includes a printing unit, a plurality of paper feeding units, a storage unit and a control unit. The printing unit is configured and arranged to execute printing based on a printing job. The paper feeding units are configured and arranged to supply paper to the printing unit. The storage unit is configured and arranged to correlate and store the paper feeding units and attributes of the paper held in the paper supply units. The control unit is configured to compare the attributes of the paper correlated with the paper feeding units with attributes of the paper specified with a printing job, and when there is no paper feeding unit for which the attributes correlated therewith is consistent with the attributes specified with the printing job, to display on a screen one of the paper feeding units in which to place the paper specified with the printing job.
US09436897B2
An image forming apparatus includes a count unit, a count determination unit, a drawing process execution unit, and a count resetting unit. The count unit counts a drawing command for a vector object. The count determination unit determines whether or not a count of the drawing commands obtained by the count unit is equal to or larger than a threshold value. The drawing process execution unit executes, when the count determination unit determines that the count is equal to or larger than the threshold value all the drawing commands for the vector objects counted by the count unit prior to the count being equal to or larger than the threshold value. The count resetting unit resets the count obtained by the count unit when the drawing process execution unit executes the drawing command.
US09436890B2
Example embodiments disclose a method of generating a feature vector, a method of generating a histogram, a learning unit classifier, a recognition apparatus, and a detection apparatus, in which a feature point is detected from an input image based on a dominant direction analysis of a gradient distribution, and a feature vector corresponding to the detected feature point is generated.
US09436884B2
Extracting card data comprises receiving, by one or more computing devices, a digital image of a card; perform an image recognition process on the digital representation of the card; identifying an image in the digital representation of the card; comparing the identified image to an image database comprising a plurality of images and determining that the identified image matches a stored image in the image database; determining a card type associated with the stored image and associating the card type with the card based on the determination that the identified image matches the stored image; and performing a particular optical character recognition algorithm on the digital representation of the card, the particular optical character recognition algorithm being based on the determined card type. Another example uses an issuer identification number to improve data extraction. Another example compares extracted data with user data to improve accuracy.
US09436883B2
Various embodiments provide methods and systems for identifying text in an image by applying suitable text detection parameters in text detection. The suitable text detection parameters can be determined based on parameter metric feedback from one or more text identification subtasks, such as text detection, text recognition, preprocessing, character set mapping, pattern matching and validation. In some embodiments, the image can be defined into one or more image regions by performing glyph detection on the image. Text detection parameters applying to each of the one or more image regions can be adjusted based on measured one or more parameter metrics in the respective image region.
US09436853B1
A system and method for improving supply chain visibility is provided. According to a preferred embodiment, an electronic manifest may be downloaded and linked or attached to an existing purchase order. This electronic manifest is preferably designed to accepted data from RFID devices and other sensors. Further, the electronic manifest is preferably configured to be easily accessed the carriers or others in the chain of custody. According to a further aspect of the present invention, sensor-enabled RFID tags may be employed to track a product through the supply chain, capture temperature data, and to calculate shelf life.
US09436848B2
A computing device receives a feature name or key name for an integrated circuit comprising a security manager core and an additional component. At least one of a) the additional component is associated with the key name or b) a feature provided by the additional component is associated with the feature name. The computing device receives a specified number of bits associated with the feature name or the key name, and maps the feature name to a feature address space or the key name to a key interface of the security manager core based at on the specified number of bits. The computing device generates at least one hardware description logic (HDL) module based on the mapping, wherein the at least one HDL module is usable to configure the security manager core for delivery of payloads associated with the feature name or the key name to the additional component.
US09436847B2
A computing device includes technologies for securing indirect addresses (e.g., pointers) that are used by a processor to perform memory access (e.g., read/write/execute) operations. The computing device encodes the indirect address using metadata and a cryptographic algorithm. The metadata may be stored in an unused portion of the indirect address.
US09436841B2
Methods and systems for maintaining the confidentiality of data provided by an organization for storage on a third party database system are provided. The data can be encrypted on an internal network of the organization and sent to the third party database system for storage. The third party database system can associate metadata with the encrypted data and can store the encrypted data. Accordingly, when a request for the encrypted data is received from a computing device communicating with an internal network of the organization, the encrypted data and associated metadata can be sent to the computing device. A key that is stored on an internal network of the organization can be called through an applet, which utilizes information within the metadata to locate the key on the internal network of the organization.
US09436836B2
A method for regulating process, production, and/or actuating installation includes recording observation data records at installation components of the installation by respective recording units of the installation. The method also includes transmitting the observation data records to a central control apparatus of the installation via a field bus. The method further includes forming, at the control apparatus, associated actuating data record based on the transmitted observation data records. The method also includes transmitting the actuating data records to actuating units of the installation via filed buses. The method also includes adjusting the installation components from the actuating units based on the transmitted actuating data records. The observation data records are encrypted at the respective recording units before transmitted to the control apparatus The actuating data records are formed from the encrypted observation data records without decrypting the encrypted observation data records during the process of forming the actuating data records.
US09436833B2
A security circuit may include a functional circuit including a test chain that connects flip-flops to verify hardware of the functional circuit, the functional circuit configured to generate an output signal by encrypting an input signal based on a control signal, a mode signal, and the chain; and/or a test controller configured to generate the input, control, and mode signals, and configured to generate an authentication result based on the output signal. A security circuit may include a first device including a plurality of flip-flops in a test chain, the first device configured to receive first, second, and third signals, and configured to generate a fourth signal by encrypting the first signal based on the second and third signals and the chain; and/or a second device configured to generate the first, second, and third signals, and configured to generate an authentication result based on the fourth signal.
US09436829B2
In one embodiment, a computer-implemented method for security testing of web applications with specialized payloads includes submitting a test to a web application, where the test includes a payload with a set of constraints. A response is received from the web application. One or more constraints are derived from the response. The set of constraints of the payload are updated with the derived one or more constraints. The payload is synthesized, by a computer processor, for the updated set of constraints. The test having the synthesized payload is iterated with the updated set of constraints.
US09436828B2
In accordance embodiments of the present disclosure, a method may include, during execution of an operating system on an information handling system and responsive to a user input indicating a desire to invoke a basic input/output system (BIOS) setup program for configuring a BIOS, prompting for and receiving user-provided credentials via a user interface communicatively coupled to the processor. The method may also include, during execution of the operating system, passing BIOS credentials to the BIOS based on the user-provided credentials. The method may additionally include, during execution of the operating system determining, by the BIOS, if the BIOS credentials are valid. The method may further include, responsive to determining that the BIOS credentials are valid, setting a flag to a value indicating that the BIOS setup program is to be invoked on a subsequent boot of the information handling system.
US09436824B1
Disclosed are system and method for performing antivirus scans of files. An exemplary method includes detecting, by an antivirus application executed by a hardware processor, opening of a file for writing of data to the file; performing, by the antivirus application, antivirus scan of at least a portion of the file; when the file is determined to be clean, obtaining a record of antivirus scans of the file; determining from the record a number of performed antivirus scans on the file by the antivirus application and a maximum number of required antivirus scans; when the number of performed antivirus scans is below the maximum number of required antivirus scans, continue antivirus scans of the file by the antivirus application; and when the number of performed antivirus scan is equal to the maximum number of required antivirus scans, discontinue antivirus scans of the file by the antivirus application.
US09436822B2
An embodiment for providing a secure virtual browsing environment includes creating a virtual browsing environment with a virtualized operating system sharing an operating system kernel of a supporting operating system and executing the browser application within the virtual browsing environment. Another embodiment includes receiving a website selection within a browser application, determining if the website selection corresponds to a secure bookmark, and creating a second virtual browsing environment and executing the browser application within the second virtual browsing environment to access the website selection when the website selection corresponds to a website specified as a secure bookmark. Yet another embodiment includes monitoring operation of the operating system within the at least one virtual browsing environment, determining when the operation of the operating system includes potential malicious activity, and terminating the virtual browsing environment when the operation includes potential malicious activity.
US09436821B2
The disclosed computer-implemented method for detecting attempts to transmit sensitive information via data-distribution channels may include (1) identifying an attempt to transmit a file through a data-distribution channel, (2) comparing, using an image-matching technique, the file with at least one known sensitive file that is both stored in an image format and protected by a data-loss-prevention policy, (3) determining, based on the results of the image-matching technique, that the file violates the data-loss-prevention policy, and (4) performing a security action in response to determining that the file violates the data-loss-prevention policy. Various other methods, systems, and computer-readable media are also disclosed.
US09436818B1
A system of credential management and identity verification includes a portable input device and an application that, when executed on the input device, authenticates a user of the input device and provides associated credentials to a computing device. The application detects a request for credentials presented by a proximate computing device. Then, the application alerts a user of the computing device to confirm his identity by submitting one of a biometric or non-biometric authenticating input to the input device. The authenticating input is received by the input device and used to verify the identity of the user. If the identity is verified, the application transmits the associated encrypted credentials and mask data to the computing device. The input device may be a pointing device connected wirelessly or via wired connection to the computer. User authentication data is provided to the input device at an initial or predetermined time.
US09436811B2
A non-transitory computer readable medium may include executable instructions which, when executed by a processor, cause the processor provide for a repository of digital content and to create a first license based on the digital content. The instructions further cause the processor to transmit the first license and the digital content to a non-destructive testing (NDT) device, and wherein the digital content is configured to be executed by, used by, or displayed by the NDT device, or a combination thereof, based on the first license.
US09436809B2
The invention relates to a method for a first communication device to perform authenticated distance measurement between the first communication device and a second communication device, wherein the first and the second communication device share a common secret and the common secret is used for performing the distance measurement between the first and the second communication device. The invention also relates to a method of determining whether data stored on a first communication device are to be accessed by a second communication device. Moreover, the invention relates to a communication device for performing authenticated distance measurement to a second communication device. The invention also relates to an apparatus for playing back multimedia content comprising a communication device.
US09436804B2
Systems and methods for independently generating a unique private session key at one or more hardware devices within a computing system using a subset of the functionality implemented in a hardware functionality scan combined with the use of a one-way mathematical function.
US09436802B2
This disclosure relates generally to contaminable medical products. In particular, this disclosure provides systems, apparatuses, and methods for preventing contaminated use of medical products that become contaminated upon being used for an intended purpose that requires the operation of a medical treatment apparatus, medical treatment system, or both. A medical product may have a unique identity and a permissive operation session, that is associated with the unique identity, may be created to allow a use of the medical device when uncontaminated, while preventing the use of the medical product after it has been presumably contaminated during the permissive operation session.
US09436801B2
A patient-specific hemodyanmic status model is determined from impedance data collected during periods of normal and abnormal hemodynamic status by deriving parameter values of a set of multiple impedance-derivable parameters from impedance signals collected during periods of normal hemodynamic status and in connection with periods of abnormal hemodynamic status. The parameter values are employed to estimate coefficients of a linear parametric status model. These coefficients can then be used together with parameter values determined from impedance signals determined during status assessment periods in order to determine a current hemdoynamic status of the patient.
US09436794B2
A method of optimizing timing performance of an IC design expressed as a graph that includes several nodes representing IC components is provided. The method identifies several paths in the graph. Each path starts from a timed source node and ends to a timed target node. Each path includes several clocked elements and several computational elements. The method optimizes the timing performance of the IC design by skewing clock signals to one or more clocked elements in a set of paths to satisfy timing constraints. The method identifies a path that includes a set of edge-triggered clocked elements and does not satisfy the set of timing constraints. The method replaces each edge-triggered clocked element in the identified path with a level-sensitive clocked element and optimizes the timing performance of the IC design by skewing clock signals one or more clocked element in the identified path.
US09436784B2
Disclosed are methods and systems of rapidly validating accuracy in particle cloud forecast transport and dispersion models. An example method can comprise accessing a forecast model of a volcanic ash cloud. An example method can comprise generating first data based at least on the forecast model. The first data can have at least one fewer spatial dimension than second data associated with the forecast model. An example method can comprise determining accuracy of the forecast model based at least on measurements of at least a portion of the volcanic ash cloud. An example method can comprise refining the forecast model based at least on the determined accuracy, thereby improving a representation of the volcanic ash cloud.
US09436775B2
A first set of usage data for a first set of resources on a network and a second set of usage data for a second set of resources on a network are accessed. The first set of resources were accessed by a first group of client systems and the first set of usage data is determined based on information received from the first group of client systems sent as a result of beacon instructions included with the first set of resources. The second set of usage data is determined based on information received from monitoring applications installed on a second group of client systems that accessed the second set of resources. Users of the second group of client systems are a sample of a larger group of users that use resources on the network. Initial usage measurement data for a third set of resources on the network is determined based on the first set of usage data. The third set includes one or more common resources that are included in the first set of resources and the second set of resources. One or more adjustment factors are determined based on the second set of usage data and applied to the initial usage measurement data to generate adjusted usage measurement data. One or more reports are generated based on the adjusted usage measurement data.
US09436759B2
The performance of traditional speech recognition systems (as applied to information extraction or translation) decreases significantly with, larger domain size, scarce training data as well as under noisy environmental conditions. This invention mitigates these problems through the introduction of a novel predictive feature extraction method which combines linguistic and statistical information for representation of information embedded in a noisy source language. The predictive features are combined with text classifiers to map the noisy text to one of the semantically or functionally similar groups. The features used by the classifier can be syntactic, semantic, and statistical.
US09436754B1
This disclosure describes systems and methods for establishing a unit group dictionary based on user provided annotations. The unit group dictionary may be used to identify relationships between multiple items in a corpus. Those relationships may facilitate the display of object identifiers and/or other aspects used and/or provided by the object management service.
US09436753B2
An update management method and apparatus therefor are provided, the update management method including the operations of storing one or more pieces of update information related to at least one channel from a plurality of channels in a storage unit of a user terminal; and displaying the one or more pieces of update information in the related at least one channel.
US09436745B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for providing task-based information are disclosed. In one aspect, a method includes identifying a set of previous interactive sessions for a particular task. For each identified interactive session in the set of previous interactive sessions, a set of implements used during the interactive session are identified based on content of the interactive session. At least one implement in the identified set of implements is classified as a required implement for the particular task. The classification is based, at least in part, on a portion of the previous interactive sessions in which the implement was identified. Classified implements are indexed according to the particular task. Data identifying the indexed implements are provided in response to receipt of a search query referencing the particular task.
US09436744B2
A device may receive information that identifies a search query. The device may use the search query to cause a search of internal and external documents to be performed to identify internal and external search results. The device may cause the internal search results and the external search results to be presented for display. The internal search results may be presented for display to visually distinguish the internal search results from the external search results. The device may receive an indication that an external search result has been flagged for review, and may provide a notification that the external search result has been flagged for review. The device may determine that the external search result has been approved for presentation as an internal search result, and may store an indication that the external search result is to be identified as an internal search result for a future search.
US09436740B2
Incremental query results and confidence interval values associated with respective incremental query results may be obtained. Visualization shape objects indicating uncertainty values may be determined, based on mapping values of respective incremental query results and confidence interval values to points in the associated visualization shape objects, the uncertainty values visualized based on proportional shapes of the visualization shape objects. At least one visualization comparison object representing a comparison of a plurality of distributions associated with the obtained incremental query results and confidence interval values may be determined. Display of the plurality of visualization shape objects and the at least one visualization comparison object may be initiated.
US09436739B2
Techniques for scheduling query execution are provided. In one embodiment, a computer system can receive a query to be executed and can assign a priority to the query. The computer system can further divide the query into a plurality of sub-queries and can assign a sub-priority to each sub-query, where the sub-priority is based on a resource consumption metric of the query. The computer system can then select, from a plurality of sub-query pools, a sub-query pool that includes sub-queries of queries that have the same priority as the query, and can add the plurality of sub-queries to the selected sub-query pool.
US09436733B2
Techniques for query statistics inheritance are provided. Statistics for a database are used to determine selectivity estimates for sparse joins and tables being joined together within a given query. These statistics are inherited up to the given query along with the selectivity estimates and provided to a database optimizer to use when developing query plans and selecting an optimal query plan for the given query.
US09436726B2
A system, method, or computer program product for translating non-quantitative, text-based data into a quantitative risk management tool(s) including: receiving, by a computer processor(s), non-quantitative data relating to cross-border public policy; receiving, by the processor(s), at least one tag relating to said non-quantitative data; storing, by the processor(s), said non-quantitative data and said at least one tag in a database; and providing, by the processor(s), quantitative risk management tools designed to provide customized, automatic daily graphical illustrations of policy activity levels on a cross-border basis using concepts and other meta-tagging tools to generate graphs. Tools may mining data to extract quantitative and graphical information from stored, tagged non-quantitative data and may semantically search those documents as well as assess correlations and covariances of cross-border policy processes, and deliver quantitative and/or graphical output results.
