| Document | Document Title |
|---|---|
| US08502949B2 |
Display panel and display apparatus having the same
A display panel includes a first display substrate, a second display substrate, and a liquid crystal layer. The first display substrate includes a first base substrate having a plurality of display cells, a plurality of data lines, a plurality of gate lines, and a plurality of pixel electrodes. The data lines, the gate lines and the pixel electrodes are respectively separated in each of the display cells. The second display substrate includes a second base substrate, a light blocking pattern corresponding to the data lines and the gate lines, a common electrode facing the pixel electrodes, and a common line overlapping with the blocking pattern. The liquid crystal layer is disposed between the first and second display substrate. |
| US08502948B2 |
Active device array substrate
An active device array substrate includes a substrate, first scan lines, second scan lines, data lines, and pixels. The first and the second scan lines are alternately arranged along a first direction. The data lines are arranged in parallel along a second direction. The pixels are arranged to form first pixel rows and second pixel rows alternately arranged in the first direction. The first pixel row includes first and second pixels electrically connected to the first scan lines, the second scan lines, and the data line, respectively. The second pixel row includes third and fourth pixels electrically connected to the first scan lines, the second scan lines, and the data line, respectively. The pixels between two adjacent data lines are arranged in two columns. Among the pixels in the same column, the pixels in odd rows and in even rows are electrically connected to different data lines, respectively. |
| US08502946B2 |
Array substrate of fringe field switching mode liquid crystal display panel and method of manufacturing the same
An array substrate of a fringe field switching (FFS) mode liquid crystal display (LCD) panel and manufacturing method thereof are provided. The gate electrodes and the common electrode of the FFS mode LCD panel are formed on the array substrate by the same photolithographic process, and the common electrode, the gate lines and the gate electrodes are disposed on the same layer. The passivation layer of the FFS mode LCD panel is formed on the pixel electrodes. The passivation layer has a plurality of first openings, and each of the first openings at least partially exposes the pixel electrodes. |
| US08502944B2 |
Liquid crystal display of horizontal electronic field applying type with storage capacitor covering the gate line and common line and fabricating method thereof
A liquid crystal display (LCD) device of a horizontal electric field type is disclosed. The LCD device is fabricated by a three-mask process, and has gate pad, common pad and data pad electrodes, each including a upper electrode formed of a transparent conductive material. With a lift-off process, these upper electrodes are formed within contact holes. |
| US08502941B2 |
Transflective liquid-crystal-display device with single retardation film between half-waveplate and liquid crystal layer
A LCD device has a LC layer sandwiched between a TFT substrate and a counter substrate, first and second polarizing films, a first λ/2 film between the first polarizing film and the counter substrate, and a second λ/2 film between the second polarizing film and the TFT substrate. Angle θ1 between the direction of the optical axis of the LC layer and the polarized direction of the light entering the LC layer satisfies the relationship: 0 degree<θ1<45 degrees. The resultant LCD device has lower leakage light and coloring. |
| US08502936B2 |
System, apparatus and methods for improved transmissivity of LCD panel
A gaming system includes a first display configured to display the random outcome of the wagering game, and a second display disposed to overlay at least a portion of the first display. The second display includes a transmissive liquid crystal display defining a transmissive window behind which a corresponding portion of the first display is positioned. The liquid crystal display further includes a polarizing film having a plurality of patterned features generally aligned with the transmissive window. The polarizing film is at least partially removed in the area of the patterned features to enhance transmissivity of the liquid crystal display. |
| US08502935B2 |
Liquid crystal display device comprising a light guide plate with a light radiation portion and a light incident portion joined by a joint surface and having an inclined surface and projecting portions
In a backlight which arranges light emitting diodes on a side surface of a light guide plate, even when the light guide plate is made thin by further reducing a thickness of the light guide plate and the light emitting diodes having a thickness larger than the thickness of the light guide plate are used, it is possible to manufacture the light guide plate with high accuracy in a short time. In a liquid crystal display device having a backlight which radiates light to a liquid crystal panel, LEDs are mounted on the light guide plate formed on the backlight as a light emitting element, a light radiation portion of the light guide plate is formed by molding by applying pressure and heat to a sheet-shaped resin, and a light incident portion of the light guide plate is formed by injection molding. |
| US08502931B2 |
Liquid crystal display with an increased aperture ratio
A liquid crystal display includes a pixel group including a first pixel having a first thin film transistor and a second pixel having a second thin film transistor. A gate line provides a driving signal to a gate of the first and second thin film transistors. A first storage capacitor line is arranged substantially parallel with the gate line and adjacent to one side of the first pixel. A second storage capacitor line is arranged substantially parallel with the gate line and adjacent to an opposite side of the first pixel. The liquid crystal display includes a first storage capacitor arranged in the first pixel and connected between the first thin film transistor and the first storage capacitor line. A second storage capacitor is arranged in the second pixel and is connected between the second thin film transistor and the second storage capacitor line. |
| US08502922B2 |
Multimedia device and play mode determination method of the same
A multimedia device and a play mode determination method of the same are provided. The multimedia device includes a frame difference calculation unit, a global threshold determination unit and a play mode determination unit. The frame difference calculation unit calculates the frame difference between two continuous frames to obtain a global variation. The global threshold determination unit determines a film mode threshold corresponding to a film mode and a video mode threshold corresponding to a video mode according to a current frame of the two frames and a previous global variation, and selects a global threshold from the film mode threshold and the video mod threshold. The selected threshold is smaller than the film mode threshold. The play mode determination unit compares the global variation with the global threshold, and enables the multimedia device to enter one of the film mode and the video mode according to the comparison result. |
| US08502920B2 |
Method and apparatus for extracting a desired television signal from a wideband IF input
Various embodiments are described herein for a universal television receiver that is capable of processing television channel signals, that are transmitted according to a variety of broadcast standards, to provide video and audio information for a desired television channel signal. The processing includes producing a coarse channel signal that includes a desired television channel signal and then applying resampling techniques to adjust a normalized bandwidth of the desired television channel signal to generally correspond to the normalized passband of a main filter that is used for each of the broadcast standards. |
| US08502917B2 |
Image processing circuit, image display device, and an image processing method
The present invention is arranged such that interlace image data, which has been supplied, is converted to progressive image data in an I/P conversion section, and the image data converted to progressive style in the I/P conversion section is subjected to image processing including data comparison in spatial or time series manner, in an image processing section. |
| US08502913B2 |
Video processing apparatus and video processing method
An imaging apparatus includes a histogram shape determination unit that acquires a histogram of luminance values from video captured by an image capturing unit and determines whether or not the captured video is a night scene from the shape of the histogram. The imaging apparatus also includes a point light source determination unit that acquires the maximum value of contrast for each horizontal line in the video as a line evaluation value and determines whether the captured video is a night scene based on whether or not the line evaluation value has a characteristic of an object as a point light source. If the histogram shape determination unit and the point light source determination unit determine that the captured video is a night scene, the imaging apparatus determines that the scene captured by the image capturing unit is a night scene. |
| US08502898B2 |
Method, apparatus, and system providing a rectilinear pixel grid with radially scaled pixels
Pixels in an imaging device pixel array are sized according to their geographic location in the pixel array to compensate for various optical characteristics/issues. In one example, pixel size is increased according to the distance of the pixel from the x-axis and/or the y-axis of the pixel array to correct for lens shading. |
| US08502896B2 |
Image device that accelerates reconstruction process
An imaging device includes: a lens optical system, for focusing light from a subject; a single chip color imaging element equipped with a Bayer pattern color filter, for imaging an image of the subject focused by the lens optical system; and an image processing section, for performing a filtering process in which data output by the imaging element is passed through an image reconstructing filter having properties inverse blur properties of the optical system, and then performing a synchronization process. The image processing section collects data excluding zero elements for each of R, G, and B channels, to generate reduced data arrays in which the amount of data is ¼ for the R and B channels, and ½ for the G channel, and administers the filtering process using the image reconstruction filter onto data of the reduced data array for each of the R, G, and B channels. |
| US08502894B2 |
Method and apparatus for ringing and halo control
A system is disclosed for reducing artifacts in images and video, such as ringing or halo artifacts. The system may include an edge detector and a gain controller. The edge detector may create an edge image used by the gain controller to create a gain image, and the gain image may be used to reduce artifacts in an image. The gain controller may, for a current pixel in the edge image, compute the maximum value of the edge image over a window containing the current pixel. The gain controller may also perform averaging to determine a maximum edge value and a current edge value, and may also use a ratio of the current edge value and the maximum edge value to determine a gain to be applied to a pixel of an image. |
| US08502893B2 |
Imaging apparatus, flash determination method, and recording medium
An imaging apparatus capable of increasing the accuracy of detection of an outside flash of light.The imaging apparatus includes an imaging unit that sequentially captures images using a CMOS-type image sensor, and a flash determination unit that determines the presence/absence of a flash based on the images captured by the imaging unit. The flash determination unit monitors an amount of change in the average luminance level of a predetermined region in the lower area of the screen in the images captured by the imaging unit, and determines the presence/absence of a flash based on the amount of change in the average luminance level. |
| US08502888B2 |
Image data management apparatus and method, image data search apparatus and method, and recording medium
A data management apparatus capable of managing data stored in a storage unit includes a designation unit, setting, search, management units, and a first display control unit. The setting unit sets, based on predetermined date information included in designated data, information on a date to data to be stored and is other than the designated data. The search unit searches data, from among stored data, based on a date or period search condition. The management unit manages data to add, from among the searched data, data of known predetermined date information to a first result list and data to which the date information has been set to a second result list. The first display control unit causes a display such that each displayed data is accompanied with an identifier for distinguishing whether the data is searched out from among the data of the first or second result list. |
| US08502887B2 |
Image processing apparatus and method
An image processing apparatus is provided including an acquiring unit configured to acquire information regarding a set of frames that is associated with a condition indicating a relative relationship between a set of images to be arranged in the set of frames, an extracting unit configured to extract the set of images from a plurality of images, wherein the set of images extracted satisfies the condition that is associated with the information regarding the set of frames acquired by the acquiring unit, and an arranging unit configured to arrange the set of images extracted by the extracting unit in the set of frames corresponding to the information acquired by the acquiring unit. |
| US08502886B2 |
Solid-state image sensing device
There is provided a solid-state image sensing device including a pixel section in which cells are arrayed, each cell including a photoelectric conversion unit, a reading circuit reading out, to a detection unit, signal charges obtained by the photoelectric conversion unit, an amplifying circuit amplifying and outputting a voltage corresponding to the signal charges, and a reset circuit resetting the signal charges, an exposure time control circuit controlling an exposure time and controlling the exposure time to be equal for all cells, an A/D conversion circuit A/D-converting a signal output from the pixel section by changing a resolution of a signal level, line memories storing an A/D-converted signal, and a signal processing circuit processing output signals from the line memories to have a linear gradient with respect to an optical input signal amount by controlling an amplification factor in accordance with a resolution of a pixel output signal after A/D-conversion. |
| US08502883B2 |
Photographing apparatus and photographing control method
When an interchangeable lens in which a memory that records image data is provided is mounted to a camera main body including a display section that displays an image, a signal processing and control section of the camera main body reads in a sample image that is previously stored in the memory. The sample image serves as a model with respect to an image that can be photographed by the interchangeable lens. The sample image is displayed by the display section for a predetermined time. Thereafter, the signal processing and control section performs display control that switches the display of the display section so as to display an image in which a subject is picked up by the interchangeable lens and the image pickup section. |
| US08502881B2 |
Image processing apparatus, image processing method, and electronic camera
An image processing apparatus comprising: an input visual environment acquisition unit that acquires a shooting scene viewing condition at the time of shooting an image, an output visual environment acquisition unit that acquires a shot image viewing condition, a converting unit that converts the image using a predetermined color appearance model based on the shooting scene viewing condition acquired by the input visual environment acquisition unit and the shot image viewing condition acquired by the output visual environment acquisition unit, and a correction unit that corrects a parameter of the color appearance model used by the converting unit by using at least one of a shooting condition of the image and a scene judging result based on at least one of the image and the shooting conditions of the image. |
| US08502874B2 |
Image recording apparatus and control method
In a case where a position information acquisition setting unit sets to acquire position information and in a case where a determination unit determines that the image data recorded in a recording medium is automatically transmitted to an external device, a transmission setting confirmation screen is displayed, so that the image data to which the position information is attached is prevented from being transmitted to the external device while the user does not intend to do so. |
| US08502872B2 |
Infrared solid-state imaging device
A thermal infrared solid-state imaging device includes a pixel array having pixels diodes, a vertical power supply line connected to horizontal drive lines and commonly connecting the horizontal drive lines, integrating circuits for integrating voltages at the ends of the vertical signal lines for a predetermined integration time, and current sources connected to the vertical signal lines at an opposite end to the end of the vertical signal line which is connected to the integrating circuit. The integration time is equally divided substantially into two periods, and during one divided period of the integration time, energization is performed between one end of the vertical power supply line and the current source, and during the other divided period of the integration time, the energization is performed between other end of the vertical power supply line and the current source. |
| US08502867B2 |
Synthetic aperture optics imaging method using minimum selective excitation patterns
A synthetic aperture optics (SAO) imaging method minimizes the number of selective excitation patterns used to illuminate the imaging target, based on the objects' physical characteristics corresponding to spatial frequency content from the illuminated target and/or one or more parameters of the optical imaging system used for SAO. With the minimized number of selective excitation patterns, the time required to perform SAO is reduced dramatically, thereby allowing SAO to be used with DNA sequencing applications that require massive parallelization for cost reduction and high throughput. In addition, an SAO apparatus optimized to perform the SAO method is provided. The SAO apparatus includes a plurality of interference pattern generation modules that can be arranged in a half-ring shape. |
| US08502865B2 |
Mirror and adjustment method therefor
A method for adjusting a mirror. The method includes using a time-of-flight (TOF) camera to capture an image of a scene in front of a reflecting portion of the mirror and obtaining data about distances between a number of points in the scene and the TOF camera. Building a three dimension (3D) model of the scene. Analyzing the 3D model to locate a face region in the 3D model. Obtaining a first midline between a reference eyeline in the face region and a top of the face region. Obtaining a second midline of the 3D model, comparing the first and second midlines to determine whether the two midlines overlap. Output a comparison signal upon the condition that the two midlines do not overlap; and directing a driving apparatus to move the mirror to adjust a height of the mirror according to the comparison signal. |
| US08502864B1 |
Systems, devices, and/or methods for viewing images
Certain exemplary embodiments can provide a method comprising, via a signal, triggering an illumination of a first light source and a second light source, the first light source adapted to lighten a first image, the second light source adapted to lighten a second image, the first image rendered side-by-side with the second image. |
| US08502863B2 |
Stereoscopic imaging apparatus
A cut-out process of image corresponding to an amount of optical axis deviation of left and right imaging optical systems is applied to left and right images acquired by the left and right imaging units to correct an optical axis deviation. In this case, the amount of optical axis deviation corresponding to a current focus position is acquired from the amounts of optical axis deviation detected in accordance with focus positions stored in advance in a storage unit (step S38). A cut-out process of image for stereoscopic display is applied to the left and right images based on the acquired amount of optical axis deviation (step S40). As a result, the optical axis deviation of the left and right imaging optical systems can be excellently corrected regardless of the focus position (subject distance). |
| US08502859B2 |
Determining buffer size based on forward error correction rate
Determining a buffer size in a videoconference. In some embodiments, one or more of various different error correction methods may be used in a videoconference. For example, forward error correction (FEC) may be used and/or retransmission of lost packets (ReTxLP) may be used, e.g., based on a packet loss threshold. Where FEC is used, a buffer size of a receiving videoconferencing device may be determined based on the FEC rate. Where ReTxLP is used, a buffer size of the receiving videoconferencing device may be determined based on a retransmission latency. |
| US08502857B2 |
System and method for combining a plurality of video stream generated in a videoconference
Disclosed herein is a method and apparatus for videoconferencing that allows video images from two or more cameras at the same site to be displayed as a single panoramic image. Accordingly, a conferencing endpoint having a single monitor can display the panoramic image of the two or more video images from an endpoint having multiple cameras, such as a telepresence endpoint. A sliding display area can be used to manually define a zoomed portion of the panoramic image to be displayed. Alternatively, the zoomed portion may be determined automatically. The zoomed portion may be changed during the course of the conference. |
| US08502855B2 |
Codec negotiation
A method of interworking CS (Circuit Switched) video calls with video calls using IP multimedia protocols is provided. According to the method, an interworking function receives signalling comprising an indication of the codec capability of a CS terminal involved in the CS video call, as part of a MONA (Media Oriented Negotiation Acceleration) negotiation. Thereafter IP codec negotiation is initiated. And thereafter the MONA negotiation is continued and/or completed. Thus the codec capabilities and/or preferences of the CS terminal can be taken into account during the IP codec negotiation with the IP endpoint. |
| US08502848B2 |
Multicolor thermal imaging method and thermal printer
A multicolor direct thermal imaging method wherein a multicolor image is formed in a thermal imaging member comprising at least first and second different image-forming compositions and a thermal printer for use in practicing the method. Heat is applied to at least the second image-forming composition while the first image-forming composition is at a first baseline temperature (T1) to form an image in at least the second image-forming composition, and heat is applied to at least the first image-forming composition while it is at a second baseline temperature (T2) to form an image in at least the first image-forming composition, wherein T1 is different from T2. |
| US08502847B2 |
Adhesive label issuing device and printer
A printer includes: a cutter unit for cutting a label sheet to obtain an adhesive label with a desired length by allowing the label sheet to pass through the cutter unit; an adhesive strength exhibiting unit for allowing the adhesive label to exhibit adhesive strength by heating the adhesive label; a sheet loosening unit placed on a downstream side of the cutter unit and an upstream side of the adhesive strength exhibiting unit in a sheet transporting direction; and a sheet-passage direction changing unit for changing the sheet-passage direction in the upstream sheet-passage part by changing a direction of the upstream sheet-passage part from a reference position at which a sheet-passage direction in the upstream sheet-passage part is placed on the same line as a sheet-passage direction in the downstream sheet-passage part to an inclined position at which the direction is inclined from the reference position. |
| US08502845B2 |
Method for changing resolution and display apparatus and system using the same
A method for changing a resolution and a display apparatus and system using the method are provided. The method for changing a resolution includes receiving an input indicating a resolution selected from among a plurality of resolutions, transmitting information of the selected resolution to an external device, receiving an image which has been processed based on the information of the selected resolution from the external device, and displaying the received image on a screen the display apparatus. |
| US08502840B2 |
Apparatus for driving a display panel with compensation for heat caused by proximity to light source, and method thereof
A driving unit of a display panel includes a control part, a gate driving part, a grayscale compensating part, and a data driving part. The control part provides a control signal and a grayscale signal. The gate driving part provides a gate signal to the display panel. The display panel is divided into a plurality of blocks according to a distance from a light source to each of the blocks. The grayscale compensating part outputs a compensating signal of an n-th frame using look-up tables, and the look-up tables respectively correspond to the blocks of the display panel. The data driving part converts the compensating signal of the n-th frame into a grayscale voltage and provides the grayscale voltage to the display panel. Accordingly, the driving unit of the display panel may improve a response speed of liquid crystals and display quality. |
| US08502839B2 |
Transflective display device and driving method thereof
A display device includes a display panel and a driving circuit. The display panel has a pixel including red, green, blue, and white sub-pixels. The driving circuit receives a display signal and provides at least a first luminance weighting and a second luminance weighting of the red, green, blue, and white sub-pixels respectively. The display device selects one of the first luminance weighting and the second luminance weighting to drive the pixel according to the different operating modes of the display device. |
| US08502837B2 |
System and method for activating components on an electronic device using orientation data
The disclosure relates to a system and method for analyzing an orientation of a handheld electronic device. The method comprises: monitoring data from a first sensor for the device; determining an orientation of the device by analyzing at least the data from the first sensor; and activating a first component on the device in view of the orientation of the device. The method may further comprise deactivating a second component on the device in view of the orientation of the device. |
| US08502835B1 |
System and method for simulating placement of a virtual object relative to real world objects
A computer-implemented method for virtually placing a virtual object in the real world is provided. A set of virtual objects are maintained in an actions database on a mobile computing device, which each include an action associated with an identifier and coordinates for physical locations. A set of real world object models is maintained in an objects database on the device, which each include a three-dimensional model. A physical location of the device is tracked. An identification tag within range is identified. The device's physical location and the identification tag are respectively evaluated. For each coordinates and identifiers matched, the action associated with the matched virtual object is completed. Where required, the virtual object is evaluated against the real world object models and the virtual object is rendered in light of any such real world object models located within vicinity of the device. The action is performed using the device. |
| US08502827B1 |
System, method, and computer program product for outputting content during a boot-up period
A system, method, and computer program product are provided for outputting content during a boot-up period. In use, content is independently processed, utilizing a graphics processor. During a boot-up period, such content is outputted. |
| US08502825B2 |
Avatar email and methods for communicating between real and virtual worlds
A method for and system for communicating using a virtual world are disclosed. In the method an avatar may be associated with a source of an email. An email may be generated within the virtual world and one or more images of an avatar may be associated with the email. The email may be sent to a real device and the one or more images may be presented at a destination of the email. The system may comprise one or more processors configured to generate a virtual world; associate an avatar with a source of an email; generate an email within the virtual world; associate one or more images of an avatar with the email; send the email to a real device; and present the one or more images at a destination of the email. |
| US08502821B2 |
System for three-dimensional rendering of electrical test and measurement signals
The system for three-dimensional rendering of signals has a computer system having acquired, streaming, or previously stored data in its memory representing multiple channels of signals in which each channel has a value which varies over a domain, e.g., time or frequency, and a display coupled to the computer. For each channel, the computer system segments the data of the channel into segments, orders the segments, renders on the display each of the segments, in which each of the rendered segments are aligned in such order along a three-dimensional perspective with gaps between adjacently rendered segments, and lines are rendered extending from each line of each one of the rendered segments to form a three-dimensional plane in the gap to the next successive one of the rendered ordered segments to form a three-dimensional continuous or discontinuous surface characterizing the channel. The surfaces of each of the channels are aligned on the display, and may be of different color, shading, and translucency, whereby channels of overlaid surfaces are viewable on the display. |
| US08502819B1 |
System and method for performing ray tracing node traversal in image rendering
A method for performing a ray tracing node traversal operation in an image rendering process includes traversing a plurality of nodes within spatial hierarchy that represents a scene which is to be rendered, the spatial hierarchy including two or more hierarchy levels, each hierarchy level including one or more nodes. A number representing the number of nodes traversed in each one of a plurality of different hierarchy levels is stored, wherein each number is represented by at least one bit in a multi-bit binary sequence. |
| US08502812B2 |
Liquid crystal display device and driving method thereof, and mobile terminal having the same, for preventing white or black effect
A liquid crystal display (LCD) device of a mobile terminal and a driving method of the LCD device are provided, including an LCD panel for presenting images, driver ICs for driving the LCD panel, and a system controller for comparing a measured signal with a normal state signal and initializing the driver ICs according to a difference between the measured signal and the normal state signal. |
| US08502810B2 |
Display device and display method
A display device includes: a pixel array unit including a plurality of scanning lines and a plurality of signal lines; a scanning line driving unit that sequentially applies a driving voltage to the plurality of scanning lines according to a shift timing indicated by a shift clock; a signal line driving unit that drives the plurality of signal lines on the basis of an input video signal, and a clock adjusting unit that adjusts the shift clock such that there are n (n is a natural number equal to or greater than 2) shift timings within each one horizontal line period for which an image signal corresponding to one horizontal line is displayed. |
| US08502807B2 |
Signal transmission system of a flat panel device
A signal transmission system of a flat panel device includes an encoder, a transmitter, a receiver, and a decoder. The encoder converts a digital signal to a switch control signal. The transmitter includes 4n signal-lines for transmitting a current signal according to the switch control signal. The receiver includes 4n terminations, a plurality of terminal resistors, and a plurality of comparators. The receiver generates a group of voltage levels according to the current signal. Each comparator is coupled between any two terminations so as to generate a group of voltage differences. The decoder converts the group of voltage differences to the digital signal. |
| US08502803B2 |
Drift compensated optical touch screen
An optical touch screen including a display surface, an optical illumination assembly arranged along at least part of a periphery of the display surface, at least one light detector arranged to detect light distribution produced by the optical illumination assembly and changes in the light distribution produced by the presence of an object in predetermined propinquity to the display surface, detection circuitry receiving at least one output from the at least one light detector and providing an output indication of a two-dimensional location of the object relative to the display surface, calibration functionality responsive to changes in light distribution other than changes produced by the presence of an object in predetermined propinquity to a region of the display surface for calibrating the detection circuitry, at least one auxiliary illumination source, and at least one partially transmissive, partially reflective optical element disposed along a light path to the at least one light detector, providing a light transmissive optical path for light to the at least one light detector and a light reflective optical path for light from the at least one auxiliary illumination source. |
| US08502802B2 |
Display device
A touch panel includes a plurality of first electrodes, a plurality of second electrodes, and a plurality of wirings. Each of the plurality of first electrodes has a first portion formed on a layer different from that on which the second electrodes are formed and intersecting the second electrodes, and a second portion formed on the same layer as that on which the second electrodes are formed, but separated from the second electrode. The second electrode and the second portion of the first electrode are formed on a layer upper than the layer where the wiring is formed. The first portion of the first electrode is connected to the second portion in a contact hole formed on an insulating film between the first portion and the second electrode, and formed on the same layer on which the wiring is formed. |
| US08502801B2 |
Capacitive touch sensor system
A method of matrix sensing using delay-based capacitance sensing, including using X-axis lines as active lines for capacitance measurements and using Y-axis lines as a disturbance to identify the location of a touch in a key matrix is disclosed. A sensing signal is applied to the X-axis lines, and a disturbance signal is applied to the Y-axis lines. If a location is touched, cross-capacitance is reduced, which is measured by sweeping data along the X-axis lines. |
| US08502800B1 |
Method for improving sensitivity of capacitive touch sensors in an electronic device
An electronic device and method are disclosed that relate to the selection of a control algorithm for optimizing the performance of a device that is controlled by a user initiated touching of the device that creates a capacitive coupling. The device and method entail the use of a motion sensor to gather data related to the movement of the device, a means for analyzing the data to select an optimal control algorithm, and implementing the control algorithm. |
| US08502799B2 |
Integrated touch screen
Displays with touch sensing circuitry integrated into the display pixel stackup are provided. An integrated touch screen can include multi-function circuit elements that can operate as circuitry of the display system to generate an image on the display, and can also form part of a touch sensing system that senses one or more touches on or near the display. The multi-function circuit elements can be, for example, capacitors in display pixels that can be configured to operate as storage capacitors/electrodes, common electrodes, conductive wires/pathways, etc., of the display circuitry in the display system, and that may also be configured to operate as circuit elements of the touch sensing circuitry. |
| US08502786B2 |
Touch panel
A touch panel includes a substrate, a transparent conductive layer and at least two separate electrodes. The substrate has a first substrate surface and a second substrate surface opposite to the first substrate surface. The transparent conductive layer includes a carbon nanotube structure formed on the first substrate surface. The at least two separate electrodes are located on a surface of the transparent conductive layer and electrically connected thereto. |
| US08502781B2 |
3-axis trackball
An input device is disclosed. The input device can provide a control signal to a host system. The input device can include a ball and one or more sensor assemblies configured to sense the position of the ball. The input device can sense movement both in the X-Y motion of the ball, and the spin of the ball. Different control signals may be sent to a host system based upon the X-Y motion and the spin of the ball. |
| US08502778B2 |
Dual-mode input device operable in a selected one of a relative coordinate mode and an absolute coordinate mode
A dual-mode input device includes a relative coordinate generator disposed in a casing for detecting motion of the casing and for generating relative coordinate information based on detected motion of the casing, and a processing unit. The processing unit includes a coordinate storing module for storing absolute coordinate information, an absolute coordinate generator for generating updated absolute coordinate information based on the relative coordinate information received from the relative coordinate generator and the absolute coordinate information received from the coordinate storing module, and for storing the updated absolute coordinate information in the coordinate storing module, and an output selecting module operable in one of a relative coordinate mode, in which the output selecting module outputs the relative coordinate information, and an absolute coordinate mode, in which the output selecting module outputs the absolute coordinate information. |
| US08502766B2 |
Flat display panel and active device array substrate and light-on testing method thereof
A flat display panel and an active device array substrate and a light-on testing method thereof are provided. The active device array substrate comprises a plurality of first pixel units, a plurality of second pixel units, a first light-on testing circuit, a second light-on testing circuit and a plurality of sets of signal lines. The first light-on testing circuit and the second light-on testing circuit disposed in a peripheral circuit region of the active device array substrate are electrically connected with the first pixel units and the second pixel units disposed in a display region of the active device array substrate respectively. Each two adjacent sets of signal lines disposed in the peripheral circuit region of the active device array substrate are alternatively electrically connected to the first pixel units or the second pixel units respectively. When a testing signal inputted to first/second pixel units through the first/second light-on testing circuit results in any second/first pixel units being lighted-on, there are at least two adjacent sets of signal lines shorted to each other. |
| US08502763B2 |
Electronic skin having uniform gray scale reflectivity
The invention features electronic skin including an active layer formed of bistable cholesteric liquid crystal material and articles comprising the skin, the electronic skin having uniform gray scale reflectivity. Also featured is method for producing suitable reduction pulses that will provide a display (e.g., the electronic skin) with uniform gray scale reflectivity. Reduction pulses of narrow width are used to create uniform levels of gray in the electronic skin to overcome display imperfections that cause discontinuity in the gray scale reflectivity. |
| US08502760B2 |
Circuit for controlling color sequential liquid crystal display and method for scanning the same
The present invention provides a control circuit and a scanning method thereof, and can be applied to a color sequential liquid crystal display (LCD). The color sequential LCD produces a plurality of color backlights, receives a data signal, and receives a plurality of scanning signals produced by a scan driving circuit. The voltage levels of the plurality of scan signals corresponding to each of the color backlights are select levels alternately. When the voltage level of a scan signal in the plurality of scan signals is the select level, the voltage levels of the other scan signals in the plurality of scan signals are non-select levels. Because the voltage levels of the plurality of scan signals corresponding to each of the color backlights are select levels alternately to scan sequentially the same backlight, color-mixing effects on images can be reduced. |
| US08502758B2 |
Apparatus and method for mapping virtual pixels to physical light elements of a display
Methods and displays are disclosed for presenting media content on display systems. A display is configured as an array of LEDs. The array of LEDs includes a first set of rows including first LEDs in a repeating pattern of a first color LED, a second color LED, and a third color LED. A second set of rows includes second LEDs in a repeating pattern of the first color LED, the second color LED, and the third color LED, wherein the second set of rows are interleaved between the first set of rows and the second LEDs are offset relative to the first LEDs. Visual content to be presented on the display includes a repeating sequence of four frames of an array of virtual pixels such that each virtual pixel of the array comprises at least one of the first LEDs and at least one of the second LEDs. |
| US08502757B2 |
Organic light emitting display having threshold voltage compensation mechanism and driving method thereof
An organic light emitting display (OLED) includes a voltage adjustment unit for adjusting a preliminary control voltage according to a second reference voltage, a couple unit for coupling a change of the preliminary control voltage to adjust a control voltage, a driving unit for providing a driving current and a driving voltage according to the control voltage, a first reset unit for resetting the driving voltage according to a first reference voltage, a second reset unit for resetting the control voltage according to the driving voltage, an organic light emitting diode for generating output light according to the driving current, and an emission enable unit for providing a control of furnishing the driving current to the organic light emitting diode. Through the circuit operation of the reset units and the voltage adjustment unit, occurrences of image retention phenomenon and pixel brightness distortion on the OLED screen can be avoided. |
| US08502756B2 |
Image display device with imaging unit
An image display unit comprises a display area including pixels, and an imaging unit disposed at its rear side behind the display area. Light transmissive sections are located within the display area and correspond to the pixels. The light transmissive sections are configured to separately receive light incident upon the image display unit, and pass the received light to the imaging unit. |
| US08502755B2 |
Control method, display panel and electronic system utilizing the same
A control method controlling a display panel comprising a pixel unit. The pixel unit is coupled to a data line and comprises a capacitor, a transistor, and a luminiferous device. The capacitor comprises a first terminal coupled to the data line and a second terminal coupled to the transistor. The voltage of the first terminal is increased and the voltage of the second terminal is reduced during a first period. The voltage of the first and the second terminals are controlled during a second period subsequent to the first period. The luminiferous device is lit according to the voltage of the capacitor during a third period subsequent to the second period. The voltage of the data line is maintained during the third period. |
| US08502752B2 |
Electro-optical apparatus, having a plurality of wirings forming a data line driving method thereof, and electronic device
A electro-optical apparatus includes: a plurality of unit circuits arranged to correspond to intersections of scanning lines and data lines; a scanning line driving circuit; and a data line driving circuit. Each unit circuit includes: an electro-optical element which provides gradation corresponding to the data electric potential; a capacitor element which has a first electrode connected to a capacitor line and a second electrode connected to the data line; and a switching element. A second electrode of the capacitor element included in one of the plurality of unit circuits is connected to one wiring of the respective wirings included in the data line. The second electrode of the capacitor element included in another unit circuit is arranged in parallel with the one unit circuit along an extension direction of the data line and is connected to another wiring of the respective wirings included in the data line. |
| US08502749B2 |
Plasma display apparatus and driving method for plasma display apparatus
Sustain discharge is stably caused while power consumption is reduced, and image display quality is improved. A plasma display device has a plasma display panel, an electric power recovering circuit for raising or falling a sustain pulse by resonating an inductor and the inter-electrode capacity of a display electrode pair, and a sustain pulse generating circuit for alternately applying, to the display electrode pair, as many sustain pulses as the number corresponding to the luminance weight in the sustain period of a plurality of subfields that are disposed in one field and have initializing, address, and sustain periods. The sustain pulse generating circuit generates at least two kinds of sustain pulses including a first sustain pulse serving as a reference and a second sustain pulse that rises more gently than the first sustain pulse, and generates the first sustain pulse immediately after the second sustain pulse. |
| US08502745B2 |
Antenna apparatus
An antenna apparatus that may be adapted to various environments. The antenna apparatus includes a radiation unit to transmit and receive in a 360° radius including a plurality of radiators, each radiator configured to radiate a main emission pattern in different direction; and a switch unit configured to selectively operate each of the plurality of radiators. |
| US08502742B2 |
Antenna apparatus
An antenna apparatus that can suppress sensitivity degradation as much as possible to receive AM broadcasts and FM broadcasts even if an antenna height is decreased to 70 mm or less. An antenna board is vertically mounted on a planar antenna base, and a top portion is disposed to stride over the antenna board. An antenna element includes the top portion and an antenna pattern formed on the antenna board. A distance between the antenna base and a lower edge of the top portion is not less than 10 mm, and the lower edge of the top portion is bent downward. The top portion is configured such that an antenna capacitance of the antenna element becomes about 3 pF or more. A received signal from the antenna element is guided to an amplifier board through a connecting wire and amplified. An antenna case is fitted in the antenna base. |
| US08502730B2 |
Method for detecting a bird or a flying object
A method detects a bird or an object flying level with a single wind turbine, using a device for radio wave detection of at least one bird or another flying object, in the form of at least one radar. The analog image from each radar is transformed into a digital image and an outer safety area and an inner safety area is defined for the image. A safety space for each radar is defined and an action is performed in the event of a detection within the safety areas. |
| US08502725B2 |
Motion controlled vehicle power adapter
A motion controlled vehicle power adapter with a vehicle power adapter that can be plugged into the 12V vehicle power outlet and has a remote motion sensor at one end of the vehicle power adapter opposite the end that plugs into the 12 V vehicle power outlet. The remote motion sensor is operated by the operator's hand motion near the sensor without contacting the sensor. The remote motion sensor may be detachable from the vehicle power adapter. The operator's hand motions are translated into control signals and sent to a portable electronic device to control its functions. The control signals may be sent through a wire or wirelessly through a wireless transmitter. |
| US08502723B2 |
Method and apparatus for evaluating weighting of elements of DAC and SAR ADC using the same
A method and an apparatus for evaluating weighting of elements of a DAC and a SAR ADC using the same are provided. An equivalent weighting of each composed element is obtained by adding a reference element with a reference weighting, an auxiliary DAC, and a search circuit into the SAR ADC, and the equivalent weighting is represented by the reference weighting. The SAR ADC can calculate and then obtain a correct digital output by using the calibrated equivalent weighting and the successive approximation result of each input signal. The present disclosure prevents the necessity of matching each composed element of the DAC in the SAR ADC. |
| US08502719B2 |
Continuous-time oversampled converter having passive filter
A continuous-time sigma-delta analog-to-digital converter includes a first integrator stage to integrate a difference between a first differential signal derived from a differential analog input signal and a second differential signal derived from a quantized output signal, a quantizer and a low pass filter. The first integrator stage has a differential operational amplifier, first, second, third, and fourth input resistors, and a first pair of integrating capacitors. The differential analog input signal is received at first and second input nodes of the converter. The first and third input resistors are coupled in series between the first input node and a first input of the operational amplifier. The second and fourth input resistors are coupled in series between the second input node and a second input of the operational amplifier. The first and second input resistors are coupled to the third and fourth input resistors, respectively. |
| US08502717B2 |
Analog-to-digital converter, sound processing device, and method for analog-to-digital conversion
The invention provides a sound processing device. In one embodiment, the sound processing device comprises a first microphone, a first analog-to-digital converter, a second microphone, and a second analog-to-digital converter. The first microphone detects a first sound pressure to generate a first analog audio signal. The first analog-to-digital converter converts the first analog audio signal to a first digital audio signal. The second microphone detects a second sound pressure to generate a second analog audio signal. The second analog-to-digital converter converts the second analog audio signal to a second digital audio signal, encodes a third digital audio signal according to the second digital audio signal, receives the first digital audio signal and a clock signal, outputs data bits of the third digital audio signal when the clock signal oscillates to a logic low level, and outputs data bits of the first digital audio signal when the clock signal oscillates to a logic high level. |
| US08502713B1 |
Pipelined analog to digital converter and method for correcting a voltage offset influence thereof
A method for correcting a voltage offset influence of a pipelined analog to digital converter is disclosed, in which the method generates a first stage code and a first output voltage according to a first input voltage, generates a second stage code according to the first output voltage, generates a check code according to the first output voltage, determines a first correction code by referring to the first stage code and the check code, and corrects the first stage code with the first correction code when the first stage code is different from the first correction code. |
| US08502712B2 |
Analogue to digital converter and signal processing system
According to one embodiment, an analogue to digital converter converts an analogue input signal to a digital output signal. The converter includes an analogue to digital converting unit, a multiplexer, a pseudo-alias signal generator, a gain controller, and an alias signal compensator. The analogue to digital converting unit converts the analogue input signal to a plurality of digital signals. The multiplexer sequentially selects one of the digital signals and outputs the selected digital signal as a multiplexer output. The pseudo-alias signal generator generates a plurality of pseudo-alias signals from the digital signals. The pseudo-alias signal simulates an alias signal component in the multiplexer output. The gain controller generates a plurality of gain control signals by using the pseudo-alias signals. The gain control signal controls gain of the digital output signal. The alias signal compensator compensates the alias signal component by using the gain control signals. |
| US08502710B2 |
Methods and computer program products for providing a compressed circular buffer for efficient storage of network performance data
Provided are methods and computer program products for providing a circular buffer of values representing performance data that corresponds to a network application on a network device. Methods may include compressing a binary representation of a value using bit-oriented compression that is biased based on a frequency of occurrence of values and/or value ranges, and appending the compressed binary representation to a circular buffer. The bit-oriented compressed may be biased such that values and/or value ranges that occur with a higher degree of frequency are compressed to a higher degree, while values and/or value ranges that occur with a lower degree of frequency are compressed to a lower degree. |