US09436724B2
Techniques for migrating data in a database include identifying an update to one or more data entries of a source table; determining that a status of a trigger associated with the source table indicates to update a logging table, and in response: updating, in a first transaction, (i) the one or more data entries of the source table, and (ii) one or more data entries of the logging table based on the user input, and copying content of the source table to a target table; and determining that the status indicates to update the target table, and in response: updating, in a second transaction, (i) the one or more data entries of the source table and (ii) one or more data entries of the target table based on the user input, and updating the content of the target table based on the one or more data entries of the logging table.
US09436721B2
The present disclosure relates generally to the field of determining data access patterns associated with different workloads. In various examples, determining data access patterns associated with different workloads may be implemented in the form of systems, methods and/or algorithms. The present disclosure also relates generally to the field of scheduling workloads (and/or recommending scheduling for workloads) based upon the determined data access patterns associated with the different workloads. In various examples, scheduling workloads (and/or recommending scheduling for workloads) may be implemented in the form of systems, methods and/or algorithms.
US09436716B2
A method for network storage by receiving, by a storage compiler, a first storage definition from a storage application developer, where the first storage definition describes a customized storage implementation for storing data in an abstraction of at least one physical storage device, compiling the first storage definition to generate a first customized storage implementation module, and loading the first customized storage implementation module into an IO engine. The first customized storage implementation module causes data to be stored in the at least one physical storage device differently than prior to loading the first customized storage implementation module in the IO engine.
US09436715B2
A data management method including accepting a request of polygon data including data pertaining to latitude/longitude of each vertex of a polygon, specifying a minimum unit rectangle matching a minimum bounding rectangle of the polygon or including the minimum bounding rectangle from plural unit rectangles formed by recursively dividing a two-dimensional space including a latitude/longitude range and being equally divided in X and Y directions in the same number, generating a character string by assigning values to the minimum unit rectangle or all unit rectangles including the minimum unit rectangle in correspondence with the number of divided parts of the two-dimensional space in the X and Y directions, and alternately arranging the values, in the X or Y direction, starting from values corresponding to a large unit rectangle among the unit rectangles, and storing the polygon data in correspondence with a key including the character string.
US09436706B2
An image group including at least one image is acquired, a layout candidate is created, by laying out images included in an acquired image group, and the created layout candidate is evaluated. Evaluation of the layout candidate is performed based on evaluation of each image laid out within a layout, and a scaling factor based on image size of the image placed in the layout, and a size of the image.
US09436702B2
A system for performing a similarity search in a navigation device data base uses a metric index structure. The index structure includes a plurality of nodes. When a query object is received, a node of the index structure which is associated with at least one object is accessed. A distance between the query object and the at least one object is determined in accordance with a distance metric. Based on the determined distance, another node of the index structure is selectively accessed.
US09436700B2
One example method for communicating a file modification during a collaboration event includes steps of a first computer communicating a file modification status request to a second computer, the status request including at least a file identifier and a file property. The second computer uses the file identifier from the request to identify a current property of a corresponding file. The second computer compares the current file property to the file property from the status request and communicates a response to the first computer when the current property does not match the property from the status request.
US09436683B2
An assistive food preparation system and method configured to match a code with at least one signal within a database for facilitating food preparation and transmit the signal associated with the numerical code for receipt by a user seeking food preparation assistance.
US09436680B2
Embodiments relate to supporting creation of a manual of a program product. An aspect includes recording into a recording medium that can be accessed by the computer a screen character string, a translated character string where the screen character string has been translated to another language, or an identifier associated with the screen character string or the translated character string, displayed on a display device by the program product. Another aspect includes recording into the recording medium attribute information of the screen character string or the translated character string. Yet another aspect includes maintaining consistency between the screen character string or the translated character string and a character string that is displayed on a display device by an application for creating the manual, using the screen character string, the translated character string or identifier recorded on the recording medium and the attribute information.
US09436669B1
A computer-implemented method for interfacing with dynamic web forms may include (1) identifying a web page, (2) parsing the web page in order to identify an attribute of at least one interactive element that indicates that the interactive element may be used to create at least one input field on the web page, (3) in response to identifying the attribute, monitoring the interactive element in order to detect a user interaction with the interactive element, (4) in response to detecting the user interaction with the interactive element, identifying at least one new input field on the web page, and (5) performing an automated task on the new input field in response to the input field being newly identified. Various other methods, systems, and computer-readable media are also disclosed.
US09436667B2
Techniques are provided for rendering media as layers. Logical units of media form a media stream. The media stream as a whole is processed to divide components within the units into assigned layers. The layers are then formatted to a desired output format in parallel with one another when dependencies permit. Next, each unit of media is rendered to the output format by superimposing or merging multiple layers to reconstruct each unit of media in the output format.
US09436664B2
A method and system for performing search and replace operation has been implemented. The system enables to perform multiple scope based search concurrently within plurality of documents. The system also supports multiple file formats and is able to generate reports post completion of the search and replace operation.
US09436654B1
Methods and systems for processing task management requests are provided. A cache client adapter receives a task management request other than an abort for a logical storage object owned by a cache owner adapter and determines if there are any pending input/output (I/O) requests associated with the storage object. The cache client adapter sends an abort request to the cache owner adapter when there are pending I/O requests and sends the task management request directly to a controller that manages a storage device whose space is presented as the logical storage object; and sends only the task management request to the controller when there are no pending I/O requests for the logical storage object.
US09436647B2
A start/stop condition detection circuit is coupled to receive the SDA and SCL signals from an IIC Bus. The circuit generates a first signal in response to an edge of the SDA signal and generates an inversion of the first signal as a second signal in response to an opposite edge of the SCL signal. The first and second signals are logically combined to generate an output signal. The particular directions of the edges of the SDA and SCL signals that the circuit is response to determines whether the output signal is indicative of a start condition detection or a stop condition detection.
US09436645B2
The present disclosure includes a medical monitoring hub as the center of monitoring for a monitored patient. The hub includes configurable medical ports and serial ports for communicating with other medical devices in the patient's proximity. Moreover, the hub communicates with a portable patient monitor. The monitor, when docked with the hub provides display graphics different from when undocked, the display graphics including anatomical information. The hub assembles the often vast amount of electronic medical data, associates it with the monitored patient, and in some embodiments, communicates the data to the patient's medical records.
US09436641B2
A switch fabric is disclosed that includes a serial communications interface and a parallel communications interface. The serial communications interface is configured for connecting a plurality of slave devices to a master device in parallel to transmit information between the plurality of slave devices and the master device, and the parallel communications interface is configured for separately connecting the plurality of slave devices to the master device to transmit information between the plurality of slave devices and the master device, and to transmit information between individual ones of the plurality of slave devices. The parallel communications interface may comprise a dedicated parallel communications channel for each one of the plurality of slave devices. The serial communications interface may comprise a multidrop bus, and the parallel communications interface may comprise a cross switch.
US09436640B1
A rack server system for a map/reduce data processing is disclosed. The method can include a plurality of servers arranged in a rack, and a plurality of offload processor modules supported on at least two of the servers, each offload processor module having an input-output (IO) port and multiple offload processors, a first offload processor module configured to execute map steps of the map/reduce data processing, and being connected directly to a second offload processor through their respective IO ports to define a midplane switch, wherein the second offload processor module is configured to execute reduce steps of on data provided from the first offload processor module.
US09436627B2
A controller for controlling interrupt processing in a multiple-interrupt system is provided. The controller includes multiple watchdog timers (WDTs), each provided for each of interrupt priorities. The controller includes interrupt priority selectors, each of which receives each interrupt request signal and outputs an activation signal to a corresponding WDT according to the priority of the interrupt request signal. The controller includes an interrupt processing circuit, which when a WDT has timed out, outputs, to a processor, an interrupt request signal having a priority one or more levels higher than the priority corresponding to the WDT. When multiple causes of interrupt are assigned to one of the interrupt priorities, the interrupt processing circuit gives priority to an interrupt request signal caused by the timeout of a WDT lower in priority level than the interrupt priority to detect that an abnormal operation has occurred in interrupt processing having the lower level priority.
US09436623B2
Methods, apparatus and systems for implementing run-time fabric reconfiguration are described herein. In accordance with one aspect, techniques are disclosed for implementing run-time fabric reconfiguration on a System on a Chip (SoC) via use of multiple endpoint fabric interfaces having routing logic that is dynamically reconfigured at run-time by a fabric control unit in response to system-state changes. The endpoint fabric interfaces may be coupled to or integrated in IP blocks that are coupled to a switch fabric, or may be implemented in the switch fabric itself. The run-time fabric reconfiguration techniques may be implemented to for various purposes and/or to address various events, such as node failures, security events, IP or design bugs, feature prototyping, and virtualization.
US09436622B2
Apparatuses, methods and storage media for communications between a peripheral device and host device in the absence of established connection between the devices are described. In one instance, an apparatus may include a host processor, a memory, and a controller coupled with the host processor and the memory and configured to detect for a communication broadcasted via an advertising channel by a peripheral device; determine whether a unique identifier previously communicated to the peripheral device is present in the detected communication; and provide a message corresponding to the communication to the host processor for processing, based on a result of the determination. The apparatus communicates with the peripheral device via a connection established over communication channels. The advertising channel and the communication channels are different. The connection between the devices is not established when the communication is broadcasted via the advertising channel. Other embodiments may be described and claimed.
US09436621B1
A layered device driver operating on a computer system is discussed. The device driver includes three components: an application component operating in user space, an interface component operating in kernel space, and a physical component operating in kernel space.
US09436618B2
A memory device including at least one memory location for storing information representing data written using a first encryption/decryption method, and a read channel using a second encryption/decryption method for reading and decrypting information as written. The memory device also includes an apparatus that prevents the reading of the at least one memory location using the second encryption/decryption method, in response to an indication that the at least one memory location was written using the first encryption/decryption method. In another embodiment, a reading of all zeroes is returned in response to an indication of another encryption/decryption method.
US09436617B2
A global navigation satellite system (GNSS) includes an efficient memory sharing architecture that provides additional search capacity by, e.g., sharing a portion of GNSS receiver processor memory with a general processor. A memory management unit dynamically revectors memory accesses in accordance with the various states of the GNSS receiver processor and arranging the available memory as a shared memory bank that can be efficiently shared between the general processor and the GNSS receiver processor. An optional ancillary memory system can provide additional memory to the general processor when the GNSS receiver processor has allocated memory that the general processor would otherwise use.
US09436616B2
A device includes a memory that stores a first page table that includes a first page table entry, wherein the first page table entry further includes a physical address, an alternative location associated with the page table entry, and a physical page of memory associated with the physical address. A first processing unit is configured to: read the first page table entry, and determine the physical address from the first page table entry. The second processing unit is configured to: read the physical address from the first page table entry, determine second page attribute data from the alternative location, wherein the second page attribute data define one or more accessibility attributes of the physical page of memory for the second processing unit, and access the physical page of memory associated with the physical address according to the one or more accessibility attributes.
US09436615B2
A storage module may include a controller that is configured to perform a read operation to read data stored in at least one memory, where the data is associated with logical address information. In order to perform the read operation, the controller may be configured to retrieve a preliminary physical address associated with the logical address information, and initiate a data retrieval process for a first version of the data stored at the preliminary physical address prior to confirming a final physical address associated with the logical address information.
US09436611B2
A processor capable of storing trace data is disclosed. The processor includes a core adapted to execute programs, as well as a cache memory electrically connected to the core. The cache memory includes a core way and a trace way. The core way is adapted to store data that is required when the core executes the programs. The trace way is adapted to store data that is generated during debugging operations of the core. A control method of the processor is also disclosed.
US09436605B2
An apparatus and method for reducing or eliminating writeback operations. For example, one embodiment of a method comprises: detecting a first operation associated with a cache line at a first requestor cache; detecting that the cache line exists in a first cache in a modified (M) state; forwarding the cache line from the first cache to the first requestor cache and storing the cache line in the first requestor cache in a second modified (M′) state; detecting a second operation associated with the cache line at a second requestor; responsively forwarding the cache line from the first requestor cache to the second requestor cache and storing the cache line in the second requestor cache in an owned (O) state if the cache line has not been modified in the first requestor cache; and setting the cache line to a shared (S) state in the first requestor cache.
US09436600B2
A memory system that has a multi-channel volatile memory subsystem is coupled to a non-volatile memory subsystem to provide independent, configurable backup of data. The volatile memory subsystem has one or more main memory modules that use a form of volatile memory such as DRAM memory, for which the NV subsystem provides selective persistent backup. The main memory modules are dual in-line memory modules or DIMMs using DDR SDRAM memory devices. The non-volatile memory subsystem (NV backup) includes an NV controller and non-volatile memory NVM. The NV backup can also include a memory cache to aid with handling and storage of data. In certain embodiments, the NV controller and the non-volatile memory are coupled to the one or more DIMM channels of the main memory via associated signal lines. Such signal lines can be, for example, traces on a motherboard, and may include one or more signal buses for conveying data, address, and/or control signals. The NV controller and the non-volatile memory can be mounted on the motherboard.
US09436597B1
A buffer pool for a database application is maintained in a volatile main memory component. A control portion that corresponds to a block of application data residing on a non-volatile, asymmetric memory component and that includes a reference to a location of the block of application data on the non-volatile, asymmetric memory component is added to the buffer pool maintained in the volatile main memory component. The control portion from the buffer pool maintained in the volatile main memory component that corresponds to the block of application data is accessed and the location of the block of application data on the non-volatile, asymmetric memory component is identified. Based on identifying the location of the block of application data on the non-volatile, asymmetric memory component, the database application is enabled to access the block of application data directly from the non-volatile, asymmetric memory component.
US09436589B2
An analysis system may perform network analysis on data gathered from an executing application. The analysis system may identify relationships between code elements and use tracer data to quantify and classify various code elements. In some cases, the analysis system may operate with only data gathered while tracing an application, while other cases may combine static analysis data with tracing data. The network analysis may identify groups of related code elements through cluster analysis, as well as identify bottlenecks from one to many and many to one relationships. The analysis system may generate visualizations showing the interconnections or relationships within the executing code, along with highlighted elements that may be limiting performance.
US09436587B2
A method to generate a human-friendly test context in a test proxy for a function under test may include generating an initial test context of the function under test. The method may also include enhancing a current test context with a new context enhancement. The method may also include adding a hint to the current test context. The current test context may include or be derived from the initial test context.
US09436586B1
In determining code coverage, execution data indicative of portions of a program that have been executed for testing is received. The program is analyzed based on the execution data and a control flow for the program. Based on the analysis, it is determined that additional portions of the program, which are not indicated by the execution data, have also been executed. Related methods, systems, and computer program products are also discussed.
US09436584B2
A Software as a Service (SaaS) platform for geo-location simulation to test a location based application is provided. The SaaS platform comprises a simulator and a client connected to a server through a network. The simulator receives location data corresponding to one or more geo-locations, and a user motion data corresponding to a user motion associated with one or more geo-locations. The simulator acquires a geo-simulation data corresponding to the geo-locations. The simulator processes the geo-simulation data, and the user motion data to simulate the geo-location for the user motion. Furthermore, the simulated geo-location is provided for testing the location based application.
US09436572B2
A method and system to determine whether a web page has been cached is provided. An example system comprises a cookie generator, a cookie distributor, and a cookie evaluator. The cookie distributor may be configured to provide the code to a client system, in response to a request for web content from the client system. A value of the code to be updated at the client system in response to the client system initiating a request for the web content. The cookie evaluator may be configured to compare a value of the code to the default value. The cached status detector may be configured to use a result of the comparing to determine a cached status of the web content, the cached status to indicate whether the web content has been cached by the client system.
US09436570B2
A user station of a bus system includes: a counter for counting each message which is sent without error and/or each message which is received without error, the counter being incremented when a message is sent without error and/or a message is received without error, and a reset device for resetting the counter reading of the counter when the counter reading of the counter is read.
US09436569B2
Methods and systems for communicating data between a vehicle and a ground system are described. The system includes an integrated power and communications connector that couples to the vehicle so that power is supplied to at least selected systems on-board the vehicle. In addition, data is communicated between the vehicle on-board systems and the ground system via the integrated connector.
US09436561B2
The recovery of a transaction, and perhaps the recovery of multiple transactions, in a computing system in which one or more persistent systems are coupled via a bus to one or more processors. As an example, the persistent system may serve as part of the main memory of the computing system. The transaction might implement multi-versioning in which a record is not updated in place. Rather, each record is represented as a sequence of one or more record versions, each version having a valid interval during which that the record version is considered to properly represent the record. Torn write guards may be used to verify that there are no torn writes in the record versions or in the log buffer associated with the transaction.
US09436559B2
A storage apparatus is connected to a host apparatus and a secondary storage apparatus and includes a memory, a storage device, and a processor. The memory includes a save memory area and a cache memory area that temporarily stores data received from the host apparatus. The storage device stores data that is received from the host apparatus.The processor controls a duplication process for specified data to another storage apparatus at a point in time of a start of duplication, saves a first data block into the save memory area when receiving an update request of the first data block in the cache memory area after the start of duplication, and updates the first data block in the cache memory area to an updated data block.
US09436556B2
A database storage system provides replication capability that allows data from a source database and application specific data from a source application to be replicated respectively to a target database storage system and a target application, thereby creating a virtual database and a virtual application. The database storage system generates a plurality of snapshots of the virtual database at a corresponding plurality of time points and a plurality of snapshots of the virtual application at the corresponding plurality of time points. The database storage system associates the plurality of snapshots of the virtual database with the plurality of snapshots of the virtual application at the corresponding plurality of time points so as to generate a historical time-sequence of concurrent modifications to both the virtual database and the virtual application at the one or more development environments, thereby allowing concurrent read/write and rollback, of data and applications.
US09436555B2
Systems and methods enable a virtual machine, including any applications executing thereon, to quickly start executing and servicing users based on pre-staged data blocks supplied from a backup copy in secondary storage. An enhanced media agent may pre-stage certain backed up data blocks which may be needed to launch the virtual machine, based on predictive analysis pertaining to the virtual machine's operational profile. The enhanced media agent may also pre-stage backed up data blocks for a virtual-machine-file-relocation operation, based on the operation's relocation scheme. Servicing read requests to the virtual machine may take priority over ongoing pre-staging of backed up data. Read requests may be tracked so that the media agent may properly maintain the contents of an associated read cache. Some embodiments of the illustrative storage management system may lack, or may simply not require, the relocation operation, and may operate in a “live mount” configuration.
US09436554B2
A processor executes a procedure including performing a repair process including first detecting whether there is any abnormality in data read out from a first storage, repairing abnormal data that is the data in which abnormality is detected as a result of the first detection, and storing the repaired data in a second storage area, second detecting when an address of data changed in the repair process and an address of a read-out source of the abnormal data in the first storage area match, whether there is any abnormality in data read out from an area indicated by the address of data changed in the repair process and the address of the read-out source of the abnormal data in the first storage area, repairing and storing, in the second storage area, the data in which abnormality is found as a result of the second detection.
US09436549B2
In one embodiment, a storage module comprises a controller and a memory having a plurality of bit lines. The controller detects an uncorrectable error in a code word read from the memory, determines location(s) of grown bad bit line(s) that contributed to the error in the code word being uncorrectable, and uses the determined location(s) of the grown bad bit line(s) to attempt to correct the error in the code word.
US09436543B2
An electronic device comprising a clock unit and a processing unit connected to the clock unit is described. The clock unit may deliver an output clock signal for operating the processing unit in accordance with the output clock signal. The clock unit may have: a normal mode in which the output clock signal has a low amount of jitter and a normal clock rate to enable normal use of the electronic device, and a failure analysis mode in which the output clock signal has a high amount of jitter or a reduced clock rate, or a high amount of jitter combined with a reduced clock rate, to impede the normal use. The clock unit may be protected against unauthorized re-activation of the normal mode. A method of protecting an electronic device against unauthorized use is also described.
US09436535B2
Systems and methods are provided for analyzing operating metrics of monitored metric sources. Aspects of the present disclosure may present for display information associated with the monitored metric source and the analysis of its operating metrics. Analysis comprises determination of reference values and tolerance levels which represent allowable deviations from the reference values. Input data includes a measurement of an operating parameter and a time stamp. Input data may be saved to a data store for using in future analysis of other input data. When input data is determined to be outside the tolerance level, notifications may be issued to alert administrators or systems of the anomaly.
US09436522B2
Disclosed is a multimedia data processing method by a framework, in which the framework is capable of directly controlling data input and output of components in a state of the framework being interposed between the components and an application program, thereby reducing the time and effort involved in developing the components or the application program.
US09436521B2
Systems and corresponding methods include a system having an operating system based wholly around a protocol stack, such as a Transmission Control Protocol/Internet Protocol (TCP/IP) stack. The system may include a central processing unit (CPU) including the operating system embedded therein, and a network interface coupled with a network and the CPU. The network may be the Internet. The operating system is fundamentally a state machine. The kernel of the operating system is fundamentally just a protocol stack for communicating with one or more devices of the network via the network interface. The protocol stack may be a TCP/IP protocol stack, UDP/IP stack or combinations thereof. A chip may be provided that includes the TCP/IP stack state machine-based operating system embedded in a CPU. The resultant chip may be ultra low power, miniscule in size, and IP-centric.
US09436512B2
Methods for efficient job scheduling in a heterogeneous chip multiprocessor that include logic comparisons of performance metrics to determine if programs should be moved from an advanced core to a simple core or vice versa.
US09436511B2
Exemplary method, system, and computer program product embodiments for full exploitation of parallel processors for data processing are provided. In one embodiment, by way of example only, a set of parallel processors is partitioned into disjoint subsets according to indices of the set of the parallel processors. The size of each of the disjoint subsets corresponds to a number of processors assigned to the processing of the data chunks at one of the layers. Each of the processors are assigned to different layers in different data chunks such that each of processors are busy and the data chunks are fully processed within a number of the time steps equal to the number of the layers. A transition function is devised from the indices of the set of the parallel processors at one time steps to the indices of the set of the parallel processors at a following time step.
US09436509B2
A pre-provisioned application platform may be provided. First, a plurality of parameters may be received. Then a plurality of pre-provisioned tenants may be created based upon the received plurality of parameters. A request for service may be received and then an actual tenant may be assigned to one of the plurality of pre-provisioned tenants in response to the received request.
US09436498B2
A computer hardware system configured to perform runtime analysis and runtime control of a multithreaded computer program includes at least one processor. The at least one processor is configured to initiate and/or perform the following. A plurality of the threads are folded, under control of a supervisor thread, together to be executed as a single folded thread. The execution of the folded thread is monitored to determine a status of the threads. At least one indicator corresponding, to the determined status of the threads, is presented in a user interface.
US09436492B2
The provisioning of a virtual machine when booted from virtual storage. During virtual machine boot from an image, the virtual machine detects storage media. The virtual machine acquires a provisioning agent and provisioning data from the detected storage media. The virtual machine uses the provisioning data to provision itself, and executes the provisioning agent. The provisioning agent may monitor the progress of the provisioning and/or report a status of the provisioning. The virtual machine may operate in a cloud computing environment, the status of the provisioning agent being returned to the user through the cloud environment. The user need not generate the provisioning data in a format readable by the virtual machine. Instead, perhaps some naturally entered user input is used to automatically generate the properly formatted provisioning data using perhaps a service in the cloud.
US09436491B1
The invention provides a computer system and a method for testing hardware device based on virtual machine. The computer system comprises a virtual machine device installed with a guest operating system. The guest operating system comprises a guest driver and a hypervisor having an expansion test module. When the computer system is intended for testing the hardware device, the guest driver will issue a sequence of test instructions to a real hardware or a virtual hardware via the expansion test module. The real hardware or the virtual hardware processes the test instructions so as to generate at least one response signal and transmit the response signal to the guest driver via the expansion test module. The guest driver is capable of detecting the response signal in order to verify the correctness of the real hardware or the virtual hardware processing the test instructions.
US09436490B2
A computer-implemented method for simulating performance of a wide area application service (WAAS) comprises receiving network traffic statistics and properties associated with operation of a first network comprising a first number of virtual client machines and corresponding virtual server machines. The method may also comprise establishing a second virtual network comprising a second number of virtual client machines and corresponding virtual server machines, the second number being greater than the first number. The method may also comprise simulating performance of the second virtual network based on the network traffic properties associated with operation of the first virtual network.
US09436488B2
An information processing apparatus that mounts a first and second system boards SB#0 and SB#1 includes a virtualization control unit that operates a virtual machine for virtualizing hardware resources. The SB#0 includes a memory that stores a command line, resource information, and management information. The SB#1 includes a memory that stores a command line and resource information. The command line is executed by the virtualization control unit. The resource information is data used by each system board from among data used when the virtualization control unit operates. The management information is data commonly shared by each system board and used by the virtualization control unit. A command line and resource information are used when the virtualization control unit operates and information on the hardware resources included in the corresponding SB. Each SB executes the command line and refers to the information stored in the memory in SBs.
US09436485B2
Methods, apparatuses, and computer program products are provided for synchronization of data between an electronic mobile device and an electronic computing dockstation. Embodiments include detecting, by the dockstation, completion of a docking procedure connecting the mobile device to the dockstation; identifying, by the dockstation, applications that are open on the mobile device; opening, by the dockstation, the identified applications on the dockstation; identifying, by the dockstation, files that are open on the mobile device; syncing, by the dockstation, the identified files with corresponding files within the dockstation, including updating an existing file within the dockstation; and opening on the dockstation, by the dockstation, the synced files with the open applications on the dockstation.
US09436484B2
Methods, apparatuses, and computer program products are provided for synchronization of data between an electronic mobile device and an electronic computing dockstation. Embodiments include detecting, by the dockstation, completion of a docking procedure connecting the mobile device to the dockstation; identifying, by the dockstation, applications that are open on the mobile device; opening, by the dockstation, the identified applications on the dockstation; identifying, by the dockstation, files that are open on the mobile device; syncing, by the dockstation, the identified files with corresponding files within the dockstation, including updating an existing file within the dockstation; and opening on the dockstation, by the dockstation, the synced files with the open applications on the dockstation.
US09436482B2
The disclosed architecture allows markup language (e.g., HTML) pages to facilitate the insertion of content (e.g., text) into an application to which an input method is attached. In this way, a plug-in developer can implement any UI look and behavior using a web page language (e.g., HTML), communicate with a backend datasource just as a regular HTML page, and perform this using any suitable technology. Since the web page is stored in a web server and downloaded to client on-the-fly, install is minimal and users can use the latest version automatically. A broker component receives data derived from code authored in the programming language and embedded in a markup language and provides the additional arbitrary data to the application.
US09436472B2
Embodiments of a processor architecture utilizing multi-bank implementation of physical register mapping table are provided. A register renaming system to correlate architectural registers to physical registers includes a physical register mapping table and a renaming logic. The physical register mapping table has a plurality of entries each indicative of a state of a respective physical register. The mapping table has a plurality of non-overlapping sections each of which having respective entries of the mapping table. The renaming logic is coupled to search a number of the sections of the mapping table in parallel to identify entries that indicate the respective physical registers have a first state. The renaming logic selectively correlates each of a plurality of architectural registers to a respective physical register identified as being in the first state. Methods of utilizing the multi-bank implementation of physical register mapping table are also provided.
US09436465B2
A processor, which executes m number of arithmetic operations in parallel, executes a partial sum instruction which takes an i-th to (i+m−1)-th elements of an input data series as input elements, so as to obtain first vector data, executes the partial sum instruction which takes a (i+x)-th to (i+x+m−1)-th elements of the input data series as the input elements, so as to obtain second vector data, and performs operations to subtract the p-th element of the first vector data and add the p-th element of the second vector data from and to a sum of the i-th to (i+x−1)-th elements of the input data series in parallel for each of the 0-th to (m−1)-th elements, so as to calculate sums of elements for m sections different from each other in parallel, and moving average processing to calculate a moving average from the sums of elements of the sections.
US09436438B2
System and method for specifying and implementing programs. A graphical program is created in a graphical specification and constraint language that allows specification of a model of computation and explicit declaration of constraints in response to user input. The graphical program includes a specified model of computation, a plurality of interconnected functional blocks that visually indicate functionality of the graphical program in accordance with the specified model of computation, and specifications or constraints for the graphical program or at least one of the functional blocks in the graphical program. The specified model of computation and specifications or constraints are useable to analyze the graphical program or generate a program or simulation.
US09436436B2
A system and method for generating random numbers. The system may include a random number generator (RNG), such as a quantum random number generator (QRNG) configured to self-correct or adapt in order to substantially achieve randomness from the output of the RNG. By adapting, the RNG may generate a random number that may be considered random regardless of whether the random number itself is tested as such. As an example, the RNG may include components to monitor one or more characteristics of the RNG during operation, and may use the monitored characteristics as a basis for adapting, or self-correcting, to provide a random number according to one or more performance criteria.
US09436424B1
The illustrative embodiments described herein provide a non-transitory computer readable medium and a method for printing a document from a mobile communication device. In one embodiment, the method includes receiving a print job sent from the mobile communication device and determining a location of the mobile communication device. The method also includes identifying a printer proximate the mobile communication device and initiating execution of the print job at the identified printer.
US09436421B2
A method of increasing data flow to a printing device includes, with a first raster image processor, converting a document into a first bitmap having a first dot density and representing a black color plane of the document; with a second raster image processor, converting the document into a second bitmap at a second dot density that is a relatively lower dot density than that of the first bitmap, the second bitmap representing other color planes of the document; and transmitting data of the first and second bitmaps to a printing device for printing to a print medium.
US09436418B2
A non-transitory storage medium stores instructions executable by a device control apparatus including a storage for storing a setting value. The instructions cause the device control apparatus to: display a first setting screen for selection of the setting value for each of setting items; when a setting value for at least one of the setting items is changed from a particular setting value to a setting value, set the changed setting value as one of options regarding setting values for at least one changed setting item; display a second setting screen containing the set option being in a selected state, as the setting value for the at least one changed setting item; and for each of the at least one changed setting item, when the setting value determined by a selecting and determining operation differs from the particular setting value, store the determined setting value into the storage.
US09436415B2
A print control apparatus includes a print instruction unit that instructs a printer to print data on a medium, and a resume instruction unit that, in response to an interruption occurring in a printing operation after the printer has printed a first portion of the print data onto the medium, instructs the printer to start resuming the printing operation subsequent to a clearance of the interruption with the printing operation of a third portion of the print data subsequent to a second portion onto the medium if a predetermined condition to validate the printing operation of the second portion of the print data subsequent to the first portion is satisfied.
US09436407B1
Methods and systems for cursor remirroring are disclosed. A mirroring process is initiated for a plurality of chunks stored by a master node. The mirroring process comprises visiting a sequence of one or more of the chunks and, for at least some of the chunks, copying chunk data or metadata to a slave node. During the initiated mirroring process, a request is received for a write operation on one of the chunks stored by the master node. If the chunk in the request has been visited in the mirroring process, the write operation is performed on the master node and on the slave node. If the chunk in the request has not been visited, the write operation is performed on the master node and postponed on the slave node until the chunk in the request has been visited in the mirroring process.
US09436406B2
Methods and arrangements for selecting a migration decision window for hotspots in a multi-tier enterprise storage system. Aspects include collecting usage statistics for data stored in the multi-tier enterprise storage system, identifying hotspots from data stored in the multi-tier enterprise storage system based on the usage statistics, and determining one or more characteristics of the identified hotspots. Aspects further include calculating an average lifespan of the identified hotspots based on the one or more characteristics of the identified hotspots and selecting the migration decision window based on the average lifespan of the identified hotspots and the one or more characteristics of the identified hotspots.
US09436405B2
Systems and methods are described for logical partitioning of library resources (e.g., storage media resources and/or media drive resources in storage libraries) across a complex of multiple, physically distinct, but logically interconnected data storage libraries. For example, a user selects complex-wide resources to add to one or more library partitions via a graphical user interface displayed on a local console of one of the storage library systems. The partitions can be validated and converted into a partition definition. In some implementations, the partition definition is redundantly stored as a predefined short format in local storage of some or all the storage library systems in the complex. This can minimize the resources used to store the partition definition, provide redundancy for added configuration options and/or in case of certain failures, speed up processing of resource queries, and/or provide other features.
US09436393B2
Redundant storage devices in particular suitable for so-called SSD electronic disks. A data storage system is proposed based on a plurality of redundant physical storage disks in which the read/write commands intended to be sent to the redundant disks are subjected to a transfer function before being sent to at least one of the disks so that the actual commands sent to at least two disks are different. The values returned by the disks that received the commands that had undergone the transfer function are subjected to the inverse transfer function. Thus, a design error in the control module of the disks will be detected, since the control modules of the disks will not be called identically.
US09436388B2
Memory access alignment in a double data rate (‘DDR’) system, including: executing, by a memory controller, one or more write operations to a predetermined address of a DDR memory module, including sending to the DDR memory module a predetermined amount of data of a predetermined pattern along with a data strobe signal; executing, by the memory controller, a plurality of read operations from the predetermined address of the DDR memory module, including capturing data transmitted from the DDR memory module; and determining, by the memory controller, a read adjust value and a write adjust value in dependence upon the data captured in response to the read operations.