| US08502709B2 |
Decoding variable length codes in media applications
An approach to decoding variable length code (VLC) symbols is described. In one embodiment, a method of decoding VLC symbols is detailed. This method involves obtaining a bitstream sample from a bitstream, and comparing the bitstream sample against a threshold value, to obtain a VLC group number. Information associated with a VLC group is retrieved, using this VLC group number. The current VLC symbol is extracted from the bitstream, using the VLC group information, and the corresponding symbol value is obtained, using the current VLC symbol and the VLC group information. |
| US08502708B2 |
Encoding method and decoding method, and devices, program and recording medium for the same
Information that includes first information identifying integer quotients obtained by divisions using prediction residuals or integers not smaller than 0 that increase monotonically with increases in the amplitude of the prediction residuals, as dividends, and a separation parameter decided for a time segment corresponding to the prediction residuals or a mapped integer value of the separation parameter, as a modulus, and second information identifying the remainders obtained when the dividends are divided by the modulus is generated as a code corresponding to the prediction residuals, and each piece of side information that includes the separation parameter is subjected to variable length coding. |
| US08502707B2 |
Data compression systems and methods
Systems and methods for providing fast and efficient data compression using a combination of content independent data compression and content dependent data compression. In one aspect, a method for compressing data comprises the steps of: analyzing a data block of an input data stream to identify a data type of the data block, the input data stream comprising a plurality of disparate data types; performing content dependent data compression on the data block, if the data type of the data block is identified; performing content independent data compression on the data block, if the data type of the data block is not identified. |
| US08502706B2 |
Bit allocation for encoding track information
Allocating bits in an encoding scheme to reduce the number of bits required to send starting track information. In one embodiment a joint starting track indicator is sent with a frame to indicate the starting tracks for all subframes in the frame. |
| US08502705B2 |
Hybrid keypad including full travel keys and minimal travel keys
A device for entering information securely in a customer transaction is described. The device may include a keypad comprising a set of full travel keys for transmitting a first set of data and a set of minimal travel keys for transmitting a second set of data. A subset of the full travel keys may be operable to receive numerical entries, and a subset of the minimal travel keys may be customized to perform one or more nonnumeric functions. A controller is connected to and receives data from one or more components of the keypad. The device may be used in a fuel dispenser system or another environment where a customer transaction occurs. |
| US08502704B2 |
Method, apparatus, and system of stabilizing a mobile gesture user-interface
The embodiments of the invention disclose a method, apparatus, and system for communicating via a user gesture with a mobile device having applications. The gesture acts like a user interface to a menu of applications that can be accessed while the user is in motion including while running, walking, riding, etc. In one embodiment, the method comprises determining a first multi-dimensional information for measuring motion of a first mobile device. The method further comprises receiving, by the first mobile device, a second multi-dimensional information for measuring motion of a second mobile device, the first and the second mobile devices being in motion relative to one another. The first and the second multi-dimensional information is used for filtering gesture motion from an underlying motion of the second mobile device to isolate the gesture motion from the underlying motion. The isolated filtered gesture motion is stabilized. In one embodiment, the method further comprises directing an action of the first mobile device in response to the isolated gesture motion. |
| US08502701B2 |
Runway status indicator
Technologies are described herein for displaying runway status information to a pilot in an aircraft. In one aspect of the present disclosure, a runway status display module displays a runway status indicator indicating the runway status information at a fixed scale independent of a scale of the map on a map display. In another aspect, the runway status indicator is displayed on a non-map display indicating the runway status of the runway. In another aspect, the runway status indicator is displayed at a position independent from a depiction of the runway on the aircraft display. |
| US08502699B2 |
Integrated detection and monitoring system
A method and system is provided for implementing an integrated detection and monitoring system. Aspects of the present invention include mounting at least detector into a vehicle to provide a mobile detector. The mobile detector is then transported to a security checkpoint and positioned along side a vehicle pass-through. As a vehicle passes through, the mobile detector scans the vehicles to detect levels of one or more designated materials. If any material detected exceeds a threshold alarm level, the detected level of the material is stored in a file that is associated with the vehicle, and the file is wirelessly transmitted to a command center to notify authorities. |
| US08502698B2 |
Parking lot management system
A parking lot management system comprising a computer host, a handheld device, an entrance sensor, an entrance camera, an entrance stop, an exit sensor, an exit camera, and an exit stop is disclosed. The handheld device interactively transmits data with the entrance sensor and the exit sensor by near-field communication techniques. Each of the entrance camera and the exit camera takes a photo and acquires a license plate number of a vehicle and communicates this information with the computer host. After the computer host confirms and verifies some specific data, the computer host sends instructions to the entrance stop or the exit stop for allowing the vehicle to either enter or exit a parking lot. When exiting the parking lot, the parking fee is paid by the electronic wallet of the handheld device. |
| US08502692B2 |
Motion or opening detector
An activity monitor which can be pre-programmed at the factory, the doctor's office or the pharmacist, or that can be programmed by the user. The activity monitor is affixed to a medicine bottle or container and activity associated with the bottle or container, such as movement, opening, volume changes, etc. are monitored in view to the schedule. If the schedule indicates that a dose of medicine should be taken at a particular time, but the monitored activity does not determine that the medicine has been taken, an alert signal will be issued to alert the user that it is time to take the medicine. In addition, if the monitored activity indicates that the medicine bottle has been opened prior to a scheduled time, then a tamper alert can be triggered. |
| US08502688B2 |
Standalone self-supplied numeric controlled relay
The disclosure relates to a process of configuring a standalone self-supplied numeric controlled relay for providing phase and earth over current protection to electrical systems by accurate current measurement. The arrangement for current measurement with control algorithms is provided for power control by providing amplified and conditioned current for optimization between the current to power an electronic circuit and the fidelity of a measured current waveform so that they both are at the acceptable levels at the same time. This disclosure describes the current sensing and associated algorithm for power control in a truly self-powered relay. |
| US08502687B2 |
Server and method for detecting a pipeline
A server and method detects a pipeline. The server reads pipeline data from a data collector and analyzes the pipeline data to determine if the pipeline works abnormally. An alert command is sent by the server to an alarm computer to notify a user in response to a determination that the pipeline works abnormally. The server saves the pipeline data into a database system. |
| US08502686B2 |
Tsunami warning system and method for providing tsunami warnings
A tsunami warning system (10) comprising a remote server with evaluation system with means for monitoring tsunami indicating parameters (16, 20), means for determining the possibility of a tsunami occurring and means for issuing a triggering signal, wherein the evaluation system is configured to issue a triggering signal when the possibility of a tsunami occurring is identified. The tsunami warning system (10) further comprises at least one tsunami warning device (14) arranged in a public area, the tsunami warning device (14) being configured and arranged so as to provide a tsunami warning to the general public when a triggering signal is received. The at least one tsunami warning device comprises means for also monitoring tsunami indicating parameters and means for transmitting information collected by the tsunami warning device to the remote server for integration in modelling means therein. |
| US08502685B2 |
Anti-theft alarm for a liquid storage tank
An anti-theft alarm for a liquid storage tank, said alarm comprising a housing having means for securing the housing to the storage tank, said housing containing a motion and/or vibration sensor for detecting tampering with the liquid storage tank, an alarm means and a control means for activating the alarm means in response to a signal from the motion/vibration sensor. |
| US08502684B2 |
Sensors and systems for detecting environmental conditions or changes
Sensors and systems for detecting predetermined environmental conditions or changes may include a device capable of providing information. The device may include either a shield or reconfigurable antenna. For example, in a first condition, a shield is configured to prevent communications with the device and, in a second condition, the shield is configured to enable communications with the device. Alternately, in a first condition, a reconfigurable antenna is configured to enable communications with the device and in a second condition the reconfigurable antenna is configured to prevent communications with the device. The shield or reconfigurable antenna may be configured to transition from first conditions to second conditions upon exposure to a predetermined environmental condition or change. |
| US08502683B2 |
Device and method for remote monitoring
An electronic device and a method for remote monitoring a subject calibrates a permitted activity range of the electronic device and establishes an activity range of the subject. The electronic device captures a thermal image to calculate a current location of the subject, and determines whether the current location of the subject is within the activity range of the subject. The electronic device issues an alarm message if the current location of the subject is not within the activity range of the subject. |
| US08502681B2 |
Hand cleanliness
Among other things, systems to encourage compliance with hand washing procedures can include: an infrared emitter that projects a first infrared beam with a transverse cross-section having a first axis and a second axis that is shorter than the first axis, the transverse cross-section having a maximum length along the first axis, the infrared emitter modulating the first infrared beam to transmit a first identification signal; wherein the infrared emitter projecting the first infrared beam is placed such that the first axis of the transverse cross-section of the first infrared beam is substantially parallel to a boundary. |
| US08502673B2 |
Applications for radio frequency identification systems
The present invention relates to RFID devices, including handheld RFID devices, and applications for such devices. The devices and applications may be used in connection with items that are associated with an RFID tag, and optionally a magnetic security element. The devices and applications are described with particular reference to library materials such as books, periodicals, and magnetic and optical media. |
| US08502672B1 |
Method and apparatus for performing predetermined actions by a device upon completion of given job functions
A method and apparatus is provided for initiating procedures whereby a smart device is able to analyze situational data sensed by the device, compare one or more event signatures representative of the sensed data with one or more sets of event signatures in a library of event signatures to logically determine completion of a job function and to then cause a specific action to be taken. |
| US08502670B2 |
Real-time RFID positioning system and method, repeater installation method therefor, position confirmation service system using the same
Provided are to a real-time RFID location determination system for accurately determining a location of a mobile object using radio frequency identification (RFID) in real-time, a method thereof, and a method for installing a wireless repeater such as a RFID reader or a RFID reader and an access point (AP) using the same. The location determination system includes: a wireless repeater for identifying a radio frequency identification (RFID) tag by communicating with the RFID tag attached or installed at a target object to determine a location thereof, wherein the wireless repeater is installed a urban facility and a location of the target object is determined based on a coordinate of a corresponding urban facility as a reference point. |
| US08502668B2 |
System and method for article authentication using blanket illumination
A method and apparatus for determining a digital signature from an article. A coherent light source directs a beam to illuminate the article and a detector arrangement collects data points from light scattered from many different parts of the article to collect a large number of independent data points, typically 500 or more. By collecting a large number of independent signal contributions specific to many different parts of the article, a digital signature can be computed that is unique to the area of the article that has been scanned. This measurement can be repeated whenever required to test authenticity of the article. Using this method, it has been discovered that it is essentially pointless to go to the effort and expense of making specially prepared tokens, since unique characteristics are measurable a in a straightforward manner from a wide variety of every day articles. |
| US08502666B1 |
Remote human presence detection system
Methods for remote detection of humans can include the step of transmitting vertically polarized electromagnetic signals into an area of interest (AOI) when no humans are present. A first time domain measurement of return response signal energy from the AOI can be accomplished to establish a background signal. A second time domain measurement of response signal energy from the AOI can be made when at least one human is present, to establish a background-plus-human signal. The two signals can be subtracted to yield a reference time domain human signal. The electromagnetic signal is periodically re-transmitted. The background subtracted from subsequent response energy, and the result compared to the reference time domain human signal. A visual or audible indication occurs when the resulting signal matches the reference signal. Fast Fourier Transforms (FFT) of the time domain signals can be used to yield frequency responses, which can be monitored. |
| US08502663B2 |
Hospital bed obstacle detection apparatus
A hospital bed obstacle detection device and related method for detecting an obstacle between first and second components of a hospital bed is provided. |
| US08502659B2 |
Augmented reality and location determination methods and apparatus
Augmented reality and location determination methods and apparatus are disclosed according to some aspects of the description. In one aspect, a location determination method includes accessing first location information regarding a location of a user interaction device in a physical world, wherein the user interaction device is configured to generate an augmented reality representation with respect to the physical world, using the first location information, identifying a plurality of wireless communication devices which are proximately located with respect to the user interaction device, initiating wireless communications between the user interaction device and the wireless communications devices, after the initiating, accessing information regarding the wireless communications of the user interaction device and the wireless communication devices, and using the information regarding the wireless communications, determining second location information regarding the location of the user interaction device, and wherein the second location information has increased accuracy with respect to the location of the user interaction device in the physical world compared with the first location information. |
| US08502656B2 |
Displacement diagnosis sensor of brake pedal having stop lamp switch function
A displacement diagnosis sensor of a brake pedal having a stop lamp switch function is provided. According to the present invention, one sensor performs both a function of a stop lamp switch and a function of diagnosing a rotational displacement of the brake pedal simultaneously to thereby save a manufacturing cost and reduce a weight. |
| US08502655B2 |
Protocol misinterpretation avoidance apparatus and method for a tire pressure monitoring system
A determination is made as to whether a frame to be transmitted according to a first protocol is susceptible to being incorrectly interpreted by a receiver in a vehicle as being transmitted according to a second protocol. When the frame is determined to be susceptible to an incorrect interpretation, an internal value of the frame is adjusted, and the adjustment is effective to prevent an incorrect interpretation of the frame being transmitted from the tire pressure monitor to the receiver. The adjusted frame can then be transmitted. |
| US08502653B2 |
Vehicle-use object detection apparatus
The vehicle-use object detection apparatus includes a plurality of ultrasonic sensors mounted on a vehicle, each of the ultrasonic sensors being configured to receive a reflected version of an ultrasonic wave transmitted by itself and not to receive reflected versions of ultrasonic waves transmitted by the other ultrasonic sensors, a first determination means to make a determination whether an object is present around the vehicle based on the received reflected versions of the transmitted ultrasonic waves when a first detection condition is satisfied, and a second determination means to make a determination, for each of the ultrasonic sensors, whether there is adhesion of snow around the ultrasonic sensor based on an echo wave received by the ultrasonic sensor when a second detection condition different from the first detection condition is satisfied. |
| US08502652B2 |
Bicycle brake device having a warning function
A bicycle brake device includes a brake shoe, a warning device installed in the brake shoe, a power supply device electrically connected with the warning device, and two conductors separately mounted in the brake shoe and respectively electrically connected with the warning device and the power supply device. Each conductor has one end thereof exposed to the outside of the brake shoe for touching the wheel rim or brake disc of the bicycle upon a brake operation to close the circuit, causing the warning device to generate a warning signal. |
| US08502647B2 |
System for controlling user access to a machine tool
The invention relates to a machine tool 101 comprising a plurality of operation functions and a selection device 113a-113d for selecting one or more operation functions by a user. The machine tool 101 receives data from a mobile data carrier 311 via a reception device 112, on the basis of which it may be determined which operation functions may be performed by the user. In this process, an access control device 130 grants the user access to only those selected operation functions he or she is authorized to perform. |
| US08502646B2 |
Article management apparatus and its system
In an article management apparatus in which the weight of a bottle, including content, placed on a weighing scale is measured and tag data of a radio tag, indicating content of the bottle, which is affixed on the bottle is read out in a non-contact manner by a radio tag reading section through an antenna when the bottle is placed on the weighing scale, a compound data for discriminating whether or not content in a bottle is compoundable with contents in other bottles is stored. It is determined, based on the compound data stored, whether content of a first bottle on which a first radio tag is affixed can be compounded with content of a second bottle on which a second radio tag is affixed when the radio tag reading section reads out tag data of first and second radio tags. |
| US08502638B1 |
Thermistor
A thermistor includes a resistive device, a first insulation layer, a first electrode, a second electrode and a first heat-conductive layer. The resistive device includes a first electrically conductive member, a second electrically conductive member and a polymeric material layer laminated therebetween. The polymeric material layer exhibits positive temperature coefficient (PTC) or negative temperature coefficient (NTC) behavior. The first insulation layer is disposed on the first electrically conductive member. The first electrode is electrically coupled to the first electrically conductive member, whereas the second electrode is electrically coupled to the second electrically conductive member and is insulated from the first electrode. The first heat-conductive layer is disposed on the first insulation layer, and has a heat conductivity of at least 30 W/m-K and a thickness of 15-250 μm. |
| US08502636B2 |
By-pass of an electrical component
A modular by-pass device of an electrical component includes a housing possessing a movable means of sealing, and is equipped with conducting terminals, one of whose ends is connected to one of the terminals of the electrical component circuit, the other end being fastened to the wall of the housing projecting into the interior of the housing and constituting a contact post. An actuator providing transposition between two positions of a control device include a plunger shaft and a spring arranged in the space formed between the plunger shaft and the internal wall of the housing. A trigger includes a retention device of the plunger shaft held in place by a fusible material. A reversing switch includes a contact zone providing electrical continuity between two contact posts of the terminals carried by the housing. The disclosed embodiments finds application more particularly in the isolation and short-circuiting of a battery element, which has become defective. |
| US08502631B2 |
Three-phase line reactor with skew yoke core design
A line reactor is presented having a skewed core structure with three horizontally non-coplanar vertical legs and top and bottom laminated, interleaved yoke structures with corresponding horizontally non-coplanar yoke ends. |
| US08502629B2 |
Electromagnetic contactor with guide ring
The present invention relates to an electromagnetic contactor including a stationary armature which includes a housing enclosure for a coil for generating a magnetic field, the enclosure having an opening, a closing cover for the opening of the enclosure, the closing cover having an aperture, and a movable armature passing through the aperture of the closing cover for the opening of the enclosure, further including a guide ring made from non-magnetic material which is arranged in the aperture of the closing cover so as to have, between a first wall in contact with the wall of the aperture of the cover and a second wall facing towards the movable armature, a thickness corresponding to the minimal radial gap between the movable armature and the stationary armature. |
| US08502628B2 |
Magnetic chamber for electromagnetic low voltage switchgear, and electromagnetic low voltage switchgear
A magnetic chamber is disclosed for electromagnetic low voltage switchgear, especially a compact reversing starter, including two magnetic drives which are each actuated by a main slide. The magnetic chamber is designed, in at least one embodiment, to receive both magnetic drives of the electromagnetic low voltage switchgear, and a mechanical reversing locking device held in a mobile manner for the alternating mechanical locking of the two magnetic drives is arranged in the magnetic chamber, the mechanical locking device acting on the two main slides. An electromagnetic low voltage switchgear is disclosed, especially a compact reversing starter, including two magnetic drives which are each actuated by a main slide, both magnetic drives being arranged in a magnetic chamber. The mechanical reversing locking device held in a mobile manner, in at least one embodiment, engages with the main slide of one of the magnetic drives, according to the position of the locking device, in order to fix said magnetic drive. |
| US08502627B1 |
Relay with stair-structured pole faces
In an electromechanical relay the core of the relay coil and a corresponding zone of the armature are each provided with a pole face of zig-zag or stair-step configuration. A succession of corresponding edges of the core and armature pole faces concentrate the magnetic flux to increase the initial force on the armature and to limit the closing force as the armature reaches the closed position. The armature bearing is shaped to create a longitudinal wipe motion. The relay exhibits faster and quieter action with less bounce and reduced contact chatter. |
| US08502623B2 |
Band pass filter
A band pass filter includes an original circuit. An interaction of at least two of components of the original circuit produces at least a mutual capacitor or at least a mutual inductor, which constitutes a resonance circuit with the original circuit to produce at least a transmission zero for increasing the attenuation rate of the stop band. |
| US08502621B2 |
Ladder filter and duplexer
A ladder filter including a series arm resonator and a parallel arm resonator disposed on the same common piezoelectric substrate achieves improved miniaturization. The ladder filter includes series arm resonators and parallel arm resonators, which include elastic wave resonators, and are disposed on the same common piezoelectric substrate, at least one parallel arm resonator of the series arm resonators and the parallel arm resonators includes a first resonator and a second resonator electrically connected in parallel to each other, and the first resonator and the second resonator are arranged in parallel or substantially in parallel in a direction perpendicular or substantially perpendicular to an elastic wave propagation direction, on one side outside one series arm resonator of remaining resonators in the elastic wave propagation direction thereof. |
| US08502620B2 |
Balun system and method