US09436387B2
A system includes memory unit having one or more storage arrays, and a memory interface unit that may be coupled between a memory controller and the memory unit. The memory interface unit may include a timing unit that may generate timing signals for controlling read and write access to the memory unit, and a control unit that may calibrate the timing unit at predetermined intervals. However, in response to an occurrence of a given predetermined interval, the memory interface unit may be configured to calibrate the timing unit using a number of partial calibration segments.
US09436383B2
Provided is an operating device that suppresses differences in operational feeling resulting from the amount of sensitivity of a detection subject. The operating device (1) includes a touch panel (2) that outputs a first capacitance in accordance with the distance between a finger and an operation surface (20), a determination unit (3) that determines contact to the operation surface (20) by the finger by comparing the first capacitance acquired from the touch panel (2) and a pre-set first threshold (30), a discrimination unit (4) that, after contact has been determined by the determination unit (3), discriminates on the basis of the first capacitance the amount of sensitivity of the finger contributing to the capacitance detected by the touch panel (2), an alteration unit (5) that alters the first threshold (30) to a second threshold (51) on the basis of the amount of sensitivity of the finger discriminated by the discrimination unit (4), and a control unit (6) that detects an operation by the finger by comparing a second capacitance acquired by the touch panel (2) to the second threshold (51) acquired from the alteration unit (5).
US09436375B2
A multi-gaze recognition device according to one embodiment of the present specification includes a display module configured to display a display area containing a visual content capable of being scrolled, an input module configured to receive an input of a touch gesture signal to scroll the visual content, an image acquisition module configured to acquire an image in front of a device, and an analysis module configured to scroll the visual content using a first gaze and a second gaze detected from the image acquired in front of the device. The first gaze determines a maximum amount of a scroll area to scroll the visual content, the second gaze determines whether an event initiating the scroll occurs, and the analysis module is configured to scroll the visual content according to the touch gesture signal in a manner of judging whether the second gaze is within a scroll initiation area to initiate the scroll. The display area includes a first display area where an amount of the first area is determined according to the scroll area, the first gaze, and the second gaze. The first display area may include the scroll initiation area.
US09436370B2
A method and device for executing an object on a display. The method of executing an object includes receiving a user input to an object displayed on a display; gradually enlarging and displaying the object; and executing the application corresponding to the object as the object is enlarged.
US09436369B2
Systems, methods, and computer program products to rotate virtual objects within a virtual environment being displayed on a touch screen display, by, upon receiving a selection of a first virtual object using the touch screen display, rendering one or more frames depicting a rotation tool in a predefined location relative to the first virtual object and having a first orientation to the first virtual object, responsive to receiving input from the touch screen display, moving the rotation tool from a first location to a second location on the touch screen display as specified by the received input, and responsive to the movement of the rotation tool, rotating the first virtual object within the virtual environment based on the movement of the rotation tool, wherein the first virtual object substantially maintains the first orientation to the rotation tool throughout the movement.
US09436359B2
Systems and methods according to the present invention provide a control framework for organizing, selecting and launching media items including graphical user interfaces coupled with an optional 3D control device for collection of the basic control primitives of point, click, scroll, hover and zoom which permit for easy and rapid selection of media items, e.g., movies, songs etc., from large or small collections. The remote control maps natural hand movements and gestures into relevant commands while the graphical display uses images, zooming for increased/decreased levels of detail and continuity of GUI objects to provide easy organization, selection and navigation among the media items by a user.
US09436344B2
An input device is disclosed. An input device comprises a display unit, an input unit, a load detection unit and a control unit. The display unit is configured to display an object of a folder with a hierarchical structure. The load detection unit is configured to detect a pressing load with respect to the input unit corresponding to the location of the object of the folder that is displayed on the display unit. The control unit opens and closes folders based on a change in the pressing load.
US09436343B2
A touch sensor and an organic light-emitting display including the sensor are disclosed. In one embodiment, the touch sensor includes i) a substrate, ii) a sensing unit formed on or over the substrate and containing hydrogen ions, iii) a touch sensor active layer formed on or above the sensing unit and iv) a touch sensor source electrode and a touch sensor drain electrode that are electrically connected to the touch sensor active layer. The touch sensor further includes a protective layer covering the touch sensor source electrode and the touch sensor drain electrode, and an opposite electrode formed on the protective layer, wherein at least part of the opposite electrode is formed substantially directly above the touch sensor active layer.
US09436334B2
Provided is an in-cell touch panel having improved display quality. An opposite substrate relating to one embodiment of the present invention is provided with a black matrix, first electrodes, which are disposed in the Y direction, and second electrodes, which are disposed in the X direction. The first electrodes and the second electrodes are formed such that the boundaries therebetween are positioned in regions that coincide with the black matrix in a planar view.
US09436325B2
A capacitive sensing device detects the presence of an actively modulated input object, such as an active pen, using a matrix of sensor electrodes. The capacitive sensing device include receiver channels configured to perform capacitive sensing of the active pen based on one frequency, and other receiver channels configured to perform capacitive sensing of other input objects based on another frequency. The receiver channels for sensing the active pen may be multiplexed across the matrix of sensor electrodes to track the location of the active pen in a tracking window manner. The receiver channels for sensing the active pen may also be multiplexed across the matrix of sensor electrodes to broadly search for the location of the active pen.
US09436324B2
A touch-sensitive display includes first electrodes and second electrodes coupled to a first controller to detect touches by self-capacitance touch sensing. The touch-sensitive display also includes third electrodes coupled to a second controller to detect touches by mutual-capacitance touch sensing utilizing the third electrodes and the second electrodes. The first electrodes are different from the third electrodes.
US09436293B2
A data entry device including a housing including a top housing portion including key apertures, a plurality of data entry keys mounted in the housing to have data entry key depression travel paths in the housing, the plurality of data entry keys being associated with a substrate, which is disposed below the top housing portion and anti-tampering electrical conductors arranged between the top housing portion and the substrate thereby to prevent unauthorized access to the substrate.
US09436289B2
An apparatus includes a transmitter configured to transmit content and a point of interest indicator to a second device. The content and the point of interest indicator are selected by a user of the first device using a single action. The point of interest indicator identifies a portion of the content to be highlighted by the second device.
US09436286B2
An apparatus for data processing, according to one or more aspects of the disclosure, includes a processing system configured to communicate with at least one of a plurality of reference nodes worn on body parts to obtain body positioning data relating to relative position between the body parts, and provide body tracking based on the body positioning data. The body positioning data relates to ranging and/or angular position between each of the reference nodes and a reference plane defined by one or more of the reference nodes.
US09436283B2
The present invention provides an electronic apparatus and an electronic system. The electronic apparatus includes: at least one programmable electric conductive unit configured to switch a good conductor mode and a normal conductor mode according to a control signal when it contacts with a second electronic apparatus so as to transmit predetermined information to the second electronic apparatus contacting with the electronic apparatus; a control unit configured generate the control signal having a predetermined frequency; and a feedback information receiving unit configured to receive feedback information transmitted by the second electronic apparatus, the feedback information being transmitted in response to the reception of the predetermined information.
US09436282B2
A system that generates haptic effects senses contact on an interface by a contactor/object. The system then determines one or more properties of the contactor and generates a type of haptic effect in response to the contact. The type of haptic effect is based at least on the one or more properties.
US09436281B2
A portable electronic device comprising a display, an actuator actuatable to impart a force on the display, an input device moveable from a first position in which the input device is disengaged from the display to a second position in which the input device is engaged with the display, wherein when the input device is moved to the second position, the actuator is actuated to provide tactile feedback to the input device through the display.
US09436279B2
Methods and systems described herein provide for an integrated approach for controlling a user's various devices based on the user's brain activity. A user's brain activity is monitored with a first user device. A change in the brain activity is detected. In response to detecting the change, data from a second user device is processed. The detected change in brain activity is compared to the processed data to determine whether the change in brain activity is associated with the second user device. In response to determining that the change is associated with the second user device, an option is generated for display on a display screen to control the second user device.
US09436273B2
An information processing device includes: a user information acquiring unit which acquires position information on a plurality of users in a range from which a directional display device is viewable; a user operation detecting unit which detects a first operation by a first user and a second operation by a second user; a response acquiring unit which acquires a response for notifying a user that an operation has been detected; and a display control unit which causes a response to the first operation be displayed by the directional display device so as to be visible from a position indicated by the position information on the first user and which causes a response to the second operation to be displayed by the directional display device so as to be visible from a position indicated by the position information on the second user.
US09436264B2
A method for reducing power utilized by a processor including the steps of determining that a processor is transitioning from a computing mode to a mode is which system clock to the processor is disabled, and reducing core voltage to the processor to a value sufficient to maintain state during the mode in which system clock is disabled.
US09436260B2
An electronic apparatus that is capable of preventing overcharge and overdischarge of a battery. The electronic apparatus is operatable in a normal mode and a first power saving mode with less power consumption. A battery supplies electric power until battery residual capacity reaches a first threshold in the first power saving mode. A charging unit charges the battery in the normal mode. A control unit controls, in a case that the battery residual capacity is smaller than a second threshold larger than the first threshold when transition to the first power saving mode is made, so as to charge the battery until the battery residual capacity reaches the second threshold, and make a transition to the first power saving mode.
US09436259B2
An electronic device includes a microphone, a bias-supply device and a voice-recognition device. The bias-supply device is configured to provide a first bias voltage to serve as an operation voltage of the microphone, when the electronic device is operated in a power-saving mode, such that the microphone transforms a voice signal into a first output signal. The voice-recognition device is configured to receive the first output signal and output a control signal, when the first output signal has a predetermined signal, to enable the electronic device be operated in a normal operation mode and the bias-supply device to provide a second bias voltage that is higher than the first bias voltage to serve as the operation voltage of the microphone, such that the microphone transforms the voice signal into a second output signal and outputs the second signal to a core circuit.
US09436258B1
Methods, systems, and apparatus for dynamic service level objective power control in a datacenter. In one aspect, a method includes determining a current service level value that measures a current performance of the service by a set of processing devices performing the service, the service having an associated service level objective value; and for each processing device: when the current service level value does not meet the service level objective value of the service, generating a first control signal that causes a processing device performing the service to operate at a first power consumption level; and when the current service level value does meet the service level objective value of the service, generating a control signal that cause the processing device to operate at a reduced power consumption level that is less than the first power consumption level.
US09436253B2
System-on-a-chip (SOC) includes a dynamic voltage frequency scaling (DVFS) control unit; and a central processing unit (CPU) to operate the DVFS control unit. By using the DVFS control unit, a DVFS table may be selectively used according to any of various scenarios or modes of operation, thereby performing DVFS control.
US09436242B2
A reset signal control apparatus outputs a reset signal to a microcomputer to restrict a malfunction of the microcomputer when the microcomputer is started. The reset signal control apparatus outputs the reset signal to the microcomputer at least until a clock signal provided by an oscillation circuit and based on which the microcomputer operates is stabilized. The reset signal control apparatus includes a power supply section, a measuring section, and an output ending section. The power supply section supplies a power to the oscillation circuit and the microcomputer. The measuring section measures a consumption current of the oscillation circuit and the microcomputer. The output ending section determines that the clock signal provided by the oscillation circuit is stabilized and ends an output of the reset signal to the microcomputer when the consumption current becomes equal to or higher than a predetermined threshold value.
US09436225B2
The present disclosure provides a mobile terminal including a window provided on one surface of a terminal body, and having a rear surface formed in a curved shape, a display mounted to the rear surface of the window and configured to output visual information through the window, and a separation-preventing member having one side coupled to the window and the other side coupled to the display, and configured to prevent the display from being separated from the window in a direction that the window and the display are spaced apart from each other.
US09436216B2
There is provided an information processing apparatus including a case which is provided with an opening. Two or more functional units are allocated to the opening.
US09436215B2
A device to detect and quantify a force applied on a surface includes a test specimen, an electrically insulating substrate, a first electrode bound to the substrate, a second electrode, an assembly of conductive or semi-conductive nanoparticles in contact with the two electrodes, and a measurement device. The measurement device provides proportional information with respect to an electrical property of the nanoparticles assembly. The electrical property is measured between the first and second electrode. The test specimen is the nanoparticles assembly itself and the electrical property is sensitive to the distance between the nanoparticles of the assembly. The nanoparticles assembly itself is used as a test specimen and allows a force to be quantified even if the nanoparticles assembly is deposited on a rigid substrate.
US09436213B2
Provided is a clock data recovery circuit including a phase-frequency detector configured to detect a frequency and phase of a reference clock signal and control a frequency and phase of an internal clock signal based on the detected frequency, a frequency detector configured to detect a frequency of a data signal and, based on the detected frequency of the data signal, adjust the frequency of the internal clock signal; and a phase detector configured to detect a phase of the data signal based on the detected frequency of the data signal and adjust the phase of the internal clock signal. Accordingly, a timing controller that includes the clock data recovery circuit is capable of establishing data communication at high speeds when the system is powered on/off to reduce power consumption. Also, the timing controller does not need to include an additional external clock generation device, and is capable of achieving frequency synchronization using a non-precision clock signal generated in the timing controller.
US09436209B2
A method for phase recovery in a system that includes a clock recovery unit and an estimation unit. The clock recovery unit of the system has a first phase detector unit. The estimation unit has a second phase detector unit and it is configured to estimate a gain of the second phase detector unit. The estimation unit and the clock recovery unit are configured to operate in parallel.
US09436206B2
A reference current path carries a reference current. A first transistor is coupled to the reference current path. A second transistor is also coupled to the reference current path. The first and second transistors are connected in parallel to carry the reference current. The first transistor is biased by a first voltage (which is a bandgap voltage plus a threshold voltage). The second transistor is biased by a second voltage (which is a PTAT voltage plus a threshold voltage). The first and second transistors are thus biased by voltages having different and opposite temperature coefficients with a result that the temperature coefficients of the currents flowing in the first and second transistors are opposite and the reference current accordingly has a low temperature coefficient.
US09436203B2
Aspects of the disclosure provide an integrated circuit (IC) chip that includes a feedback control circuit and a detecting circuit. The feedback control circuit is configured to govern a feedback signal to a first regulator that regulates a first power supply to the IC chip based on the feedback signal. The feedback control circuit is powered at least partially by a second power supply. The detecting circuit is configured to detect a power down of the second power supply, and to cause the feedback control circuit to be disengaged from the feedback signal in response to the power down.
US09436199B2
Systems and methods are provided for controlling a setback mode of a power-consuming device, and for controlling setback recovery of power-consuming devices, in order to make setback and setback recovery more dynamic based on current environmental parameters and previous observed operating parameters, in order to enable more efficient operation of power-consuming devices resulting in reduced energy costs and increased power efficiency.
US09436194B1
Improved techniques for sensing and reporting consumed power are disclosed. The disclosed techniques comprise an integrated circuit solution for sensing power. In some embodiments, such an integrated circuit comprises a resistor on which a sense voltage sensed across an external resistor in response to a load current is mirrored and an analog-to-digital converter configured to regulate the voltage across the resistor and output a binary value representing power. The binary value representing power may integrate one or more electrical or environmental parameters such as current, voltage, temperature, battery voltage, etc.
US09436193B2
A driver for an electric load includes a power device having a control terminal and an output terminal for an output current, and a control module. The control module is configured to drive the power device in an auto-recovery mode by switching between activation and deactivation in the occurrence of an overcurrent condition, wherein the output current reaches a threshold current. The control module is also configured to evaluate a first time interval between a time wherein the overcurrent condition occurs, and a first time, and generate a limit signal when the time interval is equal to a time threshold. The power device is driven in a switching-off condition at least as a function of the limit signal.
US09436191B2
An integrated circuit (IC) includes a power grid having first, second, third, and fourth nodes for receiving first supply, first ground, second supply, and second ground voltage signals, respectively. A feedback circuit is connected to the second and fourth nodes for receiving the second supply and second ground voltage signals and generating a feedback voltage signal based on a difference between the second supply and second ground voltage signals. A resistor-ladder network receives the feedback signal and generates a sense voltage signal. A voltage regulator compares the sense voltage signal with a reference voltage signal and regulates the first supply voltage signal at a first voltage level.
US09436184B2
A system for transporting inventory items includes an inventory holder capable of storing inventory items and a mobile drive unit. The mobile drive unit is capable of moving to a first point with the inventory holder at least one of coupled to and supported by the mobile drive unit. The mobile drive unit is additionally capable of determining a location of the inventory holder and calculating a difference between the location of the inventory holder and the first point. The mobile drive unit is then capable of determining whether the difference is greater than a predetermined tolerance. In response to determining that the difference is greater than the predetermined tolerance, the mobile drive unit is also capable of moving to a second point based on the location of the inventory holder, docking with the inventory holder, and moving the mobile drive unit and the inventory holder to the first point.
US09436166B2
An encoder includes a plurality of slit tracks, a point light source, a first to third light-receiving arrays. The plurality of slit tracks respectively comprises a plurality of reflection slits. The point light source emits diffusion light to the plurality of slit tracks. The first light-receiving array receives light reflected by the slit track comprising an incremental pattern. The second light-receiving array receives light reflected by the slit track comprising an incremental pattern longer in pitch than other incremental patterns, and is disposed at a position on a side of a direction where the point light source is disposed, than the first light-receiving array, The third light-receiving array receives light reflected by the slit track comprising an absolute pattern, and is disposed at a position on a side of a direction where the point light source is disposed, than the first light-receiving array.
US09436163B2
Disclosed are removable “locking pins” that hold the front and rear housings of a wearable device together. These pins fit into receiving channels in the walls of the housings. Unlike screws or other fasteners, these pins do not take up space needed for internal components of the device. Unlike snaps, the pins are usable with housings that are very rigid (e.g., metal or ceramic). In some embodiments, the pins are entirely hidden from view, and thus they do not detract from the appearance of the device. Also in some embodiments, the pins fit entirely outside of a water seal for the device, thus reducing cost and assembly complexity.
US09436162B2
A method for adjusting an oscillation frequency of a sprung balance assembly, in which a removal or a displacement of material is conducted on a component of this sprung balance assembly under an effect of a pulse of a laser source to conduct a micromachining or microfusion operation on the material of this component to vaporize or displace this material. This pulse is controlled by a controller configured to generate, sequence, interrupt any pulse and to control movements of a beam of this laser source, and the controller is automatically controlled by a measuring or comparing mechanism.
US09436160B2
The character display mechanism for a timepiece includes a first indicator member disposed underneath a mask and arranged to rotate in steps about an axis, the first indicator member bearing a series of intertwined figures distributed over a circular track, the mask including a display area having a plurality of first openings, the figures being intended to appear successively through the first openings during the rotation of the first indicator member, and the first openings being disposed such that only one figure at a time appears in the display area. The first indicator member is pierced with second openings, said second openings being arranged to stop directly underneath one of said first openings during the step-by-step rotation of the first indicator member. The display mechanism includes a second indicator member at least partially superposed on the first indicator member in the display area. The second indicator member bears a pattern comprising segments.
US09436155B2
A developing cartridge includes: a casing; a developer carrier; and a receiving member. The casing includes a support portion. The receiving member receives a drive force from an external drive source to transmit the drive force to the developer carrier. The receiving member has a cylindrical configuration. The support portion rotatably supports the receiving member. The receiving member includes: a receiving portion; a transmission portion; and a fitting portion. The receiving portion has an outer edge in a radial direction of the receiving member. The transmission portion defines an outer circumferential edge of the receiving member. The fitting portion is positioned inward of the transmission portion in the radial direction and fitted with the support portion. The outer edge of the receiving portion is positioned inward of the transmission portion in the radial direction and outward of the fitting portion in the radial direction.
US09436153B2
An apparatus includes a cover including a protrusion and provided to be movable, and an abutment unit provided to be capable of abutting the protrusion and including a second member for applying a force to a first member of an image forming apparatus. The abutment unit includes a first surface which abuts the protrusion in a case where the cover is shifted from an opened state to a closed state and a second surface which abuts the protrusion in a case where the cover is shifted to the closed state after having abutted the first surface, and the protrusion is applied a force from a rotational force of the abutment unit when the protrusion abuts the second surface, and the second member of the abutment unit applies a force to the first member when the cover is in the closed state.
US09436146B2
An image forming apparatus is provided. The image forming apparatus, in a case in which a toner on a transfer belt is checked through a sensing unit, is capable of preventing a rotation of a guide roller, which is configured to guide the transfer belt, by use of a regulation device, so that a check error occurring due to vibration of the guide roller is reduced. Thus, the toner on the transfer belt is checked with increased accuracy and precision.
US09436145B2
An image forming apparatus includes: a forming unit configured to form an image on an image carrier; a holding unit configured to hold a reference table and a tone correction table that convert a plurality of input image data values into corresponding output image data values; and a correcting unit configured to control the forming unit to form a first test pattern including a plurality of images having different densities on the image carrier using the tone correction table, and correct the tone correction table by detecting densities of the plurality of images. The correcting unit is further configured to correct the tone correction table by updating the tone correction table using the detected densities of the plurality of images and then interpolating the updated tone correction table using the reference table.
US09436143B2
A fixing apparatus includes a heating unit configured to heat an endless belt stretched around a plurality of rollers, a lower pressure roller pressed into contact with the fixing belt, and a control unit configured to control the temperature of the fixing belt by controlling the heating unit, and fixes an unfixed toner image formed on a continuous paper to the continuous paper by heat from the heated object under a nipping pressure applied at the nip portion which is formed by engagement between the fixing belt and the lower pressure roller. The control unit controls the temperature of the fixing belt to be a stand-by temperature lower than such a first temperature, which is set up in advance, that paper trouble might occur if the continuous paper is continuously heated at a temperature not lower than the first temperature in a stand-by state in which fixing is not performed.
US09436142B1
An application amount of developer on a printing medium on which a page that is to be processed has been formed is obtained based on image data that includes a plurality of pages, and based on the image data, a coverage ratio of the developer on a printing medium on which a predetermined page has been formed is obtained. Then, setting temperatures of the heater that respectively correspond to the application amount and the coverage ratio are obtained, and the temperature of the heater is controlled based on the measured actual temperature of the heater and the obtained setting temperatures of the heater, thereby performing control to subject the printing medium on which the page that is to be processed has been formed to fixing.
US09436140B2
A fixing device includes: a rotatable member; a helical coil; a magnetic core; and a controller for controlling the frequency of an AC current caused to flow through the coil. The AC current is caused to flow through the coil to cause an electroconductive layer of the rotatable member to generate heat through electromagnetic induction heating, thereby heating and fixing the toner image on the recording material by heat of the rotatable member. The controller controls the frequency in a period so that when the frequency is f and a resistance of the electroconductive layer with respect to a circumferential direction is R, f/R is substantially constant.
US09436139B2
An image heating apparatus includes: a rotatable member; and a first heater and a second heater, for heating the rotatable member. The ratio of the second-heater heat generation amount at an end portion thereof to that at a central portion thereof is larger than that of the first heater at an end portion thereof to that at a central portion thereof with respect to the longitudinal direction. The apparatus also includes: a back-up member; a sensor; and an electric power supply controller capable of controlling the heaters independently. The controller effects switching to decrease the ratio of the power to the second heater to the power to the first heater, when heating a small width sheet. Immediately after the switching, the power to the second heater is smaller and the power to the first heater is larger than those immediately before the switching.
US09436135B2
An image forming apparatus includes an endless belt-shaped image bearer that is rotatably supported and entrained around rollers; a transfer member positioned to contact an outer surface of the image bearer; a transfer device to transfer a toner image conveyed while being carried on the outer surface of the image bearer onto a transfer medium conveyed between the image bearer and the transfer member; a toner image sensor to detect the toner image transferred onto the transfer medium; and a conveyance speed controller to fine-tune a conveyance speed of the transfer medium. Based on fine-tuning data of the conveyance speed controller, a detection result of the toner image sensor is corrected and image forming conditions are corrected based on the corrected detection result.
US09436130B2
A developing device includes a developing container for accommodating a developer, a feeding member, including a blade for feeding the developer, and a discharge opening for permitting discharge of excessive developer. A winding direction of the blade ascends toward a downstream developer feeding direction. A first lower intersection position between a downstream edge of the discharge opening and a first cross-section perpendicular to a rotational axis of the feeding member and crossing the discharge opening is a first position, and a second lower intersection position between the downstream edge of the discharge opening and a second cross-section which is perpendicular to a rotational axis of the feeding member and crossing the discharge opening and which is provided downstream of the first cross-section is a second position, and the discharge opening is configured so that the second position is higher than the first position.
US09436125B2
A powder container, storing powder used for an image forming apparatus, includes a container body, an opening, and a shutter. The opening discharges or introduces the powder, and the shutter opens and closes the opening. The shutter includes a first engaging portion and a second engaging portion. The first engaging portion engages a shutter switch, provided to an apparatus body of the image forming apparatus, in a first trajectory. The second engaging portion engages the shutter switch in a second trajectory different from the first trajectory. The shutter approaches and contacts the shutter switch in the first trajectory or the second trajectory to open and close the opening.
US09436120B1
An image forming apparatus includes a photoreceptor, an exposure unit having a plurality of light emitting elements that are configured to emit light corresponding to an image to be formed towards the photoreceptor, a developing unit containing toner that is transferred to the photoreceptor therefrom, and a control unit configured to control a potential of the developing unit. The control unit is configured to control the potential of the developing unit, such that the toner is selectively transferred to a region of the photoreceptor that has received light of an intensity that is greater than a predetermined value. The predetermined value is equal to or greater than 40% and equal to or smaller than 60% of an average peak intensity of the plurality of the light emitting elements that are driven with a maximum current value.
US09436119B1
An image forming apparatus includes the following elements. A housing includes a mounting unit. A removable unit includes at least a photoconductor drum and is mounted on and dismounted from the mounting unit. An exposure device includes a light-emitting source and is fixed to the mounting unit such that the exposure device pivots about a pivot point in directions in which it approaches and separates from the photoconductor drum. The exposure device includes a driven portion at an end on an upstream side in an inserting direction of the removable unit. The driven portion is driven to move the exposure device in a direction in which it approaches the photoconductor drum. The removable unit includes a driving portion at the end on the upstream side. The driving portion contacts and drives the driven portion to move the exposure device in the direction in which the exposure device approaches the photoconductor drum.
US09436108B2
An electrophotographic photoreceptor includes an electrically conductive support, a photosensitive layer formed on the electrically conductive support and a surface layer formed on the photosensitive layer. The surface layer contains a resin produced by polymerizing a cross-linkable polymerizable compound, N-type semiconductor fine particles and P-type semiconductor fine particles.
US09436099B2
In order to determine whether an exposure apparatus is outputting the correct dose of radiation and its projection system is focusing the radiation correctly, a test pattern is used on a mask for printing a specific marker onto a substrate. This marker is then measured by an inspection apparatus, such as a scatterometer, to determine whether there are errors in focus and dose and other related properties. The test pattern is configured such that changes in focus and dose may be easily determined by measuring the properties of a pattern that is exposed using the mask. The test pattern may be a 2D pattern where physical or geometric properties, e.g., pitch, are different in each of the two dimensions. The test pattern may also be a one-dimensional pattern made up of an array of structures in one dimension, the structures being made up of at least one substructure, the substructures reacting differently to focus and dose and giving rise to an exposed pattern from which focus and dose may be determined.
US09436095B2
A microlithographic projection exposure apparatus includes a projection lens that is configured for immersion operation. For this purpose an immersion liquid is introduced into an immersion space that is located between a last lens of the projection lens on the image side and a photosensitive layer to be exposed. To reduce fluctuations of refractive index resulting from temperature gradients occurring within the immersion liquid, the projection exposure apparatus includes heat transfer elements that heat or cool partial volumes of the immersion liquid so as to achieve an at least substantially homogenous or at least substantially rotationally symmetric temperature distribution within the immersion liquid.
US09436093B2
A negative pattern is formed by applying a resist composition onto a substrate, exposing the resist film, and developing the exposed resist film in an organic solvent developer. The process further involves coating the negative pattern with a shrink agent solution of a polymer comprising recurring units capable of forming lactam under the action of acid in a C7-C16 ester or C7-C16 ketone solvent, baking the coating, and removing the excessive shrink agent via organic solvent development for thereby shrinking the size of spaces in the pattern.
US09436090B2
The invention pertains to an exposure apparatus, a method for controlling a photosensitive element to radiation using the exposure apparatus, and a method for exposing a photosensitive element to radiation. The exposure apparatus includes a base assembly having an exposure bed that supports the photosensitive element, and a lamp housing assembly having two or more lamps. The lamp housing assembly includes an adjustable ballast connected to at least one of the lamps to adjust power received by the one lamp, a sensor for measuring irradiance impinging the exposure bed; and a controller that adjusts the adjustable ballast based on comparison of the measured irradiance to the target irradiance, thereby adjusting the irradiance emitting from the lamp to the target irradiance.
US09436082B2
New photoresist compositions are provided that comprise one or more materials that have base-reactive groups and are particularly useful for dry lithography. Particularly preferred photoresists of the invention can exhibit reduced defects following development of a coating layer of the resist.
US09436081B2
A method is provided, in which a masking reticle including a plurality of pattern blocks is modified, the modifying including: identifying a first pattern block and a second pattern block of the plurality of pattern blocks where at least a first portion of the first pattern block and a second portion of the second pattern block are in parallel relation; and reducing a length of the first portion of the first pattern block when a transverse separation S between corresponding length edges of the first portion of the first pattern block the second portion of the second pattern block falls within a pre-defined forbidden pitch range for the masking reticle. The method may include repeating the identifying and reducing of pairs of pattern blocks on the mask reticle to remove portions of pattern block pairs spaced apart by a transverse separation falling within a forbidden-pitch range.
US09436076B2
The present invention provides a multi-projection system for extending a visual element of a main image, the system including a main projection surface on which a main image is reproduced and an auxiliary projection surface arranged around the main projection surface, in which a visual element associated with the main image is displayed on the auxiliary projection surface.
US09436074B2
The present invention relates in part to a print method for an arbitrary grey scale image on a transparent substrate such as glass. The present invention makes use of a printer that can print in continuous grey tones. The printed material should be transparent and resistant to the light which passes through it in a projection system. The present invention also provides a continuous grey scale filter made by a printing techniques using liquid inks or toners. Such a continuous grey scale filter can be used for blending multiple images in a multichannel projector system. The present invention also provides a multichannel projector system using the continuous grey scale filter.
US09436072B2
Various embodiments provide a method for determining a wave form of a lamp current for operating a discharge lamp of a projection arrangement having a color wheel and a ballast, such that a polarity of the electrodes is commutated in accordance with a commutation scheme of the wave form. The method involves providing a wave form having a commutation scheme and checking whether operation of the discharge lamp satisfies one criterion relating to a lifetime of the discharge lamp or a flicker amplitude of the projection arrangement. If the criterion checked is satisfied, checking whether operation of the discharge lamp satisfies the other of the two criteria is carried out. If at least these two criteria are satisfied, the wave form is stored in a memory of the projection arrangement and provided as the predefinable wave form at the ballast for the discharge lamp.
US09436065B2
To provide a high-strength titanium-copper foil that is more suitable as a conductive spring material that can be used in electronic device components such as an autofocus camera module. A titanium copper foil containing Ti in an amount of 2.0 to 4.0 mass %, a remainder being copper and unavoidable impurities, said foil having a 0.2% yield strength of 1000 MPa or more and a spring limit value of 800 MPa or more in both directions parallel and perpendicular to a rolling direction, wherein no cracking occurs at bending radius/foil thickness=2 when a W bending test in conformity with JIS H3130: 2012 is performed at a width of 0.5 mm in a direction perpendicular to the rolling direction.
US09436062B2
A camera body includes a flare cutter, a front case, and a control board. The flare cutter includes a first opening. The front case is disposed facing a first face of the flare cutter, and includes a second opening at a position facing the first opening. The control board is disposed on a second face of the flare cutter that is opposite the first face. When the flare cutter is viewed from outside of the front case, a part of the control board does not overlap with the flare cutter.
US09436061B2
According to one embodiment, an acousto-optic modulator includes an acousto-optic medium and a piezoelectric transducer. The acousto-optic medium has a configuration of a hexahedron. The acousto-optic medium has surfaces D, E, F, G and H. The piezoelectric transducer is provided on a surface C of the acousto-optic medium. The surface D opposes the surface C and has respective four sides shared by the surfaces E, F, G and H. Four angles defined between the surface D and the surfaces E, F, G and H each is other than 90°. At least one of eight angles defined between each pair of the surfaces C, E, F, G and H is other than 90°. The each pair has one shared side.
US09436053B2
Provided is a display unit that includes: a pair of a first substrate and a second substrate that are arranged in opposition to each other; a display layer provided between the first substrate and the second substrate; and a display mode switching layer having an aperture for each pixel, and provided between the display layer and the second substrate.