A system and method for transmitting signals is disclosed. An embodiment comprises a balun, such as a Marchand balun, which has a first transformer with a primary coil and a first secondary coil and a second transformer with the primary coil and a second secondary coil. The first secondary coil and the second secondary coil are connected to a ground plane, and the ground plane has slot lines located beneath the separation of the coils in the first transformer and the second transformer. The slot lines may also have fingers. |
| US08502615B2 |
Jumpless phase modulation in a polar modulation environment
A circuit includes a phase shifter configured to selectively shift a phase of a baseband phase signal in accordance with a zero crossing signal to output a selectively phase-shifted signal, a phase modulator configured to provide a phase modulated carrier signal in accordance with the selectively phase-shifted signal, and an inverter configured to selectively invert the phase modulated carrier signal in accordance with the zero crossing signal. |
| US08502614B2 |
Variable inductor, and oscillator and communication system using the same
There are provided a variable inductor with little degradation in quality factor, and an oscillator and a communication system using the variable inductor. An inductance controller comprising a reactance device with a variable device value, such as, for example, a variable capacitor, is connected to a secondary inductor, magnetically coupled to a primary inductor through mutual inductance. The inductance controller is provided with an inductance control terminal for receiving a control signal for controlling capacitance of the variable capacitor. Inductance of the primary inductor is varied by varying the capacitance by the control signal. |
| US08502612B2 |
Method and apparatus for determining within-die and across-die variation of analog circuits
Described herein is the method and apparatus for determining frequency of an oscillator coupled with one or more analog devices, and for determining within-die or across-die variations in an analog property associated with the one or more analog devices, the determining based on the oscillator frequency. The analog property includes output signal swing, bandwidth, offset, gain, and delay line linearity and range. The one or more analog devices include input-output (I/O) buffer, analog amplifier, and delay line. The method further comprises updating a simulation model file based on the determining of the within-die and/or across-die variations of the analog property. |
| US08502608B2 |
Tunable power amplifier using laminate MEMS capacitors
For use in a wireless network, a tunable power amplifier circuit includes a power amplifier transistor and a plurality of laminate MEMS (microelectromechanical system) capacitors coupled to the power amplifier transistor. The laminate MEMS capacitors are arranged in a tunable matching network and configured to provide a matching impedance for the power amplifier transistor. In some embodiments, the laminate MEMS capacitors are arranged in a binary array. |
| US08502606B2 |
Power amplifying apparatus with dual-current control mode
There is provided a power amplifying apparatus with dual-current control mode, including: a transistor mirror circuit adjusting currents respectively flowing through a main path and a mirror path connected in parallel to a power source terminal; a resistor mirror circuit adjusting the respective currents of the main path and the mirror path; a current controlling unit controlling a control current flowing through the main path with a pre-set constant current; a voltage adjusting unit providing a bias adjustment signal that corresponds to a difference voltage between a first voltage of a first node on the main path to which a current is output from the resistor mirror circuit and a second voltage of a second node on the mirror path to which a current is output from the resistor mirror circuit; and a bias circuit unit adjusting a bias of a power amplifying unit. |
| US08502605B2 |
Acoustic pseudo-triode characteristic amplification device and acoustic pseudo-triode characteristic push-pull amplification device
An input terminal is connected to a positive-phase terminal of a differential amplification circuit. A negative-phase terminal of the differential amplification circuit is connected to an emitter electrode of a transistor, and an output terminal thereof is connected to a base electrode of the transistor. An input side resistor is connected between a collector electrode of the transistor and the input terminal, and a secondary input side resistor is connected between the input terminal and a ground conductor. An output side resistor is connected between the emitter electrode of the transistor and the ground conductor. The collector electrode of the transistor is connected to a load terminal. |
| US08502598B2 |
Digitally-scalable transformer combining power amplifier
A digitally configurable transformer that performs switched transformer combining is disclosed. The flexible transformer includes switches that are dynamically configurable to efficiently combine RF power from power amplifier cores to achieve different power levels. The disclosed transformer is efficient at a broad range of power levels, leading to high power output efficiency. The transformer may be part of any power amplifier design that uses the transformer for power combining. |
| US08502597B2 |
Low-pass filter design
Techniques for low-pass filtering with high quality factor (Q). In an exemplary embodiment, an input current is coupled to the drain of a first transistor. The drain and the gate of the first transistor are coupled together by a resistor R1, and the drain is coupled to a reference voltage by a first capacitor C1. The gate is coupled to a reference voltage by a second capacitor C2. The gate is further coupled to the gate of a second transistor, and an output current is coupled to the drain of the second transistor. In another exemplary embodiment, further passive elements may be coupled to generate an odd-order low-pass transfer characteristic. Multiple filters may be cascaded in series to synthesize a filter having arbitrary order. |
| US08502596B1 |
Filter circuitry
Embodiments provide methods, devices, circuitry and systems for supporting or implementing functionality to provide a filtering circuit, and for providing a transmitter, receiver or transceiver incorporating the same. One embodiment provides a circuit for filtering signals. The circuit outputs a plurality of signals at a plurality of frequencies, each of the signals being attenuated by an amount determined by the frequency of the signal. The circuit attenuates signals output at a first frequency by an amount which is low relative to the attenuation of signals output at frequencies other than the first frequency. The circuit further attenuates signals output at a second frequency by an amount which is high relative to the attenuation of signals output at frequencies other than the second frequency. Responsive to a change in the control signal, the circuit changes the first and second frequencies while maintaining a fixed ratio between the first and second frequencies. |
| US08502595B2 |
Power down enabled analog switch
This document discusses, among other things, apparatus and methods for passing a signal in a power down state. An example switch device can include a first depletion-mode transistor configured to pass an analog signal between a first node and a second node in a first state and to isolate the first node from the second node in a second state, a control circuit coupled to a control node of the first depletion-mode transistor and configured to isolate the control node from a first supply input in the first state and to couple the control node to the first supply input in the second state, and a tracking circuit configured to couple the control node of the first depletion-mode transistor to the first node during the first state and to isolate the control node of the first depletion-mode transistor from the first node in the second state. |
| US08502594B2 |
Bootstrap transistor circuit
A switch circuit is described, where a switch to be controlled is formed of two NMOS transistors having their source terminals connected together and their gate terminals connected together. Their drain terminals are the input and output terminals of the switch. A driver circuit controls a bootstrap circuit that is formed of a latching circuit and a capacitor. When the switch is in an off state, the driver circuit connects the capacitor to a charging voltage source for charging the capacitor to a bootstrap voltage, and applies a non-zero voltage across the latching circuit. When the driver circuit is controlled to turn on the switch, the driver circuit disconnects the capacitor from the charging voltage source, and the latching circuit becomes conductive and effectively connects the capacitor across the gate and source terminals of the switch to turn it on with the bootstrap voltage. The bootstrap voltage across the capacitor maintains the latching circuit in a latched conductive state. |
| US08502593B2 |
Balanced debounce circuit with noise filter for digital system
A circuit and method for debouncing an electrical signal are disclosed. A representative embodiment of the present invention may be set to remove (i.e., filter) noise or glitches in the low and high portions of an input signal, where the width of the noise or glitches while in the high or low state may be set using a programming interface. The filtering is done in a manner that results in a clean, debounced output signal having a low portion approximately equal to the low portion of the input signal, and a high portion approximately equal to the high portion of the input signal. Noise or glitches of less than programmable high or low glitch widths are filtered from the input signal and do not appear in the output signal. |
| US08502592B2 |
Level shift circuit
In a level shift circuit allows satisfactory operation with short delay time in the case of low-voltage setting of a low-voltage source, for example, when a state of an input signal IN transitions from a H (VDD) level to a L level, a node W2 precharged to a H (VDD3) level is discharged to ground (VSS) by a discharge circuit N2, and decreases in potential. The decrease in potential propagates to a latch circuit LA, and an output of the latch circuit LA propagates to an output circuit OC. Further, an inversion signal of the node W2 is input to the output circuit OC by bypassing the latch circuit LA. Thus, the output circuit OC starts operating prior to operation based on an output of the latch circuit LA. |
| US08502589B2 |
Signal swing trimming apparatus and method thereof
A signal swing trimming apparatus calibrates a swing level of an output signal generated from a transmitting device to a receiving device including: a comparing device coupled to the output signal for comparing the swing level of the output signal with a target swing level and generating a comparison output signal, and an adjusting device coupled to the comparing device and the transmitting device for controlling the transmitting device to adjust the swing level of the output signal according to the comparison output signal, wherein the signal swing trimming apparatus is configured to calibrate the swing level of the output signal during a hand-shake process between the transmitting device and the receiving device. |
| US08502587B2 |
Fast recovery voltage regulator
This document discusses, among other things, a voltage regulator having a plurality of switching devices, coupled in parallel, and configured to selectively provide a variable available drive current using a comparison of a regulated Dc output voltage to at least one reference voltage. |
| US08502586B1 |
Methods of clock signal generation with selected phase delay
In one embodiment of the invention, a method is disclosed to generate a clock output signal with selected phase. The method includes selecting a phase delay for the clock output signal; charging a capacitor with a first weighted current during a first phase input clock, charging the capacitor with a second weighted current during a portion of a second phase input clock, and determining if a voltage across the capacitor is greater than or equal to a threshold voltage to generate a first edge of the clock output signal with the selected phase delay. The first weighted current may have a weighting of N out of M to charge the capacitor with a predetermined rate of change in voltage in response to the selected phase delay. The second weighted current may have a weighting of M out of M to charge the capacitor with a constant rate of change. |
| US08502583B2 |
High-speed duty cycle correction circuit
A circuit for correcting a duty-cycle comprises a duty-cycle adjuster for changing a duty-rate of an input clock signal according to a duty control signal; a duty-cycle detector for detecting a duty-rate of an output clock signal based on the input clock signal and the output clock signal from the duty-cycle adjuster; and an algorithm-based digital controller for performing an algorithm according to a duty-rate detection signal outputted from the duty-cycle detector to generate the duty control signal. |
| US08502580B2 |
Semiconductor device and method for operating the same
A semiconductor device includes: an internal clock signal generation unit configured to receive an external clock signal and to generate an internal clock signal in response to a control signal; and a monitoring unit configured to monitor environmental elements reflected in a circuit response to the control signal. |
| US08502579B2 |
Delay lines, methods for delaying a signal, and delay lock loops
Locked loops, delay lines, delay circuits, and methods for delaying signals are disclosed. An example delay circuit includes a delay line including a plurality of delay stages, each delay stage having an input and further having a single inverting delay device, and also includes a two-phase exit tree coupled to the delay line and configured to provide first and second output clock signals responsive to clock signals from inputs of the delay stages of the plurality of delay stages. Another example delay circuit includes a delay line configured to provide a plurality of delayed clock signals, each of the delayed clock signals having a delay relative to a previous delayed clock signal equal to a delay of a single inverting delay device. The example delay circuit also includes a two-phase exit tree configured to provide first and second output clock signals responsive to the delayed clock signals. |
| US08502575B2 |
Fractional-N PLL using multiple phase comparison frequencies to improve spurious signal performance
A fractional spur compensation technique is implemented in a fractional-N PLL using multiple phase comparison frequencies Fpd, one of which is selected for any channel frequency Fch in a target frequency band to obtain a selected offset frequency Fos between the channel frequency Fch and its primary fractional spur throughout the target frequency band. Other features of an exemplary implementation of the fractional spur compensation technique include (a) maintaining the phase comparison frequency at less than a predetermined maximum value, (b) using a programmable reference frequency multiplier with selectable multiplication factors and/or a programmable reference frequency divider with selectable divide ratios to generate multiple phase comparison frequencies derived from a predetermined reference frequency Fref, and (c) using a programmable charge pump to select different charge pump currents for respective phase comparison frequencies to reduce loop gain variation. |
| US08502574B2 |
Device and method for generating a signal of parametrizable frequency
Device for generating a signal of parametrizable frequency comprising a phase locked loop including a generator of a reference signal, a phase-frequency comparator comprising a first input for receiving the reference signal, an oscillator controlled on the basis of the result output by the phase-frequency comparator, a fractional divider coupled between an output of the oscillator and a second input of the phase-frequency comparator, and a selector selectively linking an input of the oscillator either with an input of the generator, or with the output of the oscillator as a function of the multiplication ratio of the fractional divider. |
| US08502571B2 |
Gate driving circuit
A gate driving circuit includes a control power; a transformer having a primary winding and a secondary winding; a first switching element; a second switching element; a rectifying element; and a capacitance element, wherein the first switching element is connected between the control power and one end of the primary winding, and the second switching element is connected to the other end of the primary winding, wherein one end of the capacitance element is connected to either one of the one end and the other end of the primary winding, and wherein, when one of the first switching element and the second switching element is turned on, the capacitance element is charged by the control power, and when the other of the first switching element and the second switching element is turned on, the capacitance element is discharged. |
| US08502569B2 |
Architecture for operating resonant clock network in conventional mode
An architecture for resonant clock distribution networks is proposed. The proposed architecture allows for the energy-efficient operation of the resonant clock distribution network in conventional mode, so that it meets target specifications for the clock waveform. Such an architecture is generally applicable to semiconductor devices with multiple clock frequencies, and high-performance and low-power clocking requirements such as microprocessors, ASICs, and SOCs. Moreover, it is applicable to at-speed testing and to binning of semiconductor devices according to achievable performance levels. |
| US08502568B2 |
Receiver circuit with high input voltage protection
An integrated circuit 2 includes a receiver circuit 4 for receiving an input signal PAD and converting this to an output signal OUT. Conduction path circuitry 14 couples an input 10 to a first node 16. Buffer circuitry 18 is coupled between the first node 16 and an output 12 carrying the output signal Out. The conduction path circuitry comprises a first PMOS transistor 24 and a second PMOS transistor 26 connected between the input 10 and the first node 16. A first NMOS transistor 28 is connected between the input 10 and the first node 16. The gate of the second PMOS transistor 26 is coupled to the output 12 to directly receive the output signal and thereby achieve rapid cut off of the charging of the node 16 when the input voltage rises beyond a certain level which switches the buffer circuitry 18. |
| US08502563B2 |
Non-binary decoder architecture and control signal logic for reduced circuit complexity
A decoder for sequentially enabling outputs in response to clock signal inputs is described including X number of logic stages corresponding to X number of outputs of the decoder. Each of the logic stages has a plurality of inputs, wherein each logic stage includes fewer than log2X inputs for receiving the clock signal inputs. |
| US08502560B2 |
Output circuit and output control system
An output circuit which outputs an output signal based on an input signal from an output terminal and brings the output terminal into a high impedance state in response to an impedance control signal. The output circuit includes an output pMOS transistor connected at a source thereof to a first power supply. The output circuit includes an output nMOS transistor connected between a drain of the output pMOS transistor and ground. The output circuit includes an output terminal connected between the drain of the output pMOS transistor and a drain of the output nMOS transistor. The output circuit includes a first level shifter circuit which outputs a first gate control signal from a first gate control terminal to control on/off of the output pMOS transistor. The output circuit includes a second level shifter circuit which outputs a second gate control signal from a second gate control terminal to control on/off of the output nMOS transistor. |
| US08502556B2 |
System and method for reducing input current spike for drive circuitry
A circuit includes a plurality of logic gates and a drive circuit. The plurality of logic gates are coupled between a first supply node and a second supply node. Each logic gate has at least one input and consumes a short circuit current during a logic state transition. The drive circuit is coupled to the inputs of the plurality of logic gates to deliver a copy of an input signal to each logic gate, wherein the input signal copies arrive at the inputs of the logic gates at substantially different times. The circuit may be incorporated in a touch screen panel and a display. |
| US08502555B1 |
Method of and circuit for preventing the alteration of a stored data value
According to an embodiment, a method of preventing the alteration of a stored data value is disclosed. The method comprises coupling a first electronic fuse to an output control circuit; coupling a second electronic fuse to the output control circuit; decoding the states of the first electronic fuse and the second electronic fuse after a first processing step to generate a first decoded state; and decoding the states of the first electronic fuse and the second electronic fuse after a second processing step to generate a second decoded state different from the first decoded state; wherein the output control circuit maintains the second decoded state after an attempt to alter a state of an electronic fuse of the first electronic fuse and the second electronic fuse. A circuit for preventing the alteration of a stored data value is also described. |
| US08502549B2 |
Test apparatus and driver circuit
A test apparatus includes: a driver circuit that supplies, to a device under test, a test signal corresponding to an input signal; and a judging section that judges pass/fail of the device under test, based on the load voltage or the load current supplied to the device under test when supplying a test signal of a constant current or a constant voltage to the device under test from the driver circuit, where the driver circuit includes: a driver section that outputs the test signal; a supply current detecting section that detects a supply current supplied to the driver section; and an output control section that controls a voltage or a current of the test signal outputted from the driver section to the predetermined value, based on the supply current detected by the supply current detecting section. |
| US08502547B2 |
Capacitive sensor
Method and apparatus are provided for a capacitive sensor. In an example, a capacitive sensor can include a first sensing element, a sensing channel operable to generate a first signal indicative of first capacitance between the sensing element and a system ground, and a processor responsive to a change in the first capacitance between the first sensing element and ground. The processor can be configured to adjust a parameter value based on a first duration of the change in the first capacitance. |
| US08502543B2 |
Test configuration for the impulse voltage test of electric high-voltage components
The embodiments relate to a test configuration for an impulse voltage test of electric high-voltage components with a lightning generator. The lightning generator can be moved between a first horizontal position within a cuboid container, and a vertical position relative to the container. A movement between the two positions includes a pivoting movement about a rotational axis. The proofing movement is transverse to the longitudinal direction of the lightning generator. The container can be closed at the top by at least one moveable cover. |
| US08502538B2 |
B1 and/or B0 mapping in MRI system using k-space spatial frequency domain filtering with complex pixel by pixel off-resonance phase in the B0 map
Frequency filtering of spatially modulated or “tagged” MRI data in the spatial frequency k-space domain with subsequent 2DFT to the spatial domain and pixel-by-pixel arithmetic calculations provide robust data that can be used to derive B1 and/or B0 maps for an MRI system. |
| US08502533B2 |
Combined imaging system, including a magnetic resonance system and a UWB radar
In a combined imaging system, including a magnetic resonance system and a UWB radar, interference signals in the received signal of the one imaging system can be caused by the respective other imaging system. Therefore filters which contain in particular adaptive filters are used in order to filter out the interference signals caused in the received signal of the one system by the respective other system. By eliminating the mutually negative influence, the advantages can be completely exploited when operating the different imaging systems at the same time. |
| US08502532B2 |
Magnetic resonance data acquisition system and method with recursively adapted object-specific measurement parameter adjustment during patient movement through the MRI system
In a method and a magnetic resonance (MR) system for acquisition of MR data of a measurement subject in an MR examination in the magnetic resonance system, MR data of the measurement subject (are acquired according to measurement parameters while the measurement subject is moved relative to the magnetic resonance system, the acquired MR data are analyzed, and the measurement parameters are automatically adapted. |
| US08502527B2 |
Transmission debris sensor
A debris sensor for a motor vehicle transmission includes a permanent magnet disposed on the inside bottom of the transmission pan to attract and retain magnetically attracted debris such as filings and particulates and a magnetic sensor such as a Hall effect sensor adjacent the permanent magnet. The magnetic sensor monitors, over time, the magnetic field of the debris collecting magnet. The output of the magnetic sensor is provided to a transmission control module (TCM) or similar electronic control or monitoring device. The output of the sensor is monitored and when the output changes sufficiently, relative to experimental or empirical data, a signal or alarm code is generated or stored relating to the possible need for transmission service. Alternatively, data from the sensor may be read at any time to infer the state of the transmission, the quantity of material on the magnet, a possible service issue based upon the quantity of material on the magnet and the vehicle mileage and the remaining service life of the magnet, for example. |
| US08502525B2 |
Integrated micro actuator and IVDT for high precision position measurements
A single housing with a non-ferromagnetic piezo-driven flexure has primary and secondary coil forms of different diameters, one coaxially inside the other, integrated in the flexure. The cylinders defining the planes of the primary and secondaries do not spatially overlap. The secondary coil forms may be wound in opposite directions and wired to provide a transformer device. Movement of the primary relative to the secondaries in the direction of the central axis of the coils can be differentially detected with high precision. |
| US08502522B2 |
Multi-level triggering circuit
Circuitry includes a comparator to compare an input analog signal to a threshold and to output a signal that is based on the comparison; a first circuit path to receive the signal and to detect a characteristic of the signal, where the first circuit path is configured to support triggering at a first frequency; a second circuit path to receive the signal and to detect the characteristic of the signal, where the second circuit path is configured to support triggering at a second frequency that is lower than the first frequency; and a selector to select an output of the first circuit path or an output of the second circuit path. |
| US08502519B2 |
Arrangement and approach for providing a reference voltage
A reference voltage that is consistent over various operational conditions and uses low power is provided. According to an example, an internal temperature-compensated voltage (e.g., vdd_int in 200) is generated from a power supply (e.g., vdd in 200), and a reference voltage (e.g., vref in 200) is generated from the internal voltage. The reference voltage is stored on a storage circuit (e.g., 430) that is coupled (charged) and refreshed under conditions, relative to circuit characteristics, that make low and ultra-low power operation possible. |
| US08502518B2 |
Power supply device for light sources, such as halogen lamps, and related method
In various embodiments, a power supply device for light sources may include a feed line from mains via a phase-cut dimmer, selectively switchable between a conductive state and a non-conductive state, to permit or interrupt feeding of the device from mains. The device may include a power stage to feed at least one light source from said feed line from mains; a drive stage for said power stage; and a supply stage for said drive stage, said supply stage connected to said feed line from mains. The device may further include a sensor to detect when said dimmer is non-conductive and when said dimmer is conductive. The drive stage may be coupled to the sensor to disable driving of said power stage when the sensor indicates that the dimmer is non-conductive, and enable driving of the power stage when the sensor indicates that the dimmer is conductive. |
| US08502514B2 |
Voltage regulation circuit
A voltage regulation circuit including a differential input unit, a source follower and a driving unit is provided. The differential input unit has a first input terminal and a second input terminal for receiving a reference voltage and a system voltage respectively. Further, the differential input unit compares the reference voltage and the system voltage and accordingly generates a control voltage. The source follower is electrically connected between the differential input unit and the driving unit, and generates an adjustment voltage according to the control voltage. The differential input unit, the source follower and the driving unit form a feedback loop, so that the driving unit fixes a source voltage to the system voltage according to the adjustment voltage. |
| US08502512B2 |
DC power converting circuit and method thereof
A direct current (DC) converting circuit includes a DC input end, for receiving a DC input voltage; a DC output end, for providing a predetermined DC voltage; a switch, coupled between the DC input end and the DC output end, for providing a direct path; a DC-DC step-down unit, coupled between the DC input end and the DC output end, for providing a step-down voltage path; and a control unit, coupled to the switch and the DC-DC step-down unit, for detecting the DC input voltage and selecting either the direct path or the step-down voltage path to provide the predetermined DC voltage at the DC output end. The DC power converting circuit can be applied in power supply circuits of multi-media players or TV setup boxes to convert DC input voltage including 5V, 9V or 12V DC voltages to a predetermined DC voltage. |
| US08502511B1 |
Buck switching regulator
The present invention discloses a buck switching regulator including a power stage, a driver circuit and a bootstrap capacitor. The power stage includes an upper-gate switch, a first lower-gate switch and a second lower-gate switch. The first upper-gate switch is electrically connected between an input terminal and a switching node. The first lower-gate switch is connected in parallel with the second lower-gate switch, both of which are electrically connected between the switching node and a first node. The driver circuit controls the operation of the upper-gate switch and the first lower-gate switch. The bootstrap capacitor is electrically connected between a boot node and the switching node, wherein the boot node is electrically connected to a supply voltage. When a voltage across the bootstrap capacitor is smaller than a reference voltage, the second lower-gate switch is turned on to charge the bootstrap capacitor from the supply voltage. |
| US08502507B1 |
Electro-hydrodynamic system
An electro-hydrodynamic system including an energy harvester and an adjustable member, wherein the energy harvester includes a charge source including: an injector configured to emit particles into a wind stream and an electrode configured to charge the particles to a first polarity and to generate a first electric field. The adjustable member supports the energy harvester, and is configured to control a distance between electrical ground and at least one component of the energy harvester. A method for controlling the electric field magnitude of an electro-hydrodynamic system including placing an energy harvester comprising a charge source at a distance away from electrical ground, the distance being an equilibrium distance; receiving a first measurement of a parameter indicative of electric field magnitude near the charge source; and in response to the first measurement surpassing a threshold, increasing the distance between the energy harvester and electrical ground. |
| US08502506B2 |
Portable electrical power source for incorporation with an armored garment
An apparatus may be configured to provide electrical power while incorporated in an armored garment. The apparatus may include a plate having a footprint that corresponds to a plate of body armor, a plurality of energy storage cells carried by the power plate, and a port carried by the plate. The port may be configured to output power stored in the plurality of energy storage cells from the apparatus. The apparatus may also include one or more processors configured to enhance functionalities of the apparatus. |
| US08502500B2 |
Electrical circuit sharing for electric vehicle charging stations
Electric vehicle charging stations are coupled with a circuit sharing controller. Multiple electric vehicle charging stations are wired on the same electrical circuit. The circuit sharing controller implements a circuit sharing process that dynamically allocates electric current to charging stations on the same electrical circuit such that the capacity of the electrical circuit is not exceeded while permitting each of those charging stations to draw electric current through that electrical circuit for at least some amount of time. |
| US08502497B2 |
Method of controlling a power transfer system and power transfer system
A power transfer system which includes a power transfer device as well as at least one portable device, and to a method of controlling the power transfer system specifically in case of a dead battery condition of a battery of the portable device. The power transfer device for wireless charging of the battery arranged in the portable device and the power transfer device each comprise a near field communication functionality for data communication by a data communication link between the devices. The method includes a step of starting to establish the data communication link between the power transfer device and the portable device. |
| US08502496B2 |
Power charging device for an electric vehicle
The invention relates to a power charging device (10) for an electric vehicle (12) with an electric energy store (14). The power charging device (10) comprises at least one rectifier means (16) for converting a supply voltage (18) into a charging d.c. voltage (20), a contacting means (22) for contacting a plug-in connection supply point (24) of the electric vehicle (12), and a residual current monitoring device (26) for detecting a current difference in the contacting means (22) and/or the electric vehicle (12) during a charging process of the energy store (14) of the electric vehicle (12). The invention is characterized in that the residual current monitoring device (26) is designed at least for detection of a direct current difference ΔI and comprises a cutoff element (28) which can interrupt the charging process when a predeterminable direct current cutoff difference (36) is exceeded over a predeterminable cutoff time. |
| US08502495B2 |
Method and system for managing vehicle battery charge
A method and system for protecting a vehicle battery from excessive discharge are described. The method includes monitoring vehicle conditions including determining whether safety conditions are met and whether the vehicle is stationary. Further, the method activates a power save mode based on the monitoring step. The power save mode includes simulating an ignition off condition. |
| US08502494B2 |
Battery charging apparatus and method
A method and apparatus for charging a rechargeable battery comprises determining a safe charging voltage Vsafe that is the maximum open circuit voltage of the battery which provides a minimum battery capacity for a predetermined number of charge and discharge cycles of the battery. The battery is charged with a voltage Vhv which is higher than the Vsafe. The charging voltage is removed and open circuit voltage of the battery is measured. The charging and measuring steps are repeated when the open circuit voltage is less than Vsafe, and the charging process is terminated when the open circuit voltage is substantially equal to Vsafe. |
| US08502493B2 |
Control device and control method for alternating-current motor
When instructed to switch control modes between overmodulation PWM control and sinusoidal wave PWM control, control device corrects the amplitude of a voltage command signal based on a state of power conversion operation performed by an inverter, so as to suppress a change in an influence of dead time over a voltage applied to an alternating-current motor upon switching the control modes. The state of the power conversion operation performed by the inverter includes at least one of a present value of a carrier frequency in a control mode currently employed, an estimated value of the carrier frequency to be obtained when switching the control modes, the length of the dead time, a power factor of alternating-current power exchanged between the inverter and the alternating-current motor, and a driving state of the alternating-current motor. |
| US08502492B2 |
Single phase motor energy economizer for regulating the use of electricity
A device for improving efficiency of an induction motor soft-starts the motor by applying a power to the motor that is substantially less than the rated power of the motor then gradually increasing the power while monitoring changes in current drawn by the motor, thereby detecting when maximum efficiency is found. Once maximum efficiency is found, the nominal motor current is found and operating ranges are set. Now, the phase angle between the voltage and the current to the motor is measured and power to the motor is increasing when the phase angle is less than a minimum phase angle (determined during soft-start) and power to the motor is decreased when the phase angle is greater than or equal to the minimum phase angle as long as the voltage does not fall below a minimum voltage determined during soft-start. |
| US08502482B1 |
Compact induction lamp
The present invention discloses an improved compact induction lamp, which includes a lamp bulb coated with a phosphor layer on its inner wall and contains inert gas and mercury vapor. The lamp bulb is connected to a housing and mounted to a lamp base. The housing may include a control circuit. A magnetic ring located within a ring cover surrounded the lamp bulb and enclosed one cross section of the lamp bulb. A wire coil wrapped around the magnetic ring is connected with the control circuit and to the lamp base, which generates an electromagnetic field to lighten the lamp. A double wall exhaust tube containing mercury amalgam is disposed of in the housing at the lamp base to provide mercury vapor to the inner space of the lamp bulb. The double wall exhaust tube provides a mean to prevent the amalgam from penetrating into the lamp bulb and allows the lamp to be mounted in any direction the lamp may be operated. |
| US08502481B2 |
Phase shift controller
A positive counter starts counting, starting with an initial value, upon receiving a positive edge of a dimming pulse signal. A negative edge counter starts counting, starting with an initial value, upon receiving a negative edge of the dimming pulse signal. For each i-th (2≦i≦n) channel, the phase shift amount is calculated by multiplying a period count value that indicates the period of the dimming pulse signal by (i−1)/n. When the count value matches the phase shift amount, a burst control signal is switched to a first level. When the count value matches the phase shift amount, the burst control signal is switched to a second level. |
| US08502478B2 |
Variable gate field-effect transistor and electrical and electronic apparatus including the same
Provided are a variable field effect transistor (FET) designed to suppress a reduction of current between a source and a drain due to heat while decreasing a temperature of the FET, and an electrical and electronic apparatus including the variable gate FET. The variable gate FET includes a FET and a gate control device that is attached to a surface or a heat-generating portion of the FET and is connected to a gate terminal of the FET so as to vary a voltage of the gate terminal. A channel current between the source and drain is controlled by the gate control device that varies the voltage of the gate terminal when the temperature of the FET increases above a predetermined temperature. |
| US08502476B2 |
Method and apparatus for controlling power consumption of light source in mobile projector
A method of controlling the power consumption of a light source in a mobile projector, including calculating power consumption of the light source, and comparing the calculated power consumption with a preset power value, and automatically adjusting current flowing to the light source according to a resultant value of the comparison. Calculating power consumption of the light source includes measuring a voltage applied to both terminals of the light source, measuring current flowing to the light source, and calculating power consumption of the light source by multiplication of the measured voltage and current. Adjusting the current flowing to the light source includes calculating a difference between the preset power value and the calculated power consumption of the light source, adding/subtracting the calculated difference value to/from a preset current value to output a resultant value, and changing the voltage output to the light source according to the resultant output value. |
| US08502471B2 |
Planar light-emitting module lighting circuit and illuminating device
A planar light-emitting module lighting circuit uses a lamp comprising an organic electroluminescence layer and electrodes sandwiching the organic electroluminescence layer as a load, and applies a current to the load so as to cause the organic electroluminescence layer to emit light. In the planer light-emitting module lighting circuit, a current at a lighting start time of the lamp is made small as compared with a current at a stationary lighting time at which a predetermined time period has passed since a lighting start. |
| US08502468B2 |
Light emitting bulb, luminary and illumination device using LED
A light emitting bulb, a luminary and an illumination device are provided. The light emitting bulb includes a main body and a bulb base. The main body has a plurality of the light emitting units. The bulb base has a plurality of flexible pieces. The flexible pieces are connected to the light emitting units respectively to form a plurality of electrical transmission paths. The luminary further has a lamp holder for holding the light emitting bulb. A control unit in the illumination device is connected to the light emitting bulb through the lamp holder for selectively providing a supply of a power to the light emitting units to control brightness of light emitting units, respectively. The light emitting bulb may facilitate color changing and brightness control without having a control circuit disposed within the light emitting bulb and is associated with a longer lifetime and a lower manufacturing cost. |
| US08502465B2 |
Power light emitting diode and method with current density operation
A light emitting diode device emitting at a wavelength of 390-415 nm has a bulk gallium and nitrogen containing substrate with an active region. The device has a current density of greater than about 175 Amps/cm2 and an external quantum efficiency with a roll off of less than about 5% absolute efficiency. |
| US08502462B2 |
Voltage detection module
The voltage detection module according to the invention comprises: a first electric terminal; a second ground terminal; a load resistor, connected to the first electric terminal; a main gas-filled spark gap, arranged in series between the load resistor and the second terminal; and a main capacitor, connected, on the one hand, to a first middle point situated between the load resistor and the main gas-filled spark gap and, on the other hand, to the second terminal. The voltage detection module also comprises a light source connected in series between the main gas-filled spark gap and the second terminal, the light source and the main gas-filled spark gap being separate from one another. The voltage detection module comprises an additional stage capable of limiting the voltage applied to the terminals of the gas-filled spark gap to a threshold voltage chosen so as to prevent the gas-filled spark gap from always being on. |
| US08502461B2 |
Driving circuit and control circuit
A driving circuit, comprising a power supply, a transistor unit and a feedback control circuit, is disclosed. The power supply is adaptor to provide an electric power to drive a load. The transistor unit comprises at least one load coupling end to couple to the load for adjusting an amount of current flowing through the load. The feedback control circuit controls an amount of the electric power provided by the power supply according to a voltage level of the least one load coupling end. Wherein, the feedback control circuit comprises an error amplifying circuit and a feedback control switch. The error amplifying circuit generates an error amplified signal according to the voltage level of the least one load coupling end, and the feedback control switch is coupled to an output of the error amplifying circuit and is switched between a turn-on state and a turn-off state based on a dimming signal. |
| US08502460B2 |
Fluorescent lamp appliance, and lighting control apparatus of fluorescent lamp appliance
The present Invention provides 2-lamp parallel-type and 2-lamp serial-type fluorescent lamp fixtures, in which 2-lamp lighting and 1-lamp lighting are switchable according to an ON/OFF operation of a power supply switch. In a 2-lamp parallel-type or 2-lamp serial-type fluorescent lamp fixture provided with an inverter-type stabilizer, 2-lamp lighting and 1-lamp lighting are switched by a first control circuit (19, 117) operated according to an ON/OFF operation of a power supply switch (12). In the case of the 2-lamp parallel-type fluorescent lamp fixture, the switching is performed by a switching means (18). In the case of the 2-lamp serial-type fluorescent lamp fixture, the switching is performed by light turning-off circuits (113A, 113B) electrically connecting both terminals of a fluorescent lamp. A second control circuit (20, 131) may be provided to switch the 2-lamp lighting and the 1-lamp lighting of the fluorescent lamps according to an external instruction of a PC or the like. |
| US08502459B2 |
Driver IC for electrical load and driving method thereof
A driver IC for electrical loads, suitable for regulating a driving voltage depending upon a feedback signal and supplying a regulated driving voltage to a power supply line to which load strings are connected in parallel. The driver IC includes driving current sources respectively connected to the load strings through regulated voltage nodes and configured to supply driving current to the load strings in response to a control signal; sensing units configured to sense and output a minimum voltage among voltages of the regulated voltage nodes; a sample-and-hold circuit configured to sample, hold and output the minimum voltage in response to the control signal; and a comparator configured to compare an output voltage of the sample-and-hold circuit and a reference threshold voltage and generate the feedback signal. |
| US08502457B2 |
Light assembly
Light assemblies may contain a light socket assembly powered by an alternating current source, the light socket assembly containing a female socket for threadedly or otherwise receiving a light bulb or a retrofit socket, for example. An AC/DC converter electrically communicates with the light socket assembly thereby providing direct current to the light socket assembly. A first set of direct current contacts communicating with the AC/DC converter is formed within or about the light socket assembly. A solid state lighting source contains a second set of direct current contacts contained within the solid state lighting source, whereby the second set of direct contacts electrically communicates with and corresponds to the first set of direct current contacts. When assembled, the solid state lighting source such as an annular ring coupled to at least one light emitting diode, operably engages the light socket assembly and is fixed about at least a portion of the light socket assembly. |
| US08502456B2 |
Managing light system energy use
A first lighting assembly receives a lighting profile that instructs the first lighting assembly to operate according to the lighting profile over a first period of time. The received lighting profile is implemented, including causing a light of the first lighting assembly to illuminate at a first intensity. An input acquired in proximity to the first lighting assembly and indicating activity in a region proximate the first lighting assembly is received. The received lighting profile is then deviated from, in response to the received input, by increasing the intensity of the light to illuminate at a second intensity for a predetermined period of time. A message is transmitted for receipt by the control center, the message including an indication of the increased light intensity and an identifier associated with the first lighting assembly. |
| US08502454B2 |
Solid state semiconductor LED replacement for fluorescent lamps
Various apparatuses and methods for replacing a fluorescent lamp with a non-fluorescent tube are disclosed herein. For example, some embodiments provide an apparatus for replacing a fluorescent lamp, including an electrical connector adapted to electrically connect to a fluorescent lamp fixture, a DC rectifier connected to the electrical connector, a voltage converter connected to the DC rectifier, and a non-fluorescent light source connected to the voltage converter. The DC rectifier, voltage converter and non-fluorescent light source are substantially contained within a housing that is physically configured to replace the fluorescent lamp in a fluorescent lamp fixture. |
| US08502453B2 |
Drop-in light emitting diode (LED) module, reflector, and flashlight including same
A drop-in light emitting diode (LED) module that can be used to increase the light output of a conventional flashlight includes a heat sink, a high power LED mounted on the heat sink, and an LED driver circuit. The driver circuit is designed to supply the LED with its maximum rated current so that its light output is brighter than the light output of conventional flashlights. The heat sink channels heat generated by the LED when receiving its maximum rated current into the body of the flashlight so the LED does not overheat and fail. The module is designed to be easily inserted into a conventional flashlight to increase its light output and removed when desired. The module can be used to create a modified flashlight by using the module with a conventional reflector that has been modified for use with the module. |
| US08502452B2 |
High-stability light source system and method of manufacturing
A light source system and method that generates stable optical power over time and temperature for use in laser scanning, turbidity sensing, airborne-particle analysis, fog and visibility monitoring, blood-gas analysis and applications where light source output intensity changes less than one-half percent over a 50° C. range. The system includes a miniature semiconductor light emitter that can be powered by two AAA alkaline batteries for more than 100 hours and is about 1 cm3 in size (TO-5 package). A semiconductor light emitter emits a beam of linearly polarized light through a coated optical element having first and second surfaces that meet at an acute angle, the first surface reflecting a portion of the light to a control system and transmitting the rest through the second surface in a direction normal to it and thereby enabling immunity to light interference in the reflected and transmitted beams and novel, error-canceling properties. |
| US08502449B2 |
High-pressure discharge lamp having a single socket
A high-pressure discharge lamp having a single socket, comprising: a discharge vessel (100) having two opposite sealed ends (120, 130) and a discharge chamber (110) arranged between the sealed ends (120, 130), a first sealed end (120) extending into a lamp base (400) and the second sealed end (130) protruding out of the lamp base (400), a first electrode (20) which is fixed in the first sealed end (120) of the discharge vessel (100) and has an end on the discharge side extending into the discharge chamber (110), a second electrode (30) which is fixed in the second sealed end (130) of the discharge vessel (100) and has an end on the discharge side extending into the discharge chamber; and (110), a base flange (420) arranged on the lamp base (400) and defining a plane (421) which is usable for adjusting the high-pressure discharge lamp in an optical system wherein for the distance A from the end of the first electrode (20) on the discharge side to the plane (421) of the base flange (420) and for the distance B from the end of the second electrode (30) on the discharge side to the plane (421) of the base flange (420), the following relation applies: 15.0 mm ≤ A + B 2 ≤ 27.0 mm . |
| US08502446B2 |
Organic light emitting diode display
An OLED display that is enhanced in mechanical strength by improving a structure of a bezel supporting a panel assembly. The OLED display includes a panel assembly that includes a display region, a pad region, and a plurality of OLEDs arranged in the display region and a bezel coupled to the panel assembly, the bezel including synthetic resin, wherein, when a diagonal length of the display region is in the range of 25.4 to 101.6 mm, the bezel being designed to satisfy the following inequality t≧0.0003×a, where t(mm) is a thickness of the bezel and a(mm2) is an area of the display region. |
| US08502444B2 |
Organic light emitting diode display including color filters and disparity barrier pattern