US09436050B2
A method of manufacturing the liquid crystal panel is provided, including: forming an array substrate; forming a color filter substrate; disposing a color planarizing layer on the color filter substrate, and disposing a notch on the color planarizing layer on the color filter substrate; fabricating a liquid crystal cell by using the array substrate and the color filter substrate, and filling liquid crystal molecules within the liquid crystal cell; and forming a on the array substrate in a first deformation region of the array substrate. The liquid crystal cell having non-uniform gaps is prevented.
US09436049B2
The present disclosure relates to reducing bezel area of a flat display panel comprising a substrate with a non-display area surrounding a display area, the display area comprising common lines coupled to corresponding rows of pixels; and a gate driver formed in the non-display area. The display may further include a conductive sealing region formed in the non-display area and configured to supply a common line voltage; and a plurality of common pads formed within the conductive sealing region and each coupled to a corresponding one of the common lines to apply a common line voltage to the rows of pixels. Alternatively, the display may further include a vertical common line formed in the non-display area between the gate driver and the display area, the vertical common line extending from top to bottom of the non-display area and coupled to said common lines to apply a common voltage.
US09436043B2
An array substrate includes a plurality of pixels arranged in rows and columns. Gate lines are formed along rows of the pixels, and data lines are formed along columns of the pixels. A reflection electrode is near an edge of the some of the pixels, and a transmission electrode is near an edge of others of the pixels. As a result, light transmittance of the array substrate and of a liquid crystal display panel using the array substrate is increased.
US09436040B2
A liquid crystal display device includes an upper substrate and a lower substrate facing each other, alignment layers, and a liquid crystal layer. An alignment layer is disposed on the upper substrate and an alignment layer is disposed on the lower substrate. The alignment layer includes a vertical alignment layer and a tilting alignment layer. The vertical alignment layer includes a polyimide-based polymer resin having an imidization ratio of about 65% to about 90%. The tilting alignment layer is present on an upper portion of the vertical alignment layer and includes a pattern. The liquid crystal layer is interposed between the upper substrate and the lower substrate.
US09436039B2
A liquid crystal display may include: a first substrate, a second substrate facing the first substrate, a field generating electrode disposed on at least one of the first substrate and the second substrate, an alignment layer disposed on the field generating electrode, and a liquid crystal layer disposed between the first substrate and the second substrate. The alignment layer may include a lower layer including an organic material and an upper layer disposed on the lower layer and including an inorganic material.
US09436034B2
A display panel includes a first substrate, a second substrate, a liquid crystal layer, a first polarizer, a second polarizer and a viewing angle control layer. The second substrate faces the first substrate. A liquid crystal layer is disposed between the first substrate and the second substrate. A first polarizer is disposed on a lower surface of the first substrate and includes a first polarizing layer and a second polarizing layer stacked on each other. A second polarizer is disposed on an upper surface of the second substrate. A viewing angle control layer is disposed on the first polarizer and is configured to control a viewing angle of a column direction of the display panel.
US09436032B2
There is provided a liquid crystal display device that includes a liquid crystal composition and a color filter having a particular slope parameter that indicates the degree of aggregation of an organic pigment. The liquid crystal display device prevents a decrease in the voltage holding ratio (VHR) and an increase in the ion density (ID) in a liquid crystal layer and resolves the problems of display defects, such as white streaks, variations in alignment, and image sticking. The liquid crystal display device prevents a decrease in the voltage holding ratio (VHR) and an increase in the ion density (ID) in a liquid crystal layer and suppressing display defects such as image sticking. Therefore, the liquid crystal display device is useful for active matrix driving liquid crystal display devices with an IPS mode or an FFS mode and can be applied to liquid crystal display devices.
US09436028B2
A liquid crystal display, comprising a back light module, a metal side frame, and a liquid crystal display panel disposed between the back light module and the metal side frame, wherein the metal side frame comprises a first magnet, the back light module comprises a second magnet, at least a portion of the first magnet and the second magnet are oppositely disposed, and each magnet is provided with an identical kind of magnetic pole on the side facing to the liquid crystal display panel. The liquid crystal display retains the gap between the liquid crystal display panel and the metal side frame, thereby preventing the problem of light leakage in a 0 grayscale image.
US09436013B2
A reflective type naked-eye 3D display apparatus and manufacturing method thereof are disclosed and the reflective type naked-eye 3D display apparatus comprises: a liquid crystal display panel (2). The reflective type naked-eye 3D display apparatus further comprises: a polarizing filter structure (1) disposed on the liquid crystal display panel (2), the polarizing filter structure (1) may comprise different regions where linear polarizing lights having different polarizing states are transmitted; a reflective layer structure (3) disposed under the liquid crystal display panel (2), the reflective layer structure (3) may comprise different regions where linear polarizing light of a preset direction is reflected or transmitted. The reflective type naked-eye 3D display apparatus can achieve a naked-eye type 3D displaying on the reflective type liquid crystal display panel.
US09436007B2
An integrated cluster and head-up display device for a vehicle includes a display device and a controller. The display device may have a display area including an area of cluster information and an area of head-up display (HUD) information. The controller is configured to control an operation of the display device.
US09435999B2
Disclosed is a device for adjusting the curvature of a mirror comprising: a base block; a pair of rotating blocks which are connected to the base block by one or more elastic bodies, respectively, and rotate around the connection portions between the base block and the elastic bodies or elastically return to through the application or release of external forces; a pair of support blocks which are disposed at the pair of rotating blocks, respectively, to support both ends of the mirror and apply bending moments to the both ends of the mirror by the rotation of the pair of rotating blocks; and a driving part for rotating the pair of rotating blocks.
US09435996B2
An illumination optical system for a beam projector includes: a light source; a color conversion unit having at least one fluorescent substance layer that reflects a light from the light source or converts the light emitted from the light source to a wavelength-converted light; and a dichroic mirror that causes the light emitted from the light source to be incident on the color conversion unit. Lights reflected or emitted by the conversion unit and having different wavelengths are incident on a display panel through the same path. In the illumination optical system, a light emitted from one light source can be processed to produce red, green and blue lights which can be in turn incident on the display panel through the same optical path of the light reflected or emitted by the conversion unit.
US09435990B2
A dual-configuration microscope is provided. The microscope may be converted into an upright configuration or an inverted configuration. The microscope includes a base. The microscope further includes a body having a first portion and a second portion, wherein the body is rotatably coupled to the base at a rotational coupling. The microscope further includes one or more objectives coupled to the first portion of the body, a condenser coupled to the second portion of the body and a stage positioned between the one or more objectives and the condenser. The stage includes a first specimen supporting surface and a second specimen supporting surface, wherein the second specimen supporting surface is positioned opposite the first specimen supporting surface.
US09435988B2
A zoom lens system capable of satisfactorily compensating for aberration, including, in an order from an object to an image, a first lens group having a negative refractive power, an aperture, and a second lens group having a positive refractive power, wherein the first lens group including a first lens, a second lens, a third lens and a fourth lens in the order from the object to the image, and wherein an Abbe number of the first lens is less than 30, an Abbe number of the second lens is greater than 45 and less than 65, and a ratio of an Abbe number of the third lens to an Abbe number of the fourth lens is greater than 3.8 and less than 4.3.
US09435980B2
An optical element unit is provided comprising an optical element group for projecting light along an optical axis of the optical element group and a housing having an inner housing part partly defining a first space and a light passageway between the inner s housing part and a second space. The inner housing part receives the optical element group. The optical element group comprises an ultimate optical element located in the region of the light passageway. A load-relieving device is provided adjacent to the ultimate optical element, the load relieving device partly defining the first space and the second space and at least partly relieving the ultimate optical element from loads resulting from pressure differences between the first space.
US09435979B2
A universal adjustable lens adapter and rig system for smartphones, or similar electronic devices, that is modular in nature. The universal adjustable lens adapter includes a clamp mount assembly, a lens mount assembly, and a handle assembly. The clamp mount assembly is adapted to secure a smartphone, while the lens mount assembly is adapted to secure a camera lens. The clamp mount assembly includes a spring loaded first clamp and a fixed second clamp mounted to a clamp base and between which the smartphone is secured. Both the clamp mount assembly and the lens mount assembly are slidably connected to the handle assembly, such that the camera lens of any smartphone can be properly aligned with the camera lens attached to the lens mount assembly. Additionally, the handle assembly is adapted to manipulate and stabilize the smartphone while taking pictures.
US09435975B2
A fiber optic telecommunications device includes a frame defining a right vertical support and a left vertical support. A chassis is mounted to the right and left vertical supports, wherein the chassis is configured to pivot about a pivot axis that is defined by one of the right and left vertical supports. A plurality of modules are mounted on the chassis, each of the modules slidable on the chassis along a direction extending between the right and left vertical supports, wherein the chassis is configured to pivot about a plane parallel to the sliding direction of the modules, each module defining fiber optic connection locations.
US09435970B2
An optical connector is provided. The optical connector includes: an optical fiber line fixing block including an insertion groove in which an end portion of an optical fiber line is inserted; and a submount including first guide-walls determining a position of the optical fiber line fixing block and second guide-walls determining a position of an optical device to be connected to the optical fiber line, wherein the optical fiber line fixing block and the optical device are automatically aligned by the first guide-walls and the second guide-walls.
US09435937B2
Display backlight structures may provide backlight illumination that passes through display layers in the display. Computer-controlled equipment such as robotic arms with gripper structures may be used in assembling backlight layers such as a reflector, light guide plate, diffusers, and prism films into a backlight unit. The grippers may include mechanical grippers and vacuum heads. A vacuum gripper head may have a plenum to which a perforated plate and porous layer are attached for distributing the vacuum. Computer-controlled air sources may be used to blow streams of deionized air between backlight layers to separate the backlight layers during assembly. Release liners may be removed using robotic arms and grippers. Translation stages may move a backlight layer storage frame between stations. A cleaning tool with a solvent dispenser and air jets may clean backlight layers. A camera system may be used during alignment and positioning operations.
US09435932B2
A light guide plate includes a main body including a light emitting surface. A number of glues, each with a different, and lower, refractive index when cured, are applied through a covering plate onto the light emitting surface. Each type of glue forms a layer on the layer below, the stack of layers forms a plurality of spaced micro-rods on the light emitting surface. Each layer in the micro-rod thus includes top and bottom and side surfaces. The different refraction indexes of each layer, reducing along a direction from the light emitting surface to the top surface of each rod, causes light to be emitted substantially equally from the periphery of each layer in the micro-rod as well as from the top of each rod. The maximum refraction index of any layer in the micro-rod is not greater than that of the main body.
US09435928B2
A light guiding system includes an ambient light gathering system, multiple light guiding devices and a wedge light guiding bar. The ambient light gathering system facing ambient light is used for absorbing the ambient light. Each light guiding device absorbs the absorbed light. The wedge light guiding bar has a light-out surface and a light-in surface coupled to the light-out surface. The light-in surface is a wide surface coupled to an inclined surface. The light-out surface is opposite to the inclined surface and next to a light-in side of a light guide plate. The wedge light guiding bar for use in the light guiding system, an edge-lighting backlight module and an LCD device can reduce cost of material and weight. Also, the light uniformity of the light output end is improved and the optical quality of the edge-lighting backlight module is raised.
US09435917B2
Laser-processed gradient-index (GRIN) lenses and optical interface devices and assemblies that utilize the laser-processed GRIN lenses are disclosed. A GRIN lens assembly includes a cylindrical central section having a GRIN index profile, planar front and back surfaces, an outer surface, and a diameter D1 where 200 micrometers≦D1≦420 micrometers. An annular cladding of outer diameter D2 surrounds the central section outer surface and has front and back annular surfaces and a constant or a varying refractive index. One or both of the front and back annular surfaces may be curved. An optical fiber is optically coupled to the central section at the planar back surface. An optical interface device is formed by operably supporting at least one GRIN lens assembly with a support member. An optical interface assembly is formed by interfacing two optical interface devices.
US09435916B2
A composite having (a) a substrate that has opposing first and second surfaces, the substrate being at least 90% transmissive in visible light and has less than 5% haze, (b) a nanostructured article including a matrix and a nanoscale dispersed phase and having a random nanostructured anisotropic surface; and (c) an optically clear adhesive disposed on the second surface of the substrate.
US09435913B2
An interlayer film for laminated glass that suppresses the transmittance of ultraviolet rays with a wave length of 400 nm to 1% or less, and has high light resistance. The interlayer film for laminated glass comprises a thermoplastic resin, an ultraviolet absorber having a structure of formula (1), and an ultraviolet absorber having a structure of formula (2), wherein the amount of the ultraviolet absorber of formula (1) is 0.001 to 0.05% by weight, and the amount of the ultraviolet absorber of formula (2) is 0.5 to 1.0% by weight; wherein R1 is a C1-3 alkyl group; R2 is hydrogen, a C1-10 alkyl group, or a C7-10 aralkyl group; R3 is hydrogen or a C1-8 alkyl group; and R4 is hydrogen or a C1-8 alkyl group.
US09435904B2
Embodiments of a method for correcting velocity models for complex topographies are disclosed herein. In general, embodiments of the method utilize velocity corrections based on geomechanical effects to correct a velocity model to take into account complex surface topographies. In particular, embodiments of the method use a nucleus strain theory to determine the velocity corrections. Further details and advantages of various embodiments of the method are described in more detail herein.
US09435902B2
A method for monitoring for seismic events by interrogating an optic fiber which forms part of an existing communications infrastructure to provide distributed acoustic sensing (DAS). The signals provided by the distributed sensing provide measurements at each of a plurality of discrete portions along the fiber, which may be many tens of kilometers in length. Warning or measurement and consequently prediction of seismic activity can be provided by collecting data over a wide area, without the need to deploy a correspondingly large fiber network.
US09435899B1
A radioactive gas monitoring device includes a sample chamber into which a sampled gas is introduced; a plastic scintillation detector outputting first detection signal pulses; an inorganic crystal scintillation detector outputting second detection signal pulses; a first measurement unit calculating a first count rate from the first detection signal pulses to output the first count rate, and issuing a first alert when the first count rate becomes higher than a first preset level and issuing a second alert when the first count rate becomes higher than a second preset level higher than the first preset level; and a second measurement unit calculating a second count rate from the second detection signal pulses to output the second count rate, and issuing a third alert when the second count rate becomes higher than a third preset level.
US09435897B2
A method for detecting particles is presented. The method comprises generating a reaction to a plurality of particles using a converter material, wherein the converter material is operable to interact with the plurality of particles. Further, the method comprises converting a response to the reaction to a readable electrical signal using a sensor, wherein the sensor comprises an array of discrete pixels. Also, the method comprises processing the readable electrical signal from the sensor to generate information for each pixel on the array of discrete pixels and transmitting the information to a processing unit. Furthermore, the method comprises analyzing the information using the processing unit to determine instances of impingement of the plurality of particles on said array of discrete pixels. Finally, the method comprises an aggregate of sensors that function in parallel to result in a highly sensitive particle detection system.
US09435894B2
To provide a radiation image detecting device providing high responsivity and high precision of an emission start judgment, an electronic cassette has a panel unit and a control unit. The panel unit has a two-dimensional array of normal pixels for accumulating signal charge upon receiving X-rays and detection pixels for detecting the X-rays. A signal processing circuit periodically samples a dose signal, corresponding to an X-ray dose per unit of time, from the detection pixels. An emission start judgment unit performs based on the dose signals of the detection pixels a first judgment process for judging whether X-ray emission has been started, and a second judgment process for judging whether a result of the first judgment process is correct. The control unit sets a second sampling cycle SP2 used in the second judgment process longer than a first sampling cycle SP1 used in the first sampling process.
US09435893B2
An advanced multiple-beam GPS receiving system is achieved that is capable of simultaneously tracking multiple GPS satellites independently, detecting multiple interference signals individually, and suppressing directional gain in the antenna pattern of each beam in the interference directions. The GPS receiving system can be used for both planar and non-planar receiving arrays, including arrays that are conformally applied to the surface of a platform such as an aircraft. The GPS receiver combines spatial filtering and acquisition code correlation for enhanced rejection of interfering sources. Enhanced gain in the direction of GPS satellites and the ability to shape the beam patterns to suppress gain in the direction of interfering sources make the GPS receiving system largely insensitive to interfering and jamming signals that plague conventional GPS receivers.
US09435891B2
A time of flight (TOF) based camera system includes an illumination module that illuminates only portion of the sensor's field of view that translates to a given region of the pixels of the imaging sensor. The acquired data of the pixel region is processed and/or readout, typically. After the exposure time of the first pixel region is completed, a second pixel region is illuminated and the second pixel region is processed. This procedure can be repeated a couple of times up to a few hundred even thousand times until the entire pixel array is readout and possibly read-out a number of times. The full depth image is then reconstructed based on the results from the different pixel region acquisitions. This system can be used to reduce stray light. Compared to state-of-the-art TOF camera, the presented method and device show improvements in background light stability and a reduction in multiple reflections.