An organic light emitting diode (OLED) display includes a first substrate, a plurality of organic light emitting elements on the first substrate, and a second substrate facing the first substrate and spaced apart from the first substrate. The plurality of organic light emitting elements is interposed between the first substrate and the second substrate. The OLED display includes a plurality of color filters in at least one of an area between the second substrate and the organic light emitting elements, and an area between the first substrate and the organic light emitting elements. The OLED also includes a disparity barrier pattern on at least one of a surface of the second substrate that opposes one surface of the second substrate facing the first substrate, and a surface of the first substrate that opposes one surface of the first substrate facing the second substrate. |
| US08502443B2 |
Organic light-emitting display apparatus and method of manufacturing the same
An organic light-emitting display apparatus and a method of manufacturing the same, the apparatus including: a substrate; a first electrode formed on the substrate; an intermediate layer formed on the first electrode, including an organic emissive layer; a second electrode formed on the intermediate layer; and an insulating member interposed between the intermediate layer and the second electrode, on an edge of the first electrode. |
| US08502439B2 |
Electrode for a discharge lamp and corresponding production method
An electrode for a discharge lamp, wherein the electrode comprises a pin and a mass arranged on an end of the pin by melting over an electrode coil. The pin consists of tungsten with microstructure-stabilizing additives, wherein the concentration of the microstructure-stabilizing additives is greater than or equal to 30 ppm. The electrode coil consists of pure tungsten, which has additives at most up to a concentration of 20 ppm. |
| US08502438B2 |
Spark plug electrode produced from an improved electrode material
A spark plug electrode, which is produced from an electrode material containing nickel as base material, 0.5 to 3 atom % of silicon, and at least 6 atom % of aluminum. |
| US08502421B2 |
Moving magnet type linear motor
The moving magnet type linear motor according to the present invention comprises a stator comprising a plurality of coils arranged in a single direction and having a both ends support structure supporting both ends of the stator in a direction perpendicular to said single direction, a pair of movers comprising a plurality of permanent magnets arranged opposing the sides of the stator respectively and capable of relative movement in said single direction with respect to each other, and guidance mechanisms guiding both the movers independently and movably in said single direction, and one of the movers is connected to a load. |
| US08502419B2 |
Medium voltage circuit breaker with capacitor bank supervisor
A Medium Voltage Circuit Breaker that has at least a pair of contact mutually coupleable and uncoupleable to carry out an opening/closing operation, a magnetic actuator operatively connected to at least one of the contacts, and a capacitor bank that has one or more capacitors that deliver power to the magnetic actuator for carrying out the opening/closing operation and a control device. The Medium Voltage Circuit Breaker further has a supervisor device of the capacitor bank which measures the Equivalent Series Resistance and/or the Capacitance of the capacitor bank system. |
| US08502417B2 |
Power source device and output voltage changing method of the power source device
A power source device includes a main power source circuit, a sub power source circuit whose output voltage is changed when the output voltage of the main power source circuit is changed, a voltage difference detecting circuit which detects whether a voltage difference between the output voltages of the main and sub power source circuits is within a predetermined voltage difference, and a voltage control circuit which controls the output voltages of the main and sub power source circuits based on a voltage changing signal and an output from the voltage difference detecting circuit. The voltage control circuit controls so that the voltage difference between the output voltages of the main and sub power source circuits is within the predetermined voltage difference by controlling output voltage changing speed when the voltage difference between the output voltages of the main and sub power source circuits is over the predetermined voltage difference. |
| US08502416B2 |
Method and circuit arrangement for connecting at least one string of a photovoltaic system to an inverter
A circuit with series-connected solar modules separated into a first and second substring, wherein each substring includes a first and a second terminal, and a solar inverter configured to supply electrical energy from the solar modules to an AC power grid. The circuit includes a first switch coupled to the first terminal of the first substring to a first power cable of the inverter, and a second switch coupled to the second terminal of the first substring to a first terminal of the second substring at a center point, thereby coupling the first and second substrings to form at least one string. The circuit further includes a third switch couple to second terminal of the second substring, and a shared actuator to open the first switch, second switch, and third switch if a current between the center point and a circuit ground exceeds a threshold value. |
| US08502415B2 |
Uninterrupted power supply unit
An uninterrupted power supply unit is provided with a straightforward switch connected between a power source and a load to supply or interrupt a power to a system. The combination of the outputs from two kinds of single phase inverters enables compensating for a variation in the system voltage in the normal condition and to supply a predetermined voltage to the load after decreasing in the system voltage and opening of a straight forward switch. |
| US08502410B2 |
Method of operating a vehicle and electric powertrain
An electric powertrain comprises a high voltage bus an electric machine, and a traction inverter is coupled between a high voltage bus and the electric machine. An electric voltage for the high voltage bus is generated with the electric machine and the traction inverter when the electric machine is driven mechanically. The generated electric voltage is limited and converted to a predetermined voltage lower than the limited voltage. A unit of the vehicle, such as a cooling pump, is powered with the predetermined voltage. |
| US08502405B2 |
Wind turbine for wind power generation
A wind turbine for wind power generation accommodated a heat-generating device therein is always properly cooled by accurately detecting clogging of a filter. A wind turbine accommodates a heat-generating device and includes a column disposed in an upright position on a foundation, a nacelle disposed on a top end of the column, and a rotor head supported by the nacelle so as to be rotatable about a substantially horizontal axis, and the wind turbine includes an intake which is provided in an outer surface of the wind turbine and through which outside air is taken into the wind turbine to cool the heat-generating device; an exhaust which is provided in the outer surface of the wind turbine and through which air inside the wind turbine is discharged outside the wind turbine; an impurity-removing mechanism disposed in a flow path of air from the intake to the exhaust to remove impurities contained in the outside air; and a control unit for determining the condition of the impurity-removing mechanism by comparing, as a parameter serving as a criterion for determining the condition of the impurity-removing mechanism, latest data obtained while a wind speed outside the wind turbine is substantially stable with reference value data input in advance and serving as a reference. |
| US08502404B2 |
Wind power generating system and control method for the same
A wind power generating system includes a unit for eliminating harmonics component of specified-order from inputted current detection value of a grid-side converter and a unit for controlling the grid-side converter using the current detection value in which harmonics are eliminated. |
| US08502403B2 |
Multiple generator wind turbine and method of operation thereof
A wind turbine has a plurality of blades mounted on a rotor, the rotor has a rotatable shaft with a drivewheel extending therefrom. A plurality of wheels are in continuous rotatable contact with the drivewheel and are connected to drive a plurality of generators to produce energy. A controller is connected to control the number of generators that are generating between zero and all of the generators based on the speed of the blades. A method of operating the wind turbine uses a controller to control the number of generators that are generating based on the speed of the rotor. |
| US08502390B2 |
De-skewed multi-die packages
A microelectronic package may have a plurality of terminals disposed at a face thereof which are configured for connection to at least one external component. e.g., a circuit panel. First and second microelectronic elements can be affixed with packaging structure therein. A first electrical connection can extend from a respective terminal of the package to a corresponding contact on the first microelectronic element, and a second electrical connection can extend from the respective terminal to a corresponding contact on the second microelectronic element, the first and second connections being configured such that a respective signal carried by the first and second connections in each group is subject to propagation delay of the same duration between the respective terminal and each of the corresponding contacts coupled thereto. |
| US08502384B2 |
Semiconductor device and manufacturing method thereof
To provide a semiconductor device comprising a first layer that is provided on a semiconductor substrate and includes a first wiring pattern planarized by CMP and a plurality of first dummy patterns made of a same material as the first wiring pattern and a second layer that is provided above the semiconductor substrate and includes a second wiring pattern planarized by CMP and a plurality of second dummy patterns made of a same material as the second wiring pattern. A central axis of each of the second dummy patterns coincides with that of a corresponding one of the first dummy patterns in a direction perpendicular to the semiconductor substrate. |
| US08502383B2 |
Integrated circuit including detection circuit to detect electrical energy delivered by a thermoelectric material
An integrated circuit includes active circuitry disposed at a surface of a semiconductor body and an interconnect region disposed above the semiconductor body. A thermoelectric material is disposed in an upper portion of the interconnect region away from the semiconductor body. The thermoelectric material is configured to deliver electrical energy when exposed to a temperature gradient. This material can be used, for example, in a method for detecting the repackaging of the integrated circuit after it has been originally packaged. |
| US08502381B2 |
Barrier layer configurations and methods for processing microelectronic topographies having barrier layers
A microelectronic topography includes a dielectric layer (DL) with a surface higher than an adjacent bulk metal feature (BMF) and further includes a barrier layer (BL) upon the BMF and extending higher than the DL. Another microelectronic topography includes a BL with a metal-oxide layer having a metal element concentration which is disproportionate relative to concentrations of the element within metal alloy layers on either side of the metal-oxide layer. A method includes forming a BL upon a BMF such that portions of a first DL adjacent to the BMF are exposed, selectively depositing a second DL upon the BL, cleaning the topography thereafter, and blanket depositing a third DL upon the cleaned topography. Another method includes polishing a microelectronic topography such that a metallization layer is coplanar with a DL and further includes spraying a deionized water based fluid upon the polished topography to remove debris from the DL. |
| US08502379B2 |
Method for manufacturing semiconductor device, and semiconductor device
A semiconductor device includes an insulating film base member and a wiring pattern that is formed on the insulating film base member. The wiring pattern has a surface, with at least a peripheral section of the surface being a peeled surface of the wiring pattern peeled from the insulating film base member. The semiconductor device further includes a plating layer that covers the surface of the wiring pattern, and an IC chip that has an active surface with a bump bonded to the wiring pattern. The peeled surface of the wiring pattern is peeled from the insulating film base member around a bonding position of the wiring pattern bonded with the bump. |
| US08502377B2 |
Package substrate for bump on trace interconnection
A package substrate including a conductive pattern disposed on a die attach surface of the package substrate; at least one bumping trace inlaid into the conductive pattern; and at least one gap disposed along with the bumping trace in the conductive pattern to separate the bumping trace from a bulk portion of the conductive pattern. The bumping trace may have a lathy shape from a plan view and a width substantially between 10 μm and 40 μm and a length substantially between 70 μm and 130 μm, for example. |
| US08502375B2 |
Corrugated die edge for stacked die semiconductor package
A semiconductor die and semiconductor package formed therefrom, and methods of fabricating the semiconductor die and package, are disclosed. The semiconductor die includes an edge formed with a plurality of corrugations defined by protrusions between recesses. Bond pads may be formed on the protrusions. The semiconductor die formed in this manner may be stacked in the semiconductor package in staggered pairs so that the die bond pads on the protrusions of a lower die are positioned in the recesses of the upper die. |
| US08502373B2 |
3-D integrated circuit lateral heat dissipation
By filling an air gap between tiers of a stacked IC device with a thermally conductive material, heat generated at one or more locations within one of the tiers can be laterally displaced. The lateral displacement of the heat can be along the full length of the tier and the thermal material can be electrically insulating. Through silicon-vias (TSVs) can be constructed at certain locations to assist in heat dissipation away from thermally troubled locations. |
| US08502364B2 |
Semiconductor device member, production method of semiconductor-device-member formation liquid and semiconductor device member, and semiconductor-device-member formation liquid, phosphor composition, semiconductor light-emitting device, lighting system and image display system using the same
To provide a semiconductor device member that is superior in heat resistance, light resistance, film-formation capability and adhesion, and is capable of sealing a semiconductor device and holding a phosphor without causing cracks, peelings and colorings even after used for a long period of time, the weight loss at the time of heating, measured by a predetermined weight-loss at-the-time-of-heating measurement method, is 50 weight % or lower and the ratio of peeling, measured by a predetermined adhesion evaluation method, is 30% or lower, in the semiconductor device member. |
| US08502362B2 |
Semiconductor package containing silicon-on-insulator die mounted in bump-on-leadframe manner to provide low thermal resistance
Thermal transfer from a silicon-on-insulator (SOI) die is improved by mounting the die in a bump-on-leadframe manner in a semiconductor package, with solder or other metal bumps connecting the active layer of the SOI die to metal leads used to mount the package on a printed circuit board or other support structure. |
| US08502356B2 |
Organic thin film transistors
A method of forming an organic thin film transistor comprising source and drain electrodes with a channel region therebetween, a gate electrode, a dielectric layer disposed between the source and drain electrodes and the gate electrode, and an organic semiconductor disposed in at least the channel region between the source and drain electrodes, said method comprising: seeding a surface in the channel region with crystallization sites prior to deposition of the organic semiconductor; and depositing the organic semiconductor onto the seeded surface whereby the organic semiconductor crystallizes at the crystallization sites forming crystalline domains in the channel region. |
| US08502349B2 |
PN-junction varactor in a BiCMOS process and manufacturing method of the same
A PN-junction varactor in a BiCMOS process is disclosed which comprises an N-type region, a P-type region and N-type pseudo buried layers. Both of the N-type and P-type regions are formed in an active area and contact with each other, forming a PN-junction; the P-type region is situated on top of the N-type region. The N-type pseudo buried layers are formed at bottom of shallow trench field oxide regions on both sides of the active area and contact with the N-type region; deep hole contacts are formed on top of the N-type pseudo buried layers in the shallow trench field oxide regions to pick up the N-type region. A manufacturing method of PN-junction varactor in a BiCMOS process is also disclosed. |
| US08502345B2 |
Reverse-conducting insulated gate bipolar transistor
Reverse-conducting insulated gate bipolar transistor in which IGBT region and FWD region are integrated into a single body in a semiconductor substrate with a common active region is disclosed. MOS gate structure is on a first major surface side. Rear surface side structure is in a second major surface side of the semiconductor substrate and includes a plurality of recessed parts vertical to the second major surface, which are repeated periodically along the second major surface. A plurality of protruding parts are interposed between the recessed parts. Rear surface side structure includes p type collector region on a bottom surface of the recessed part, n type first field stop region at a position deeper than the collector region, n type cathode region on the top surface of the protruding part, and n type second field stop region in the protruding part at a position deeper than the cathode region. |
| US08502344B2 |
Semiconductor device
A lateral high-breakdown voltage semiconductor device is provided in which the breakdown voltages of elements as a whole are improved, while suppressing increases in cell area. A track-shape gate electrode surrounds a collector electrode extending in a straight line, a track-shape emitter electrode surrounds the gate electrode, and a track-shape first isolation trench surrounds the emitter electrode. A second isolation trench surrounds the first isolation trench. The region between the first isolation trench and the second isolation trench is an n-type isolation silicon region. The isolation silicon region is at the same potential as the emitter electrode. In the cross-sectional configuration traversing the gate electrode, the depth of the p base region in an interval corresponding to an arc-shape portion of the gate electrode is shallower than the depth of the p base region in an interval corresponding to a straight-line portion of the gate electrode. |
| US08502338B2 |
Through-substrate via waveguides
A device includes a semiconductor substrate of a first conductivity type, wherein the semiconductor substrate comprises a first surface and a second surface opposite the first surface. A through-substrate via (TSV) extends from the first surface to the second surface of the semiconductor substrate. A well region of a second conductivity type opposite the first conductivity type encircles the TSV, and extends from the first surface to the second surface of the semiconductor substrate. |
| US08502335B2 |
CMOS image sensor big via bonding pad application for AlCu Process
An integrated circuit includes a substrate having a bonding pad region and a non-bonding pad region. A relatively large via, called a “big via,” is formed on the substrate in the bonding region. The big via has a first dimension in a top view toward the substrate. The integrated circuit also includes a plurality of vias formed on the substrate in the non-bonding region. The plurality of vias each have a second dimension in the top view, the second dimension being substantially less than the first dimension. |
| US08502329B2 |
Micro-electro-mechanical systems (MEMS) device and method for fabricating the same
A MEMS device includes a substrate. The substrate has a plurality of through holes in the substrate within a diaphragm region and optionally an indent space from the second surface at the diaphragm region. A first dielectric structural layer is then disposed over the substrate from the first surface, wherein the first dielectric structural layer has a plurality of openings corresponding to the through holes, wherein each of the through holes remains exposed by the first dielectric structural layer. A second dielectric structural layer with a chamber is disposed over the first dielectric structural layer, wherein the chamber exposes the openings of the first dielectric structural layer and the through holes of the substrate to connect to the indent space. A MEMS diaphragm is embedded in the second dielectric structural layer above the chamber, wherein an air gap is formed between the substrate and the MEMS diaphragm. |
| US08502328B2 |
Micro electronic mechanical system structure
A micro electronic mechanical system structure and a manufacturing method thereof are provided. A substrate has a plurality of conductive regions is provided. A dielectric layer is formed on the substrate. A plurality of openings and recesses are formed in the dielectric layer, wherein the openings expose the conductive regions. The recesses are located between the openings. A conductive layer is formed on the dielectric layer and the openings and the recesses are filled with the conductive layer. The conductive layer is patterned to form a plurality of strips of the first conductive patterns on the dielectric layer and a second conductive pattern on the sidewall and the bottom of each recess, wherein the first conductive patterns are connected with each other through the second conductive patterns. The dielectric layer is removed. The second conductive patterns between the first conductive patterns are removed. |
| US08502325B2 |
Metal high-K transistor having silicon sidewalls for reduced parasitic capacitance
A method forms a metal high dielectric constant (MHK) transistor and includes: providing a MHK stack disposed on a substrate, the MHK stack including a first layer of high dielectric constant material, a second overlying layer, and a third overlying layer, selectively removing only the second and third layers, without removing the first layer, to form an upstanding portion of a MHK gate structure; forming a first sidewall layer on sidewalls of the upstanding portion of the MHK gate structure; forming a second sidewall layer on sidewalls of the first sidewall layer; removing a portion of the first layer to form exposed surfaces; forming an offset spacer layer over the second sidewall layer and over the first layer, and forming in the substrate extensions that underlie the first and second sidewall layers and that extend under a portion but not all of the upstanding portion of the MHK gate structure. |
| US08502322B2 |
Nonvolatile memory device and manufacturing method thereof
According to the nonvolatile memory device in one embodiment, contact plugs connect between second wires and third wires in a memory layer and a first wire connected to a control element. Drawn wire portions connect the second wires and the third wires with the contact plug. The drawn wire portion connected to the second wires and the third wires of the memory layer is formed of a wire with a critical dimension same as the second wires and the third wires and is in contact with the contact plug on an upper surface and both side surfaces of the drawn wire portion. |
| US08502319B2 |
Semiconductor device and production method thereof
Disclosed is a semiconductor device wherein device characteristics are improved by applying a strong stress to a channel region. The semiconductor device includes a semiconductor substrate, a gate insulating film formed over a first plane of the semiconductor substrate, a gate electrode formed over the gate insulating film, a gate sidewall insulating film formed over the sidewall of the gate electrode, source/drain diffusion layer regions into which impurities are implanted, the source/drain diffusion layer regions being adjacent to a channel region formed in the semiconductor substrate below the gate electrode, and a stress applying film formed over the source/drain diffusion layer regions except over the upper part of the gate electrode; and recesses or protrusions are formed in the region where the source/drain diffusion layer regions are formed over the first plane of the semiconductor substrate. |
| US08502317B2 |
Level shifter circuits for integrated circuits
A level shifter circuit for integrated circuits has one or more inputs that operate in a first voltage domain, and a signal output that operates in a second voltage domain. In some embodiments, the level shifter circuit receives two complementary input signals. The level shifter uses cross-coupled PMOS transistors with drain-bulk breakdown voltage less than the gate-oxide breakdown voltage of high-voltage PMOS transistors to prevent gate-oxide breakdown caused by sub-threshold leakage of auxiliary high-voltage PMOS transistors in the off state. Permanent gate-oxide breakdown is prevented through non-permanent sub-nanoamp drain-bulk junction breakdown. The level shifter circuit has the advantages of small circuit size and low static power consumption. |
| US08502316B2 |
Self-aligned two-step STI formation through dummy poly removal
An integrated circuit structure includes a semiconductor substrate including an active region. A first shallow trench isolation (STI) region adjoins a first side of the active region. A gate electrode of a MOS device is over the active region and the first STI region. A source/drain stressor region of the MOS device includes a portion in the semiconductor substrate and adjacent the gate electrode. A trench is formed in the semiconductor substrate and adjoining a second side of the active region. The trench has a bottom no lower than a bottom of the source/drain region. An inter-layer dielectric (ILD) extends from over the gate electrode to inside the trench, wherein a portion of the ILD in the trench forms a second STI region. The second STI region and the source/drain stressor region are separated from each other by, and adjoining, a portion of the semiconductor substrate. |
| US08502315B2 |
Semiconductor device with improved on-resistance
A semiconductor device includes a source, a drain, and a gate configured to selectively enable a current to pass between the source and the drain. The semiconductor device includes a drift zone between the source and the drain and a first field plate adjacent the drift zone. The semiconductor device includes a dielectric layer electrically isolating the first field plate from the drift zone and charges within the dielectric layer close to an interface of the dielectric layer adjacent the drift zone. |
| US08502314B2 |
Multi-level options for power MOSFETS
This document discusses, among other things, a semiconductor device including first and second conductive layers, the first conductive layer including a gate runner and a drain contact and the second conductive layer including a drain conductor, at least a portion of the drain conductor overlying at least a portion of the gate runner. A first surface of the semiconductor device can include a gate pad coupled to the gate runner and a drain pad coupled to the drain contact and the drain conductor. |
| US08502313B2 |
Double layer metal (DLM) power MOSFET
This document discusses, among other things, a semiconductor device including a first metal layer coupled to a source region and a second metal layer coupled to a gate structure, wherein at least a portion of the first and second metal layers overlap vertically. |
| US08502304B2 |
Semiconductor substrate and semiconductor chip
A semiconductor substrate capable of detecting operating current of a MOSFET and diode current in a miniaturized MOSFET such as a trench-gate type MOSFET is provided. A semiconductor substrate includes a main current region and a current sensing region in which current smaller than main current flowing in the main current region flows. The main current region has a source electrode disposed on a main surface, the source electrode being in contact with a p-type semiconductor region (body) and an n+-type semiconductor region (source), and the current sensing region has a MOSFET current detecting electrode and a diode current detecting electrode on a main surface, the MOSFET current detecting electrode being in contact with the p-type semiconductor region (body) and the n+-type semiconductor region (source), the diode current detecting electrode being in contact with the p-type semiconductor region (body). |
| US08502299B2 |
Strained semiconductor device and method of making same
In a method of making a semiconductor device, a gate dielectric is formed over the semiconductor body. A floating gate is formed over the gate dielectric, an insulating region over the floating gate, and a control gate over the insulating region. The gate dielectric, floating gate, insulating region, and control gate constitute a gate stack. A stress is caused in the gate stack, whereby the band gap of the gate dielectric is changed by the stress. |
| US08502297B2 |
Non-volatile memory and fabricating method thereof
A non-volatile memory having a tunneling dielectric layer, a floating gate, a control gate, an inter-gate dielectric layer and a first doping region and a second doping region is provided. The tunneling dielectric layer is disposed on a substrate. The floating gate is disposed on the tunneling dielectric layer, and has a protruding portion. The control gate is disposed over the floating gate to cover and surround the protruding portion. The protruding portion of the floating gate is fully covered and surrounded by the control gate in any direction, including extending directions of bit lines, word lines and an included angle formed between the word line and the bit line. The inter-gate dielectric layer is disposed between the floating gate and the control gate. The first doping region and the second doping region are respectively disposed in the substrate at two sides of the control gate. |
| US08502292B2 |
Semiconductor device with memory cells
A semiconductor device with a novel structure is provided, which can hold stored data even when no power is supplied and which has no limitations on the number of writing operations. A semiconductor device is formed using a material which enables off-state current of a transistor to be reduced significantly; e.g., an oxide semiconductor material which is a wide-gap semiconductor. With use of a semiconductor material which enables off-state current of a transistor to be reduced significantly, the semiconductor device can hold data for a long period. In a semiconductor device with a memory cell array, parasitic capacitances generated in the nodes of the first to the m-th memory cells connected in series are substantially equal, whereby the semiconductor device can operate stably. |
| US08502290B2 |
High full-well capacity pixel with graded photodetector implant
Embodiments of a process for forming a photodetector region in a CMOS pixel by dopant implantation, the process comprising masking a photodetector area of a surface of a substrate for formation of the photodetector region, positioning the substrate at a plurality of twist angles, and at each of the plurality of twist angles, directing dopants at the photodetector area at a selected tilt angle. Embodiments of a CMOS pixel comprising a photodetector region formed in a substrate, the photodetector region comprising overlapping first and second dopant implants, wherein the overlap region has a different dopant concentration than the non-overlapping parts of the first and second implants, a floating diffusion formed in the substrate, and a transfer gate formed on the substrate between the photodetector and the transfer gate. Other embodiments are disclosed and claimed. |
| US08502287B2 |
Semiconductor devices with enclosed void cavities
Field effect devices and ICs with very low gate-drain capacitance Cgd are provided by forming a substantially empty void between the gate and the drain regions. For vertical FETS a cavity is etched in the semiconductor (SC) and provided with a gate dielectric liner. A poly-SC gate deposited in the cavity has a central fissure (empty pipe) extending through to the underlying SC. This fissure is used to etch the void in the SC beneath the poly-gate. The fissure is then closed by a dielectric plug formed by deposition or oxidation without significantly filling the etched void. Conventional process steps are used to provide the source and body regions around the cavity containing the gate, and to provide a drift space and drain region below the body region. The etched void between the gate and drain provides lower Cgd and Ron*Qg than can be achieved using low k dielectrics. |
| US08502286B2 |
Etch stop layers and methods of forming the same
A semiconductor device includes a MOSFET, and a plurality of stress layers disposed on the MOSFET, wherein the stress layers include a first stress layer disposed on the MOSFET and a second stress layer disposed on the first stress layer, the first stress layer has a first stress and the second stress layer has a second stress, and the first stress is different from the second stress. |
| US08502278B2 |
Chemically-sensitive sample and hold sensors
Methods and apparatus relating to very large scale FET arrays for analyte measurements. ChemFET (e.g., ISFET) arrays may be fabricated using conventional CMOS processing techniques based on improved FET pixel and array designs that increase measurement sensitivity and accuracy, and at the same time facilitate significantly small pixel sizes and dense arrays. Improved array control techniques provide for rapid data acquisition from large and dense arrays. Such arrays may be employed to detect a presence and/or concentration changes of various analyte types in a wide variety of chemical and/or biological processes. In one example, chemFET arrays facilitate DNA sequencing techniques based on monitoring changes in hydrogen ion concentration (pH), changes in other analyte concentration, and/or binding events associated with chemical processes relating to DNA synthesis. |
| US08502276B2 |
Compact memory arrays
Embodiments of the invention describe compact memory arrays. In one embodiment, the memory cell array includes first, second, and third gate lines disposed over a substrate, the second gate lines are disposed between the first and the third gate lines. The first, the second, and the third gate lines form adjacent gate lines of the memory cell array. The memory cell array further includes first metal lines disposed over the first gate lines, the first metal lines coupled to the first gate lines; second metal lines disposed over the second gate lines, the second metal lines coupled to the second gate lines; and third metal lines disposed over the third gate lines, the third metal lines coupled to the third gate lines. The first metal lines, the second metal lines and the third metal lines are disposed in different metallization levels. |
| US08502275B2 |
Thin film transistor array panel for a liquid crystal display
A plurality of gate lines formed on an insulating substrate, each gate line including a pad for connection to an external device; a plurality of data lines intersecting the gate lines and insulated from the gate lines, each data line including a pad for connection to an external device; and a conductor overlapping at least one of the gate lines and the data lines are included. An overlapping distance of the gate lines or the data lines and a width of the conductor decreases as the length of the gate lines or the data lines increases. Accordingly, the difference in the RC delays due to the difference of the length of the signal lines is compensated to be reduced. |
| US08502273B2 |
Group III-nitride HEMT having a well region formed on the surface of substrate and contacted the buffer layer to increase breakdown voltage and the method for forming the same
The buffer breakdown of a group III-N HEMT on a p-type Si substrate is significantly increased by forming an n-well in the p-type Si substrate to lie directly below the metal drain region of the group III-N HEMT. The n-well forms a p-n junction which becomes reverse biased during breakdown, thereby increasing the buffer breakdown by the reverse-biased breakdown voltage of the p-n junction and allowing the substrate to be grounded. The buffer layer of a group III-N HEMT can also be implanted with n-type and p-type dopants which are aligned with the p-n junction to minimize any leakage currents at the junction between the substrate and the buffer layer. |
| US08502263B2 |
Light-emitter-based devices with lattice-mismatched semiconductor structures
Some aspects for the invention include a method and a structure including a light-emitting device disposed over a second crystalline semiconductor material formed over a semiconductor substrate comprising a first crystalline material. |
| US08502260B2 |
Semiconductor light emitting device and method for manufacturing same
According to one embodiment, a semiconductor light emitting device includes a semiconductor layer, a first electrode, a second electrode, an insulating layer, a first interconnect layer, a second interconnect layer, a first metal pillar, a second metal pillar, a film covering a side face of the first metal pillar and a side face of the second metal pillar, and a resin layer. The semiconductor layer includes a light emitting layer, a first major surface, and a second major surface formed on a side opposite to the first major surface. The film has a solder wettability poorer than a solder wettability of the first metal pillar and a solder wettability of the second metal pillar. The resin layer covers at least part of the film. |
| US08502259B2 |
Light emitting device
A light emitting device including a light emitting chip and a magnetic material is provided. The light emitting chip includes a first doped semiconductor layer, a second doped semiconductor layer, and a light emitting semiconductor layer disposed between the first doped semiconductor layer and the second doped semiconductor layer. The magnetic material is disposed beside the light emitting chip, wherein the magnetic material is not disposed on a conducting path of a current causing the light emitting chip to emit light. |
| US08502258B2 |
Light emitting structure and method of manufacture thereof
A semiconductor structure having an electrically conducting silicon substrate and a GaN semiconductor device separated from the substrate by a buffer layer is provided. The buffer layer electrically connects the silicon substrate with the GaN semiconductor device. In addition, a GaN LED arranged in a flip chip orientation on the buffer layer on the substrate is provided. |
| US08502256B2 |
Light emitting diode and method for manufacture of the same
Disclosed is a light emitting device. The light emitting device includes a substrate, a semiconductor layer on the substrate, and an electrode on the semiconductor layer, wherein the substrate has at least one side surface having a predetermined tilt angle with respect to a bottom surface of the substrate, wherein the predetermined tilt angle is an obtuse angle, and wherein a side surface of the semiconductor layer disposes vertically. |
| US08502254B2 |
Group III nitride semiconductor light-emitting device and method of manufacturing the same, and lamp
Disclosed is a group III nitride semiconductor light-emitting device which suppresses electric current concentration in a light-transmitting electrode and a semiconductor layer directly below an electrode to enhance light emission efficiency, suppresses light absorption in the electrode or light loss due to multiple reflection therein to enhance light extraction efficiency, and has superior external quantum efficiency and electric characteristics. A semiconductor layer (20), in which an n-type semiconductor layer (4), a light-emitting layer (5) and a p-type semiconductor layer (6) are sequentially layered, is formed on a single-crystal underlayer (3) which is formed on a substrate (11). A light-transmitting electrode (7) is formed on the p-type semiconductor layer (6). An insulation layer (15) is formed on at least a part of the p-type semiconductor layer (6), and the light-transmitting electrode (7) is formed to cover the insulation layer (15). A positive electrode bonding pad (8) is provided in a position A corresponding to the insulation layer (15) provided on the p-type semiconductor layer (6), on a surface (7a) of the light-transmitting electrode (7). A sheet resistance of the n-type semiconductor layer (4) is lower than a sheet resistance of the light-transmitting electrode (7). |
| US08502250B2 |
Light emitting diode package and light emitting diode module
A light emitting diode (LED) package comprising a carrier, an LED chip, a lens, and a phosphor layer is provided. The LED chip disposed on the carrier. The lens encapsulating the LED chip has a plurality of fins surrounding the LED chip and a conical indentation. The fins extending backward the LED chip radially. Each of the fins has at least one light-emitting surface and at least one reflection surface adjoining the light-emitting surface. A bottom surface of the conical indentation is served as an total reflection surface. The phosphor layer is disposed on the light-emitting surfaces of the lens. An LED package and an LED module are also provided. |
| US08502247B2 |
Solid state white light emitter and display using same
A light emitting assembly comprising a solid state device coupleable with a power supply constructed and arranged to power the solid state device to emit from the solid state device a first, relatively shorter wavelength radiation, and a down-converting luminophoric medium arranged in receiving relationship to said first, relatively shorter wavelength radiation, and which in exposure to said first, relatively shorter wavelength radiation, is excited to responsively emit second, relatively longer wavelength radiation. In a specific embodiment, monochromatic blue or UV light output from a light-emitting diode is down-converted to white light by packaging the diode with fluorescent organic and/or inorganic fluorescers and phosphors in a polymeric matrix. |
| US08502246B2 |
Fabrication of nonpolar indium gallium nitride thin films, heterostructures and devices by metalorganic chemical vapor deposition
A method for the fabrication of nonpolar indium gallium nitride (InGaN) films as well as nonpolar InGaN-containing device structures using metalorganic chemical vapor deposition (MOVCD). The method is used to fabricate nonpolar InGaN/GaN violet and near-ultraviolet light emitting diodes and laser diodes. |
| US08502241B2 |
Method of driving a light emitting device
The present invention is characterized in that a transistor with its L/W set to 10 or larger is employed, and that |VDS| of the transistor is set equal to or larger than 1 V and equal to or less than |VGS−Vth|. The transistor is used as a resistor so that the resistance of a light emitting element can be held by the transistor. This slows down an increase in internal resistance of the light emitting element and the resultant current value reduction. Accordingly, a change with time in light emission luminance is reduced and the reliability is improved. |
| US08502240B2 |
Light-emitting device package and method of manufacturing the same
Provided are a light-emitting device package and a method of manufacturing the same. The light-emitting device package may include a plurality of light-emitting chips on one substrate (board). The plurality of light-emitting chips may produce colors around a target color. The target color may be produced by combinations of the colors of light emitted from the plurality of light-emitting chips. The colors around the target color may have the same hue as the target color and have color temperatures different from that of the target color. The plurality of light-emitting chips may have color temperatures within about ±250K of that of the target color. |
| US08502239B2 |
High power allngan based multi-chip light emitting diode
A light emitting diode chip having a substantially transparent substrate and having an aspect ratio, which defines an elongated geometry provides enhanced efficiency and brightness. Method for forming and operating the same are also disclosed. |
| US08502238B2 |
Nitride-composite semiconductor laser element, its manufacturing method, and semiconductor optical device
A nitride semiconductor laser device with a reduction in internal crystal defects and an alleviation in stress, and a semiconductor optical apparatus comprising this nitride semiconductor laser device. First, a growth suppressing film against GaN crystal growth is formed on the surface of an n-type GaN substrate equipped with alternate stripes of dislocation concentrated regions showing a high density of crystal defects and low-dislocation regions so as to coat the dislocation concentrate regions. Next, the n-type GaN substrate coated with the growth suppressing film is overlaid with a nitride semiconductor layer by the epitaxial growth of GaN crystals. Further, the growth suppressing film is removed to adjust the lateral distance between a laser waveguide region and the closest dislocation concentrated region to 40 μm or more. |
| US08502235B2 |
Integrated nitride and silicon carbide-based devices
A monolithic electronic device includes a first nitride epitaxial structure including a plurality of nitride epitaxial layers. The plurality of nitride epitaxial layers include at least one common nitride epitaxial layer. A second nitride epitaxial structure is on the common nitride epitaxial layer of the first nitride epitaxial structure. A first plurality of electrical contacts is on the first epitaxial nitride structure and defines a first electronic device in the first nitride epitaxial structure. A second plurality of electrical contacts is on the first epitaxial nitride structure and defines a second electronic device in the second nitride epitaxial structure. A monolithic electronic device includes a bulk semi-insulating silicon carbide substrate having implanted source and drain regions and an implanted channel region between the source and drain regions, and a nitride epitaxial structure on the surface of the silicon carbide substrate. Corresponding methods are also disclosed. |
| US08502232B2 |
Capacitor, semiconductor device and manufacturing method thereof
A highly reliable capacitor, a semiconductor device having high operating performance and reliability, and a manufacturing method thereof are provided. A capacitor formed of a first conductive film 102, a dielectric 103 made of an insulating material, and a second conductive film 104 is characterized in that a pin hole 106 formed by chance in the dielectric 103 is filled up with an insulating material (filler) 107 made of a resin material. This can prevent short circuit between the first conductive film 102 and the second conductive film 104. The capacitor is used as a storage capacitor provided in a pixel of a semiconductor device. |
| US08502231B2 |
Semiconductor device
To realize a semiconductor device including a capacitor element capable of obtaining a sufficient capacitor without reducing an opening ratio, in which a pixel electrode is flattened in order to control a defect in orientation of liquid crystal. A semiconductor device of the present invention includes a light-shielding film formed on the thin film transistor, a capacitor insulating film formed on the light-shielding film, a conductive layer formed on the capacitor insulating film, and a pixel electrode that is formed so as to be electrically connected to the conductive layer, in which a storage capacitor element comprises the light-shielding film, the capacitor insulating film, and the conductive layer, whereby an area of a region serving as the capacitor element can be increased. |
| US08502227B2 |
Active matrix substrate, display device, method for inspecting the active matrix substrate, and method for inspecting the display device
An active matrix substrate (2) is provided with first connecting wirings (641, 643, 645, 647) connected to gate terminals (51) to which extraction wirings (611, 613, 615, 617) are connected, second connecting wirings (642, 644, 646) connected to gate terminals (51) to which extraction wirings (612, 614, 616) are connected, bundled wirings (651 to 654) each composed of a mutually adjacent first connecting wiring and second connecting wiring bunched together, a first inspection wiring (66) capable of inputting an inspection signal to bunched wirings (652, 654) that are not adjacent to each other among the bundled wirings, and a second inspection wiring (67) capable of inputting an inspection signal to bundled wirings (651, 653) that are not adjacent to each other and not connected to the first inspection wiring (66) among the bundled wirings. |
| US08502224B2 |
Measuring apparatus that includes a chip having a through silicon via, a heater, and a stress sensor
A measuring apparatus including a first chip, a first circuit layer, a first heater, a first stress sensor and a second circuit layer is provided. The first chip has a first through silicon via, a first surface and a second surface opposite to the first surface. The first circuit layer is disposed on the first surface. The first heater and the first stress sensor are disposed on the first surface and connected to the first circuit layer. The second circuit layer is disposed on the second surface. |
| US08502218B2 |
Large-area, free-standing metal oxide films and transistors made therefrom
The present invention provides continuous, free-standing metal oxide films and methods for making said films. The methods are able to produce large-area, flexible, thin films having one or more continuous, single-crystalline metal oxide domains. The methods include the steps of forming a surfactant monolayer at the surface of an aqueous solution, wherein the headgroups of the surfactant molecules provide a metal oxide film growth template. When metal ions in the aqueous solution are exposed to the metal oxide film growth template in the presence of hydroxide ions under suitable conditions, a continuous, free-standing metal oxide film can be grown from the film growth template downward into the aqueous solution. |
| US08502215B2 |
Semiconductor element and display device using the same
A semiconductor having an active layer; a gate insulating film in contact with the semiconductor; a gate electrode opposite to the active layer through the gate insulating film; a first nitride insulating film formed over the active layer; a photosensitive organic resin film formed on the first nitride insulating film; a second nitride insulating film formed on the photosensitive organic resin film; and a wiring provided on the second, nitride insulating film. A first opening portion is provided in the photosensitive organic resin film, an inner wall surface of the first opening portion is covered with the second nitride insulating film, a second opening portion is provided in a laminate including the gate insulating film, the first nitride insulating film, and the second nitride insulating film inside the first opening portion, and the semiconductor is connected with the wiring through the first opening portion and the second opening portion. |
| US08502214B2 |
Organic light emitting diode display
An organic light emitting diode display includes a substrate, a display portion on the substrate, and a sealing substrate fixed on the substrate and sealingly engaging the display portion. The sealing substrate is fixed by an adhesive layer that surrounds the display portion. The sealing substrate includes a composite member, at least one conductive portion, and an insulation sheet. The composite member includes a resin base layer and a plurality of carbon fibers. The at least one conductive portion extends over inner and outer sides of the composite member and penetrates the composite member. The at least one conductive portion includes a double-layered structure having a metal foil layer and a plating layer. The insulation sheet is on the outer side of the composite member and the insulation sheet covers the at least one conductive portion. |
| US08502212B2 |
Organic light emitting diode segment
The invention relates to an organic light emitting diode segment (100) comprising two organic light emitting diodes (102; 104), wherein the organic light emitting diodes are vertically stacked with their conducting directions pointing in opposed directions, wherein in the stack the organic light emitting diodes (102; 104) are electrically connected to each other by a common shared electrode (112). |
| US08502204B2 |
Optoelectronic module
An optoelectronic module includes a layer structure having a plurality of semiconductor layers including a substrate layer, a first layer arrangement and a second layer arrangement, wherein 1) the first layer arrangement has a light-emitting layer arranged on the substrate layer, 2) the second layer arrangement contains at least one circuit that controls an operating state of the light-emitting layer, and 3) the second layer arrangement is arranged on the substrate layer and/or surrounded by the substrate layer. |
| US08502199B2 |
Blue-shifted triarylamine polymer
A semiconductive conjugated polymer comprising a first repeat unit comprising general formula I: where Ar1, Ar3, and Ar5 are the same or different and wherein each represents an optionally substituted aryl or heteroaryl group; Ar2 and Ar4 are the same or different and each represent a substituted aryl or heteroaryl group; and Ar2 and Ar4 sterically interact with one another so as to cause an increase in the bandgap of the polymer. |
| US08502194B2 |
Light-emitting device
A light-emitting device and the method for making the same is disclosed. The light-emitting device is a semiconductor device, comprising a growth substrate, an n-type semiconductor layer, a quantum well active layer and a p-type semiconductor layer. It combines the holographic and the quantum well interdiffusion (QWI) to form a photonic crystal light-emitting device having a dielectric constant of two-dimensional periodic variation or a material composition of two-dimensional periodic variation in the quantum well active layer. The photonic crystal light-emitting devices can enhance the internal efficiency and light extraction efficiency. |
| US08502193B2 |
Light-emitting device and fabricating method thereof
Disclosed are a light emitting device and a method of manufacturing the same. The light emitting device includes a support substrate, a wafer bonding layer over the support substrate, a second electrode layer, which includes a current blocking layer and a reflective current spreading layer, over the wafer bonding layer, a current injection layer over the second electrode layer, a superlattice structure layer over the current injection layer, a second conductive semiconductor layer over the superlattice structure layer, an active layer over the second conductive semiconductor layer, a first conductive semiconductor layer over the active layer, and a first electrode layer over the first conductive semiconductor layer. |