US09435888B1
Systems, methods, and articles of manufacture for automatic target recognition. A hypothesis about a target's classification, position and orientation relative to a LADAR sensor that generates range image data of a scene including the target is simulated and a synthetic range image is generated. The range image and synthetic range image are then electronically processed to determine whether the hypothesized model and position and orientation are correct. If the score is sufficiently high then the hypothesis is declared correct, otherwise a new hypothesis is formed according to a search strategy.
US09435887B2
An object detecting apparatus and an operating method thereof are disclosed. An apparatus for detecting an object includes: a sensor unit including a light distance and ranging (LiDAR) sensor for collecting LiDAR data and a camera sensor for collecting image data; an area dividing unit configured to divide a common detection area of the LiDAR sensor and the camera sensor into a plurality of areas; a data analyzing unit configured to analyze the LiDAR data to extract a first object information and/or analyze the image data to extract a second object information; and a sensor signal converging unit configured to determine whether a dangerous object exists for each of the divided areas based on the first object information and/or the second object information.
US09435885B2
The present invention describes a road terrain detection system that comprises a method for classifying selected locations in the environment of a vehicle based on sensory input signals such as pixel values of a camera image. The method comprises a high level spatial feature generation for selected locations in the environment called base points. The spatial feature generation of the base points is based on a value-continuous confidence representation that captures visual and physical properties of the environment, generated by so called base classifiers operating on raw sensory data. Consequently, the road terrain detection incorporates both local properties of sensor data and their spatial relationship in a two-step feature extraction process.
US09435883B2
There is provided an antenna. A third transmission antenna is provided at a position shifted in a short direction of a first transmission antenna. A second transmission antenna is provided at a position between the first and third transmission antennas so that a portion of the second transmission antenna in a longitudinal direction is overlapped with a portion of the first and third transmission antennas in the longitudinal direction. A fourth transmission antenna is provided at a position point-symmetrical with respect to the position of the second transmission antenna, about the position of the third transmission antenna. A plurality of reception antennas are provided so that a portion of each of the reception antennas in the longitudinal direction is overlapped with a portion of the second transmission antenna in the longitudinal direction.
US09435880B2
A pulse transponder countermeasure device, comprising: a central processing unit (CPU); an optical receiver adapted to receive detection signals from a speed measuring device; at least one optical transmitter adapted to transmit jamming signals to the speed measuring device; at least one software controlled driver configured to drive the optical transmitter and memory storing a database of measuring devices signature signals and reflective signals, the CPU configured to identify the speed measuring device in its database according to the received detection signal's signature and calculate a response time for sending a jamming signal to the speed measuring device so as to change the speed perceived by the speed measurement device.
US09435874B2
Techniques for supporting positioning for terminals in a wireless network are described. In an aspect, positioning may be supported by a location server that can reside in different entities. In one design, the location server may obtain positioning information (e.g., measurements) for a target device via a common positioning protocol. The location server may use the common positioning protocol regardless of where it resides and may communicate with other entities via this protocol. The location server may determine location information (e.g., a location estimate) for the target device based on the positioning information. In another aspect, positioning may be supported by transporting multiple positioning messages together. In yet another aspect, positioning may be supported by transporting a positioning message containing multiple parts defined by different organizations. In yet another aspect, positioning may be supported with shared measurement data units and/or shared assistance data units that may be applicable for different positioning methods.
US09435859B2
The disclosure describes a novel method and apparatus for improving interposers that connected stacked die assemblies to system substrates. The improvement includes the addition of IEEE 1149.1 circuitry within interposers to allow simplifying interconnect testing of digital and analog signal connections between the interposer and system substrate it is attached too. The improvement also includes the additional 1149.1 controlled circuitry that allows real time monitoring of voltage supply and ground buses in the interposer. The improvement also includes the additional of 1149.1 controlled circuitry that allows real time monitoring of functional digital and analog input and output signals in the interposer. The improvement also provides the ability to selectively serially link the 1149.1 circuitry in the interposer with 1149.1 circuitry in the die of the stack.
US09435851B2
A semiconductor apparatus includes a command decoding unit configured to decode an internal command, an internal clock and an internal clock enable signal, and generate an internal control signal; a clock enable signal control unit configured to receive a pre-clock enable signal and output one of the pre-clock enable signal and an enabled internal clock enable signal as the internal clock enable signal in response to a first test signal; an enable signal selection unit configured to output one of the pre-clock enable signal and a second to test signal as a counting enable signal in response to the first test signal; and a counting unit configured to perform a counting operation during an enable period of the counting enable signal, and output a counting code.
US09435849B2
A method includes: providing a test apparatus; providing an electrically conductive carrier; providing a semiconductor substrate having a first main face, a second main face opposite to the first main face, and a plurality of semiconductor dies, the semiconductor dies including a first contact element on the first main face and a second contact element on the second main face; placing the semiconductor substrate on the carrier with the second main face facing the carrier; electrically connecting the carrier to a contact location disposed on the first main face; and testing a semiconductor die by electrically connecting the test apparatus with the first contact element of the semiconductor die and the contact location.
US09435843B2
A wire harness continuity inspection method according to the invention includes: a referring step of referring to auxiliary device-based wiring information to specify a first terminal of a first electrical component and a second terminal of a second electrical component connected by a circuit line, which are described in the auxiliary device-based wiring information; a first specifying step of referring to region-based connector/wiring information to specify a first electrical wire of which one end is connected to the first terminal of the first electrical component, described in the region-based connector/wiring information; and a first determining step of determining whether the terminal connected to the other end of the first electrical wire is identical to the second terminal of the second electrical component.
US09435837B2
The invention relates to a sensor for detecting an object. The sensor includes a probe electrode for forming a measuring capacitance with the object to be detected, a charging generator for generating an alternating charging voltage, wherein the probe electrode is charged by means of the alternating charging voltage, an amplifier for amplifying a voltage across the measuring capacitance, wherein the amplifier includes a first supply connection and a second supply connection, electronic means for processing signals outputted at an output of the amplifier to form at least one output signal and at least one sensor output for outputting the at least one output signal. According to the invention, the sensor is characterized in that a DC voltage in the form of a second supply voltage is connectable to the second supply connection, and that a first supply voltage having an AC voltage portion is connectable to the first supply connection, wherein a supply voltage generator is available for generating the DC voltage portion. The invention also relates to a method for detecting an object.
US09435831B2
A current sensor includes a magnetic sensor module including a plurality of magnetic sensor units connected in series. The magnetic sensor units each include a first magnetic sensor element and a second magnetic sensor element which have sensitivity axes oriented in opposite directions. A first terminal of the first magnetic sensor unit is connected to a first potential source. A third terminal of the first magnetic sensor unit is connected to a second potential source. A second terminal and a fourth terminal of the last magnetic sensor unit are connected to constitute a sensor output terminal. The first terminal of each of the magnetic sensor units excluding the first magnetic sensor unit is connected to the second terminal of the next magnetic sensor unit and the third terminal thereof is connected to the fourth terminal of the next magnetic sensor unit.
US09435830B2
A method includes applying a signal to a primary coil of an external charging device. The signal causes the primary coil to inductively couple to a secondary coil of an implantable medical device that is implanted within tissue of a patient. The method also includes measuring a current at the primary coil. The method further includes estimating a depth of the implantable medical device within the tissue of the patient based on the measured current.
US09435824B2
A compensation circuit connected to an accelerometer's output extends the frequency response of the accelerometer, while reducing noise produced by the accelerometer. The compensation circuit has a gain as a function of frequency that is (i) constant up to a first frequency that is less than the accelerometer's natural resonance frequency, and (ii) reduced to approximately zero at a second frequency that is greater than the accelerometer's natural resonance frequency.
US09435813B2
Methods for the use of keratinocyte chemoattractant (KC)/human growth-regulated oncogene (GRO) (KC/GRO), apolipoprotein A2 (APOA2), angiotensinogen r (AGT), thyroglobulin (TG), disintegrin and metalloproteinase domain-containing protein 17 (ADAM17), anionic trypsin-1 (PRSS1), complement C4 (C4A), zona pellucida sperm-binding protein 1 (ZP1), neuropilin-2 (NRP2), solute carrier family 13 member 2 (SLC13A2), glucagon-like peptide 2 receptor (GLP2R), lipoma high mobility group protein isoform I-C (HMGIC) fusion partner-like protein 4 (LHFPL4), and claudin-3 (CLDN3) as biomarkers for diagnosis and prognosis, and for monitoring the efficacy of treatment, in hemorrhagic shock (HS).
US09435798B2
A bio-sensing device suitable for the detection and/or characterization of target bioparticles and corresponding method is described. The bio-sensing technique is based on the impact on the heat transfer resistivity value of bioparticles binding in binding cavities of a structured substrate. By sensing temperatures and determining a heat transfer resistivity value based thereon, a characteristic of the target bioparticles can be derived.
US09435791B2
An imaging agent for detecting analytes in an environment includes functionalized nanodiamonds and functionalized magnetic particles that can selectively interact with an analyte. Each functionalized nanodiamond contains at least one color center configured emit light in response to illumination. At least one property of the light emitted by the color centers is related to the proximity of the functionalized magnetic particles to the color centers. This property can be detected to determine that the functionalized nanodiamonds are proximate to the functionalized magnetic particles, to determine that the functionalized nanodiamonds and the functionalized magnetic particles are interacting with the analyte, or other applications. Devices and methods for detecting properties of the analyte by interacting with the functionalized nanodiamonds and functionalized magnetic particles are also provided.
US09435788B2
A system for sensing and measuring ammonia in a breath sample is described. The system includes a sampling means for capturing and directing a breath sample from a subject to an ammonia sensor, the ammonia sensor including a conducting polymer polyaniline sensor. The sampling means includes a breath sample capture chamber, the chamber having an inlet and outlet, the inlet having a first valve through which a breath is exhaled into the sample capture chamber, the outlet having a second valve through which breath surplus to the volume of the chamber is expelled, to provide capture of a breath sample of predefined volume.
US09435782B2
Embodiments of the invention provide systems, devices, and method for monitoring gas emissions within a geographic area. A method for monitoring gas emissions may include providing a gas-monitoring device configured to be moved within the geographic area. The method may also include determining geographic locations of the device as the device is moved within the geographic area, determining a quantity of one or more gases in the air as the device is moved within the geographic area, and associating the geographic locations with the quantity of gases to provide gas emissions data for the geographic area. The gas emissions data may be communicated to one or more external devices, sources, and/or systems for analysis, documentation, and/or compliance reporting.
US09435781B2
A gas detection device with at least one functional device (1), which is fixed to a platform, is pivotable about at least two pivot axes (2, 3) relative to the platform. The functional device (1) is designed to emit and/or receive or reflect radiation that is analyzably variable due to the presence of a gas to be detected. The gas detection device has an adjusting device (9), which has a fixing device for temporary fixation to the platform and an application device for the defined application on the functional device (1) of forces that lead to a pivoting about the pivot axes (2, 3). The application device acts detachably on the functional device (1).
US09435774B2
A gas chromatograph having a column which separates respective components contained in a gas sample introduced via a carrier gas over time, wherein an analysis mode and a standby mode can be switched and executed. The gas chromatograph apparatus comprises: a carrier gas flow path, a column protection gas flow path, a flow path switching part provided between the carrier gas flow path and the column protection gas flow path and a column so that only one of the carrier gas or a column protection gas is introduced into the column, and a flow path control part for controlling the flow switching part so as to introduce the carrier gas into the column at the time of the analysis mode and introduce the column protection gas into the column at the time of the standby mode.
US09435765B2
A cartridge manipulates samples in liquid droplets with an electrode array when a working film is placed on the array. The cartridge has a body with lower surface and wells to hold samples, each with a bottom opening to release liquid. A piercable bottom structure seals the bottom openings. A working film below the body has a hydrophobic upper surface. A peripheral spacer connects the working film to the body and forms a gap is between the body and surface. A top piercing system located in at least one of the wells has a piston and a piercing element, the piston being movable in the well and the piercing element piercing the piercable bottom structure for releasing a sample from a well into the gap.
US09435761B2
An electrochemical strip is disclosed. The electrochemical strip includes a substrate and an electrode deposited on the substrate. The electrode includes a conductive paste layer, a first metal layer, a second metal layer, a third metal layer, and a fourth metal layer. The conductive paste is made of a material selected from the group consisting of copper paste, nickel paste, silver paste, and silver-carbon paste. The first metal layer is made of a group VIII metal. The second metal layer is made of nickel. The third metal layer is made of a group VIII metal. The fourth metal layer is made of a material selected from the group consisting of palladium, gold, and platinum.
US09435760B2
A detector for detecting sodium hypochlorite concentration includes a first electrode, a second electrode and a processing unit. The first electrode and the second electrode are disposed opposite each other, and are soaked in a sodium hypochlorite solution under detection. An electrical path is formed among the first electrode, the sodium hypochlorite solution and the second electrode. The processing unit, electrically connected to the first electrode and the second electrode, measures a plurality of ions in the sodium hypochlorite solution transmitted in the electrical path to obtain a conductivity of the sodium hypochlorite solution and to accordingly calculate concentration of the sodium hypochlorite solution. Compared to a conventional measurement apparatus adopting an optical detector, the invention not only can be fabricated at low production costs, but also can instantly obtain the detected concentration without involving analysis of an externally connected computer.
US09435750B2
A borescope includes a plurality of bending parts, a plurality of lens barrels, a plurality of joint parts, an objective lens device, a plurality of reflectors, a plurality of relay lenses, and a camera mount. The plurality of lens barrels are connected via the plurality of bending parts with predetermined bend angles, respectively. Rotation angles of the plurality of bending parts are changeable via the plurality of joint parts relative to the plurality of lens barrels. The objective lens device has an objective lens and is detachably provided at a front end side of the plurality of lens barrels. The plurality of reflectors are respectively disposed in the plurality of bending parts. The plurality of relay lenses are respectively disposed in the plurality of lens barrels. The camera mount is provided at a rear end side of the plurality of lens barrels.
US09435741B2
A spectrometry device according to an aspect of the present invention is including a light source (101), a lens 104 concentrating a light beam from the light source (101) on a reference sample (120), an objective lens (106) concentrating a light beam that has passed through the first lens (104) on a measurement sample (121), a spectroscope (109) dispersing light having a different wavelength from that of the light beam generated in the measurement sample (121) and the reference sample (120) by irradiation of the light beam into a spectrum, a detector (110) detecting light that is dispersed by the spectroscope (109), and a beam splitter (103) separating an optical path of light from the reference sample (120) and the measurement sample (121) toward the spectroscope (109) from an optical path of a light beam that propagates from the light source (101) toward the measurement sample (121).
US09435739B2
Compositions that comprise water, a first indicator reagent that can be converted by a first biological activity to a first biological derivative, and a plurality of particles are provided. The first indicator reagent can comprise a fluorogenic enzyme substrate having a fluorophore selected from the group consisting of umbelliferone, 7-aminocoumarin, β-naphthylamine, β-naphthol, fluorescein, resorufin, 9H-(1,3-dichloro-9,9-dimethyl acridin-2-one), rhodamine 110, a derivative of any of the foregoing fluorophores, and a combination of any of the foregoing fluorophores. The particles are capable of receiving and retaining the first biological derivative from an aqueous liquid. The first biological derivative can be indicative of a microorganism. The compositions further can comprise a gelling agent. Methods of using the compositions to detect the presence or absence of a microorganism in a sample are also provided.
US09435734B2
A method for observing stem cells by an observation device 1 comprises, placing stem cells C in a petri dish 11, mounting the petri dish 11 on a waveguide 21 via water 13, emitting illumination light L1 into the waveguide 21 and emitting the illumination light L1 to the stem cells C in the petri dish 11 via the water 13, and detecting scattered light L2, the scattered light L2 being the illumination light L1 emitted to the stem cells C that is scattered by the stem cells C and has passed through the waveguide 21. Then, in the light image detected by means of the scattered light L2, a region that is markedly darker than other regions is identified as being in the state tending toward differentiation.
US09435724B2
A test method and corresponding fixture design are provided which enable loading a circular test coupon (made, e.g., of ceramic matrix composite material) to failure under biaxial loading conditions while recording strain and temperature. Biaxial loading requires approximately equal loads to be applied in two directions concurrently. The disclosed method uses liquid coolant (e.g., liquid nitrogen) to cool a ring made of metal alloy (e.g., aluminum alloy) that is disposed radially outward from and surrounds the outer edge of the test coupon. The cooled metal alloy ring contracts and compresses the test coupon until failure occurs.
US09435720B2
A slide processing apparatus comprises a slide or processing station which may include a plurality of cuvettes, each cuvette configured to receive a slide. A reagent fluid supply is coupled to each cuvette to deliver and apply reagent for treatment of the slide. A slide gripper is disposed above the slide processing station and is configured to move the slide in and out of the cuvettes. A screw assembly is disposed adjacent the slide processing station, the screw assembly configured to receive a plurality of slides, wherein rotation of the screw assembly advances the plurality of slides for engagement by the slide gripper.
US09435718B2
An automated sample tube decanting system having one or more decanting grippers, a decant waste receptacle, a transporter, and means for rotating the decanting gripper. Each decanting gripper has a respective holder configured to selectively mate with a respective interface on a tube strip. The one or more decanting grippers are rotatable between a first position in which the tube strip is upright and a second position in which the tube strip is inverted. The transporter is configured to move the one or more decanting grippers in a lateral direction from a starting location to a location above the decant waste receptacle.
US09435710B2
A lining tube of resin-impregnated curable fiber material, which after being pulled in and made to expand within a conduit, is cured from the inside by irradiating with electromagnetic radiation and/or heat. A device for checking the curing through of the fiber material contains a first and second electrical conductor, which extend parallel to one another over a length of the lining tube and arranged between which is a portion in strip form of a reaction resin that has a higher electrical conductivity in the liquid state than in the cured state of the same. A method checks the curing through of the lining tube for the final check on the complete curing through of the reaction resin, the electrical resistance is recorded at two adjacent ends of the first and second electrical conductors and after that the recorded resistance value is compared with a predetermined resistance setpoint value.
US09435709B2
A system and method for detecting hose degradation are disclosed. In one aspect, a hose degradation monitoring system includes a hose assembly including a hose having a first conductive layer and a second conductive layer, and a monitoring circuit in electrical communication with the first and second conductive layers. The degradation monitoring circuit includes a circuit element having a non-linear electrical property in response to changed voltage.
US09435700B2
The invention relates to a transducer arrangement for converting a load variation into one or more electrical output signals. The transducer arrangement comprises at least one transducer element and an evaluation unit operatively connected to the transducer element. The transducer arrangement can be used amongst others, for healthcare applications, sport leisure activities, impact detection for safety applications in the automotive industry as well as for safety surveillance systems in the industry.
US09435689B2
A hyperspectral imaging system, a monolithic Offner spectrometer, and two methods for manufacturing the monolithic Offner spectrometer are described herein. In one embodiment, the monolithic Offner spectrometer comprises a transmissive material which has: (1) an entrance surface which has an opaque material applied thereto, where the opaque material has a portion removed therefrom which forms a slit; (2) a first surface which has a first reflective coating applied thereto to form a first mirror; (3) a second surface which has a second reflective coating applied thereto to form a diffraction grating; (4) a third surface which has a third reflective coating applied thereto to form a second mirror; and (5) an exit surface.
US09435685B2
There is provided a part holding head assembly of a part mounting device including: a rotary head; a spindle configured to rotate in a first direction T with respect to a central axis of the spindle and configured to move in a second direction Z substantially parallel with an extending direction of the central axis of the spindle; a nozzle provided at a first end of the spindle; a raising part configured to move the spindle to in the second direction Z; and a contact detecting sensor configured to sense the nozzle contacting a part or the part held by the nozzle contacting a substrate and configured to generate a contact sensing signal according to the sensing.
US09435681B2
A method and system for in situ calibrating a flow metering system to monitor fluid flow in a pipe from a well is provided. The method includes the steps of: a) measuring a first characteristic of the fluid flow exiting the well using a DP flow meter during a dry gas period, and producing an first output data representative of the first characteristic; b) measuring a second characteristic of the fluid flow exiting the well using a SONAR flow meter time during the dry gas period, and producing a second output data representative of the second characteristic; c) determining a dry gas offset between the DP flow meter and the SONAR flow meter based on the first output data and the second output data; and d) calibrating the flow metering system using the dry gas offset.
US09435674B2
An acoustic flowmeter comprising a flow tube including an inner elongate member in the flow tube to define at least one flow passage for the flowmeter.
US09435671B2
A percussion instrument, in the simplest case in the form of a djembe, having one or more interconnected resonators in the form of elliptical paraboloids, which meet at their focal points. At or near this common focal point, sound-receiving or sound-emitting devices may be additionally placed. An expedient embodiment provides that the resonators are of a form in which they can be dismantled. A possible method for producing a suitable form is provided by making rings out of plate material.
US09435670B2
A portable apparatus for sensing position of an oil port on a rotating element (e.g. the wheel or track of a heavy vehicle) has a position sensor in electrical communication with a wireless transmitter. The wireless transmitter is configured to receive signals from the position sensor and to send signals to a wireless receiver. The apparatus further has a mounting structure (e.g. a magnet) for temporarily mounting the apparatus on the rotating element. An indicium on the apparatus associated with a desired service action to be performed on the rotating element correlates an angular position of the oil port to a pre-determined reference position of the position sensor, the angular position of the oil port being a correct position for performing the desired service action. In use, the apparatus is mounted on the rotating element so that the indicium points at the oil port and then the rotating element is rotated until the receiver indicates that the oil port is in the correct position.
US09435657B2
A navigation system includes: a storage interface, configured to access a travelogue image for depicting an interest point; a control unit, coupled to the storage interface, configured to generate an extracted interest set including the interest point based on the travelogue image; generate a travel itinerary including an activity sequence based on the extracted interest set; calculate a navigation route based on the travel itinerary and the extracted interest set for accessing the interest point; and generate an attraction suggestion based on the travel itinerary and the navigation route for recommending an attraction point other than the interest point indicated in the travelogue image along the navigation route.
US09435655B2
Various systems and methods for coordinating crowd dispersal are described herein. A system for coordinating crowd dispersal includes a user module to: identify a plurality of parties at a venue, each party having at least one person associated with it; and identify a location of each of the plurality of parties within the venue; a route module to calculate a traffic dispersion plan designed to disperse the plurality of parties from the venue, the traffic dispersion plan including a route for each of the plurality of parties; and a communication module to communicate routes from the traffic dispersion plan to respective parties of the plurality of parties.
US09435652B2
Embodiments of the invention provide a dynamic routing intelligent vehicle enhancement system and method. Intelligent land buoys can be proximately disposed to roadways. Each of the intelligent land buoys can gather situational awareness information about the roadways and one or more vehicles traveling thereon. The intelligent land buoys can compress the situational awareness information. One or more remote computer servers can receive the compressed situational awareness information from the plurality of intelligent land buoys, decompress it, and process the decompressed situational awareness information. The one or more remote computer servers can generate vehicle operational intelligence information based at least on the decompressed situational awareness information, and can transmit the vehicle operational intelligence information to the plurality of intelligent land buoys and/or directly to one or more autonomous or semi-autonomous vehicles.
US09435649B2
Methods and systems for azimuth measurements using a gyroscope unit are disclosed. The method includes acquiring a ratio value between two earth rate components orthogonal to each other by using the gyroscope unit at a measuring position; acquiring three gravity vector components orthogonal to each other at the measuring position; and determining an azimuth with respect to a reference axis predetermined in the gyroscope unit, based on the ratio value, the three gravity vector components and a geodetic latitude of the measuring position.
US09435638B2
An optical scanning device includes a substrate, which is etched to define an array of two or more parallel micromirrors and a support surrounding the micromirrors. Respective spindles connect the micromirrors to the support, thereby defining respective parallel axes of rotation of the micromirrors relative to the support. One or more flexible coupling members are connected to the micromirrors so as to synchronize an oscillation of the micromirrors about the respective axes.
US09435635B1
A relative navigation system and methods of intrusion detection for such a relative navigation system where the method includes repeatedly projecting from a grid generator a set of lines defining a grid into three dimensional space to define a field bounded by the grid and encoded with grid data configured to identify predetermined points on the grid and determining a presence of an intruding object within the field.
US09435632B2
A stator of a resolver includes a stator body including multiple magnetic pole portions; multiple stator windings respectively wound around the magnetic pole portions; multiple terminal pins each including a stator winding connecting portion around which the corresponding stator winding is wound; and an external cable connecting portion to be connected with an external cable; and a terminal pin holding portion that holds the terminal pins. The stator winding connecting portion of each terminal pin is formed in a double layer by folding a metal piece and has a fold formed when the metal piece is folded. The fold of the stator winding connecting portion of each terminal pin is formed along a longitudinal direction of the stator winding connecting portion.
US09435626B2
A fixture apparatus for positioning an optical component has a transparent base. An adjustment plate that is formed from a transparent material is kinematically coupled to the base. Support posts extend from the adjustment plate for seating the optical component. A number of alignment elements extend from the transparent base for aligning one or more edges of the optical component seated on the support posts.
US09435624B2
The invention relates to a safety arming system for an explosive charge. According to the invention, the system comprises: an arming actuator (4) for moving a sleeve (19), supporting a detonator (20), from a fixed safety position to a fixed armed position; and a disarming actuator (5) arranged opposite the arming actuator (4) and capable of returning the sleeve (19) from the fixed arming position to the fixed safety position.
US09435621B1
An arrowhead assembly structure is connected with a front end of an arrow rod and includes: an arrowhead member, a first end of the arrowhead member being fitted on a front end of the arrow rod, the arrowhead member having a support flange and a hub section, the hub section axially extending from the support flange toward a second end of the arrowhead member, the hub section having a diameter smaller than outer diameter of the support flange; at least one first cushion member formed with a central through hole, by means of the central through hole, the first cushion member being fitted around the hub section, one end of the first cushion member being adhered to the support flange of the arrowhead member; and at least one second cushion member, a first end of the second cushion member being adhered to a second end of the first cushion member.
US09435617B2
An audible target system for measuring the accuracy of shooting projectiles with an air gun or other device is disclosed. The audible targeting system comprises a target component, a computer, and a software program capable of interpreting the results. The target component comprises a plurality of targets that a user attempts to hit with a projectile fired from a shooting device. Once struck, each of the plurality of targets engages a mallet that in turn strikes a resonant member which emits one of a plurality of audible tones. Furthermore, instead of a mallet and a resonant member, the plurality of targets can comprise an area switch with a momentary contact. Thus, the target when engaged by a projectile would produce a sound through the process of an electric switch engaging an electrical circuit. Once the electrical circuit is closed, a sound is emitted from speakers integrated in the target.
US09435602B1
An active recoil control system uses multiple sensors in combination with a solenoid controlled multi-disc brake to adjust the weapon recoil. Using outputs from the sensors, a controller predicts and reacts to a recoiling mass performance, and applies the required braking force, in order to compensate for anticipated or actual variations. Feedback from the sensors allows the active recoil control system to adjust braking during the recoil strokes and counter-recoil strokes in order to optimize the weapon operation and performance in extreme firing conditions.
US09435601B2
A bipod kit for a firearm has a bipod leg mounting body and a firearm structural component. The bipod leg mounting body has a substantially round central passage defining an interior side surface thereof and has two leg mounting structures on an exterior side surface thereof generally opposite the interior side surface. The firearm structural component can be mounted on the firearm at an OEM (original equipment manufacturer) mounting structure thereof. The firearm structural component includes a bipod mounting portion integral therewith. The bipod mounting portion is cylindrical and is rotatably mounted within the central passage of the bipod leg mounting body. The bipod mounting portion is configured such that a barrel of the firearm extends through a central passage thereof when the firearm structural component is mounted on the firearm at the OEM mounting structure thereof.
US09435599B2
A modular linear striker has a firing pin assembly, an axial spring and a housing. The firing pin assembly includes a firing pin and a reset spring and may also include a separate slider. The firing pin has a resting position, a cocked position and a firing position. The reset spring biases the firing pin back in its resting position. When the slider is incorporated into the firing pin assembly, the axial spring biases the slider forward with a preloaded force. The housing surrounds the firing pin assembly and the axial spring. The housing has a notched section between its front face and its body section which fits within a setting in the firearm frame. The notched section engages the fitting in the firearm frame so that the modular linear striker is arranged in the proper position and orientation within the frame.
US09435594B2
An ammunition magazine, including a container configured to hold ammunition and dispense the ammunition to a weapon, and an indicator disposed in the container and configured to create a signal indicative of a predetermined amount of ammunition remains in the container. In one example embodiment, the indicator includes a sensor member configured to engage with the ammunition when more than the predetermined amount of ammunition remains in the container, and configured to not engage with the ammunition when less than the predetermined amount of ammunition remains in the container. A signal generator is coupled to the sensor member and configured to provide an electrical signal indicative of whether the sensor member is engaging the ammunition, or is not engaging the ammunition.
US09435585B2
A microwave dryer and a microwave drying method are provided to evaporate water by using the penetrability of microwave. A wind screen (14) arranged in a dryer body (6) is used as a heat storage body to store heat temporarily when the material in the dryer body (6) is heated. Hot air in the dryer body (6) is extracted by an air discharging system and redelivered to the dryer body (6) from the bottom of the dryer. The specific weight of the material after water is evaporated is reduced, so the dried material can be carried out of the dryer body (6) if enough wind power is provided.
US09435584B2
The invention relates to a device for separating, at least partially drying and inspecting electronic components, comprising: separating means, a carrier for the electronic components, a heating source for generating radiant heat, displacing means for displacing the carrier for the electronic components relative to the heating source, and visual inspection means. The heating source is configured to generate radiant heat in order to selectively heat and evaporate moisture present on the separated electronic components.
US09435580B2
A drawer assembly is provided for a refrigeration appliance. The drawer assembly comprises a unitary storage bin configured to move relative to the cooled compartment. The storage bin is defined by a front wall, a rear wall and opposed sidewalls that are arranged substantially parallel to the first and second interior walls of the cooled compartment. An uppermost portion of each of the opposed sidewalls comprises a projecting edge. The rear wall comprises a reinforced edge that inhibits deflection. A pair of linear motion elements is installed to enable movement of the storage bin in and out of the cooled compartment. A pair of support brackets couples the pair of linear motion elements.
US09435561B2
This disclosure provides for a protective cover for outdoor HVAC condensers. The protective cover generally comprises a protective covering material, a flexible wire within the protective covering material to allow the protective covering material to conform to any shape or size of HVAC condenser, a hinge mechanism and a strap to prevent the protective cover from being blown over during use and to return to its original position after use to protect the HVAC condenser from debris and natural wear.
US09435555B2
A fan system for use on oil and gas rigs. The system includes a hydraulic motor for generating a rotational force from a hydraulic fluid, a water pump member for pumping water, a control member for controlling the flow of hydraulic fluid and water. The system also includes a fan device having a plurality of individual blades for providing an airflow, with the fan device being operatively connected to the hydraulic pump member and a nozzle connected to the water pump member for spraying a mist, with the nozzle containing a variable opening for varying the pressure and volume of water discharged. A leak path is provided for capturing and channeling leaking fluids so that fluids are contained within the fan device not in the air stream.
US09435549B2
To provide an air-conditioning apparatus which achieves improvement of safety and further achieves saving of energy without circulating a refrigerant in or near an indoor unit. The air-conditioning apparatus includes one expansion device disposed on an outlet side of a heat exchanger related to the heat medium on the heating side. Another expansion device is disposed on an inlet side of a heat exchanger related to the heat medium on the cooling side such that the expansion devices are directly connected through a connecting pipe.
US09435540B2
An apparatus for injecting premixed fuel and air through a center body and into the combustion zone of a gas turbine includes a fuel injector nozzle with a premix pilot nozzle having a plurality of premix passages in fluid communication with an air supply and a fuel supply that premixes air and fuel within the premix passages. The apparatus has either an active or passive fuel feed control. Fuel can be fed to the apparatus either conventionally or as a breech load circuit integrated into the oil cartridge. Fuel can be supplied passively via a fuel channel connecting the swozzle fuel plenum to the premix passages. Alternatively, fuel can be injected from the oil cartridge into the premix passages.
US09435525B1
Multi-part heat exchangers for hot/cold temperature domain isolation in LED lamps are disclosed.
US09435523B2
A portable lighting device that provides different user interfaces that may be selected by the user. Each user interface may provide one or more operational modes, such as on mode, power save mode, strobe mode or momentary mode. After a user interface is selected, the user may select on of the operational modes. The portable lighting device may be a flashlight.
US09435514B2
In a surface light source device (1), a positive reflective region (23) of a reflective member (20) that is disposed on the bottom surface (4) of a housing (2) reflects light output by a light emitting device (14) toward a direction away from the light emitting device (14). As a result, the brightness of the light in the proximity of the light emitting device (14) of the surface shaped illuminating light output by a light emitting surface member (3) can be suppressed, and the brightness of light of a central part (position furthest away from the light emitting device (14)) of the surface shaped illuminating light output by the light emitting surface member (3) can be increased.