| US08502191B2 |
Semiconductor device, manufacturing method therefor, and solar cell
A semiconductor device includes: a silicon layer (12); an intermediate silicide layer (28) that is provided on the silicon layer (12), has openings, and includes barium silicide; and an upper silicide layer (14) that covers the intermediate silicide layer (28), is positioned to be in contact with the silicon layer (12) through the openings, has a higher dopant concentration than the dopant concentration of the intermediate silicide layer (28), and includes barium silicide. |
| US08502188B2 |
Electrically actuated device
An electrically actuated device includes a first electrode and a second electrode crossing the first electrode at a non-zero angle, thereby forming a junction therebetween. A material is established on the first electrode and at the junction. At least a portion of the material is a matrix region. A current conduction channel extends substantially vertically between the first and second electrodes, and is defined in at least a portion of the material positioned at the junction. The current conduction channel has a controlled profile of dopants therein. |
| US08502183B2 |
Semiconductor memory device including memory cell having rectifying element and switching element
According to one embodiment, a semiconductor memory device includes a first conductive line, a second conductive line, a rectifying element, a switching element, a first side wall film and a second side wall film. The first conductive line extends in a first direction. The second conductive line extends in a second direction crossing the first direction. The rectifying element is connected between the first and second conductive lines. The switching element is connected in series with the rectifying element between the first and second conductive lines. The first side wall film is formed on a side surface of the rectifying element. The second side wall film is formed on a side surface of at least one of the first and second conductive lines. At least one of a film type and a film thickness of the second side wall film is different from that of the first side wall film. |
| US08502180B2 |
Apparatus and method having dual sensor unit with first and second sensing fields crossed one another for scanning the surface of a moving article
An apparatus and method for scanning a surface of an article moving along a travel path axis provide a compact sensor configuration. A first sensor unit has a first sensing field transversely directed toward the travel path axis and defining a first scanning zone. A second sensor unit has a second sensing field transversely directed toward the travel path axis and defining a second scanning zone. The first and second sensing fields are crossing one with another at a location sufficiently remote from the first and second scanning zones so as to not adversely affect the generation of sensor output data, while providing a compact arrangement of sensor units. |
| US08502175B2 |
Charged particle beam pattern forming apparatus and charged particle beam pattern forming method
A charged particle beam pattern forming apparatus, includes a charge amount distribution calculation unit configured to calculate a charge amount distribution charged by vertical incidence of a charged particle beam on a pattern forming region of a target object; a position correction unit configured to calculate, using the charge amount distribution charged, a corrected position of each pattern forming position corrected for a misregistration amount including a misregistration amount dependent on a deflection position where the charged particle beam is deflected, the misregistration amount caused by an amount of charge; and a pattern generator configured to form a pattern in the corrected position by using the charged particle beam. |
| US08502174B2 |
Method of and system for exposing a target
The invention relates to a method of exposing a target by means of a plurality of beamlets. First, a plurality of beamlets is provided. The beamlets are arranged in an array. Furthermore, a target to be exposed is provided. Subsequently, relative movement in a first direction between the plurality of beamlets and the target is created. Finally, the plurality of beamlets is moved in a second direction, such that each beamlet exposes a plurality of scan lines on the target. The relative movement in the first direction and the movement of the plurality of beamlets in the second direction are such that the distance between adjacent scan lines exposed by the plurality of beamlets is smaller than a projection pitch Pproj,X in the first direction between beamlets of the plurality of beamlets in the array. |
| US08502169B2 |
Device for the exalted detection of the emission of a target particle
The invention relates to a device (1) for detecting the emission of a target particle (6) at an emission wavelength, said device comprising: a photo-detector (2, 2A, 2B) comprising a sensitive detection surface having a high optical index; wherein said target particle (6) can be positioned in the vicinity of said sensitive surface in an analysis medium (13) having a low optical index; said device being characterized in that it further comprises: a mask (3) covering said sensitive surface, said mask including at least one area (4) opaque at said emission wavelength and at least one hole (5), said hole being capable of receiving the target particle; and in that the mask includes at least one interface; 7 said device further comprising at least one groove (10, 10A, 10B) provided at said interface, each of said at least one groove surrounding each of said at least one hole. |
| US08502168B1 |
Substance detection, inspection and classification system using enhanced photoemission spectroscopy
A handheld or portable detection system with a high degree of specificity and accuracy, capable of use at small and substantial standoff distances (e.g., greater than 12 inches) is utilized to identify specific substances and mixtures thereof in order to provide information to officials for identification purposes and assists in determinations related to the legality, hazardous nature and/or disposition decision of such substance(s). The system uses a synchronous detector and visible light filter to enhance detection capabilities. |
| US08502162B2 |
Atmospheric pressure ionization apparatus and method
An atmospheric pressure ionization apparatus includes a chamber, an ion inlet structure, an electrode, a sample emitter, and a gas passage. The ion inlet structure includes a sampling orifice. The electrode includes an electrode bore. An ionization region is defined between the ion inlet structure and the electrode. The flared structure is coaxially disposed about the ion inlet structure, and extends along an outward direction that includes a radial component relative to the sampling axis. The sample emitter is oriented at an angle to the sampling axis for directing a sample stream toward the ionization region. The gas passage directs a stream of gas from a gas source to the chamber. The flared structure and the wall cooperatively form an outward-directed portion of the gas passage that extends annularly about the sampling axis and along the outward direction. The gas flows through the outward-directed portion, around the flared structure, and toward the ionization region and the electrode bore. |
| US08502160B2 |
Beam control assembly for ribbon beam of ions for ion implantation
A beam control assembly to shape a ribbon beam of ions for ion implantation includes a first bar, second bar, first coil of windings of electrical wire, second coil of windings of electrical wire, first electrical power supply, and second electrical power supply. The first coil is disposed on the first bar. The first coil is the only coil disposed on the first bar. The second bar is disposed opposite the first bar with a gap defined between the first and second bars. The ribbon beam travels between the gap. The second coil is disposed on the second bar. The second coil is the only coil disposed on the second bar. The first electrical power supply is connected to the first coil without being electrically connected to any other coil. The second electrical power supply is connected to the second coil without being electrically connected to any other coil. |
| US08502155B2 |
Pixilated radiation sensing device
A radiation sensing device subdivided in N*M pixels, comprising: a conversion part to convert an impinging radiation into an electrical signal, a processing part having: for each pixel, at least two counters associated to different regions, so that a ratio of counters to pixels is at least equal to 2, an arbitration circuit which, for each pixel: receives detection information from the pixel and neighbouring pixels, taking into account detection information for the pixel and neighbouring pixels, allocates a detection value to an elected counter. |
| US08502153B2 |
Methods, systems and devices for crosstalk measurement and cancellation in optical proximity sensors
An optical proximity sensor and corresponding methods of measuring crosstalk in the sensor are disclosed. The amount of crosstalk generated between the light emitter and the light detector of an optical proximity sensor is measured and quantified according to one of two methods. The measured crosstalk may then be stored in a register or memory location and then subtracted from signals representative of signals indicative of the nearby presence of an object to be detected combined with crosstalk, thereby removing so the contribution or effect of crosstalk on such signals. |
| US08502151B2 |
Optical proximity sensor package with lead frame
Various embodiments of an optical proximity sensor having a lead frame and no overlying metal shield are disclosed. In one embodiment, a light emitter and a light detector are mounted on a lead frame comprising a plurality of discrete electrically conductive elements having upper and lower surfaces, at least some of the elements not being electrically connected to one another. An integrated circuit is die-attached to an underside of the lead frame. An optically-transmissive infrared pass compound is molded over the light detector and the light emitter and portions of the lead frame. Next, an optically non-transmissive infrared cut compound is molded over the optically-transmissive infrared pass compound to provide an optical proximity sensor having no metal shield but exhibiting very low crosstalk characteristics. |
| US08502148B2 |
Single particle QCL-based mid-IR spectroscopy system with analysis of scattering
This disclosure concerns a system with scattering analysis including a handling system that presents a single particle to at least one quantum cascade laser (QCL) source. The QCL laser source is configured to deliver light to the single particle in order to induce resonant mid-infrared absorption in the particle or an analyte within the particle. A mid-infrared detection facility detects the mid-infrared wavelength light scattered by the single particle, wherein a wavelength and angle analysis of the scattered mid-IR wavelength light is used to determine analyte-specific structural and concentration information. |
| US08502147B2 |
Microbolometer detector layer
A microbolometer is disclosed, including a bottom dielectric of a bridge structure; a detector layer disposed above the bottom dielectric, the detector layer comprised of a metal-doped vanadium pentaoxide material; and a top dielectric disposed above the detector layer. |
| US08502144B2 |
Tool-to-tool matching control method and its system for scanning electron microscope
A system for controlling a tool-to-tool disparity between a plurality of scanning electron microscopes includes a measuring unit for measuring a tool-to-tool disparity between plural scanning electron microscopes based on information extracted from secondary electron images which are captured by imaging a reference pattern, a tool state monitoring unit for monitoring tool states of each of the plural scanning electron microscopes, and an output unit for displaying on a screen a relationship between the tool-to-tool disparity between the plural scanning electron microscopes and tool states of each of the plural scanning electron microscopes monitored by the tool state monitoring unit. The tool state monitoring unit monitors the tool states of each of the plural scanning electron microscopes while imaging the reference pattern by using each of the plural scanning electron microscopes. |
| US08502143B2 |
Method, device and system for measuring nanoscale deformations
A method is provided that includes the steps of i) providing a specimen in the form of a wafer having a measurement area and a reference area, assumed to be without deformations and coplanar with the measurement area; ii) illuminating one face of the specimen with an electron beam (Fin); iii) superposing a beam (F1B) of radiation diffracted by the measurement area (B) with a beam (F1A) of the radiation diffracted by the reference so as to cause these two beams to interfere; iv) measuring the spatial periodicity and the orientation of the fringes of the interference pattern (FI); and v) deducing from this a difference in the lattice parameter and/or the orientation between the reference and measurement areas, which is indicative of a state of deformation of the latter at the nanoscale. A device and system for implementing the method is also provided. |
| US08502141B2 |
Graphical user interface for use with electron beam wafer inspection
Because a mirror electron imaging type inspection apparatus for obtaining an inspection object image with mirror electrons has been difficult to optimize inspection conditions, since the image forming principles of the apparatus are different from those of conventional SEM type inspection apparatuses. In order to solve the above conventional problem, the present invention has made it possible for the user to examine such conditions as inspection speed, inspection sensitivity, etc. intuitively by displaying the relationship among the values of inspection speed S, inspection object digital signal image pixel size D, inspection object image size L, and image signal acquisition cycle P with use of a time delay integration method as a graph on an operation screen. The user can thus determine a set of values of a pixel size, an inspection image width, and a TDI sensor operation cycle easily with reference to the displayed graph. |
| US08502140B2 |
Single and multiple operating mode ion sources with atmospheric pressure chemical ionization
An Atmospheric Pressure Chemical Ionization (APCI) source interfaced to a mass spectrometer is configured with a corona discharge needle positioned inside the APCI inlet probe assembly. Liquid sample flowing into the APCI inlet probe is nebulized and vaporized prior to passing through the corona discharge region all contained in the APCI inlet probe assembly Ions produced in the corona discharge region are focused toward the APCI probe centerline to maximize ion transmission through the APCI probe exit. External electric fields penetrating into the APCI probe exit end opening providing additional centerline focusing of sample ions exiting the APCI probe. The APCI probe is configured to shield the electric field from the corona discharge region while allowing penetration of an external electric field to focus APCI generated ions into an orifice into vacuum for mass to charge analysis. Ions that exit the APCI probe are directed only by external electric fields and gas flow maximizing ion transmission into a mass to charge analyzer. The new APCI probe can be configured to operate as a stand alone APCI source inlet probe, as a reagent ion gun for ionizing samples introduced on solids or liquid sample probes or through gas inlets in a multiple function ion source or as the APCI portion of a combination Electrospray and APCI multiple function ion source. Sample ions and gas phase reagent ions are generated in the APCI probe from liquid or gas inlet species or mixtures of both. |
| US08502138B2 |
Integrated ion mobility spectrometer
An ion mobility spectrometer includes a plurality of substrates defining a measurement region for receiving a singular laminar gas flow without any carrier or sheath gas. The measurement region includes an ionization region that is continuous with a detection region. An ionizing electrode, which may include a plurality of asymmetric electrodes, produces ions in the gas sample within the ionization region. The ionizing electrode may apply a time varying voltage to the gas sample to generate a time dependent ion production. A field generating electrode generates an electric field to deflect the ions in the gas sample, and a detection electrode array detects the deflected ions within the detection region. A controller is configured to determine ion species based on the detection of ions by the detection electrode array. The detection electrode array may include a plurality of detection electrodes, and the controller may be configured to differentiate ion species based on which ions are detected by which one of the detection electrodes. |
| US08502129B2 |
Integrated remotely controlled photovoltaic system
Various methods and apparatus are described for an integrated remotely controlled photovoltaic system having a number of components. A central backend server management system is configured to facilitate management of two or more solar arrays at a remote site from a client device connected over a public wide area network (WAN). An integrated electronics housing contains multiple circuits, including power generation inverter circuits and solar array motion control circuits for one or more PhotoVoltaic (PV) solar arrays at the remote site. The multiple circuits cohesively exist in the integrated electronics housing and actually perform better because of the interconnectivity. The communication circuitry within the integrated electronics housing is configured to establish secure communications over the WAN with the central backend server management system. The integrated electronics housing acts as the local system control point for the first solar array. |
| US08502128B1 |
Dual-mode electro-optic sensor and method of using target designation as a guide star for wavefront error estimation
A dual-mode sensor uses the active guidance radiation as a “guide star” to generate a wavefront error estimate for the primary optical element in-situ without interfering with the generation of either the active guidance or passive imaging guidance signals. An array of optical focusing elements performs the normal function of spatially encoding an angle of incidence of the active guidance radiation at an entrance pupil onto an active imaging detector. The array also performs an additional function of spatially encoding wavefront tilt deviations emanating from sub-pupils of an exit pupil onto the active imaging detector. A processor processes the electrical signals from the imaging detector in accordance with the respective spatial encodings to generate an active guidance signal and the wavefront error estimate for the primary optical element. |
| US08502124B2 |
Reciprocating oscillating conveyor oven
A conveyor oven having an oven chamber with a single opening by which a food product enters and exits on a conveyor belt that is reversibly driven to convey the food product in and out of the oven chamber in a reciprocating manner. Also, the food is conveyed to a cooking position in an oscillating range within the oven chamber and then moved back and forth in the cooking range in an oscillatory manner within the oscillating range so as to prevent burning that would otherwise occur if left stationary. |
| US08502121B2 |
Radiofrequency welding apparatus
Apparatus and methods for radiofrequency (RF) welding are disclosed. RF power delivered to a welding platen of the apparatus is capacitively split into first and second RF power components of different magnitudes. The power components are simultaneously delivered to respective first and second die members to conduct an RF welding operation. |
| US08502117B2 |
Oven with external cooling, and use thereof
The invention relates to a method for preparing food, particularly in an aircraft, comprising of placing the food in a preparation space of an oven and heating the preparation space, wherein the outer side of the oven is cooled during the preparation. Cooling air can be forced for this purpose along the outer surface of the oven. This cooling air can also be forced through the oven, along the electronics present therein.The invention further relates to an oven, in particular for use in an aircraft, comprising a preparation space and means for heating the preparation space, and means for cooling the outer side of the oven. These cooling means can be adapted to force cooling air along the outer surface of the oven, and can in addition be adapted to force the cooling air through or along an electronics compartment in the oven. |
| US08502114B2 |
AC pulse arc welding method
An AC pulse arc welding method of the present invention sets an appropriate AC frequency based on a wire feed rate and a polarity ratio when the polarity ratio is changed without changing the wire feed rate to control a heat input to a base material, and sets an appropriate straight polarity current value necessary for one drop per pulse from the polarity ratio and the AC frequency in AC pulse welding. The method makes it possible to achieve appropriate AC pulse welding by setting the polarity ratio, and to easily set the welding conditions. |
| US08502111B2 |
Laser woodworking machine
A laser woodworking machine for cutting wood is disclosed. The machine includes a laser cutting head having two sections structurally configured to include sensors for measurements of depth and of reflected frequencies, a laser unit for supplying power to the laser cutting head, a cabinet enclosure for housing the laser unit and including a table surface, a radial arm supported by a column secured to the inside rear portion of the cabinet enclosure and including a pair of radial supports extending perpendicularly from opposite sides of the column and parallel to each other, and a glider carriage secured to the radial supports and including two substantially flat surfaces above and below the radial supports so that the glider carriage slides along the radial supports via sleeves, the glider carriage further comprising support for the laser cutting head so that the laser cutting head is moveable along the radial arm. |
| US08502093B2 |
Multidirectional operating switch
In a multidirectional operating switch, an operating body has a support having a spherically convex surface on the lower end of a central cylinder, and a holding base has a retainer having a spherically concave surface disposed opposite to the support. Through the movement of the support sliding over the retainer, the holding base retains the operating body rockably in multiple directions. The rotational center of the rocking movement of the operating body coincides with the position at which the push element is in contact with the push section disposed at the lower end of the operation button. |
| US08502090B2 |
Barrier for barrier connector
A barrier of foamed phenolic resin is provided for a barrier connector. In use, the barrier temporarily holds cables in place while a potting agent is used to permanently secure said cables within the barrier connector. |
| US08502088B2 |
Server enclosure
A server enclosure includes a housing, at least one cable, a partition board, and a sealing member. The partition board is securely received in the housing and defines a through hole through which the at least one cable passes. The sealing member plugs the through hole. The sealing member is made of elastic materials, and defines at least one elastic deformation portion through which the at least one cable passes and by which the at least one cable is clamped. |
| US08502087B2 |
Filler panel for air flow management
A filler panel for an electronics shelf is provided. The electronics shelf includes a plurality of slots each configured to receive an electronic device. The filler panel includes a non-conductive main body that includes a front wall, a back wall, a top wall, a bottom wall and a single side wall. The front wall, back wall, top wall and bottom wall are configured to fill a width of a slot of the electronics shelf. The side wall is configured to extend into a depth of the slot, The filler panel also includes an electromagnetic shielding portion comprising a conductive material that is coupled to the main body. The main body further includes one or more vents positioned in each of the top wall and the bottom wall, the vents configured to allow air flow though the main body. |
| US08502084B2 |
Semiconductor package including power ball matrix and power ring having improved power integrity
A semiconductor chip carrier having multiple conductive layers separated from each other by dielectric layers, a chip bonding position at an intermediate portion of a top surface of the semiconductor chip carrier, and a bonding region spaced apart from the chip bonding position. The bonding region includes a first bonding region closest to the chip bonding position, a second bonding region most distant from the chip bonding position, and a third bonding region positioned between the first bonding region and the second bonding region. The first bonding region, the second bonding region and the third bonding region are electrically insulated from each other and the first bonding region is configured to carry a first voltage, the second bonding region is configured to carry a second voltage and the third bonding region is configured to carry a third voltage that is less than the first voltage and less than the second voltage. |
| US08502081B2 |
Assembly substrate and method of manufacturing the same
The object of the present invention is to provide an assembly substrate which is easily handled and capable of suppressing occurrence of warpage, and offers high productivity and economic efficiency, and its manufacturing method. A work board 100 includes an insulating layer 21 on one surface of a substantially rectangular-shaped substrate 11, and electronic components 41 and a plate-like integrated frame 51 are embedded inside the insulating layer 21. The plate-like integrated frame 51 has a plurality of concave portions 53 arranged in parallel at its inner periphery wall 52a, and arranged on a non-placing area of the electronic components 41 so as to surround a plurality of the electronic components 41 (groups). |
| US08502080B2 |
Flexible printed circuit board with waterproof structure
A flexible printed circuit board with waterproof structure includes a flexible substrate that has a first surface having a first metal layer bonded thereon. The first metal layer forms a covered area and at least one mounting zone. A bonding strength enhancing structure is formed on the mounting zone. A first insulation layer is formed on the covered area of the upper surface of the first metal layer in such a way to expose the mounting zone. A water resistant member is bonded to the bonding strength enhancing structure and a second surface of the flexible substrate. |
| US08502075B2 |
Heater cable to pump cable connector and method of installation
The connector arrangement attaches the electrical conductors of a standard electrical submersible pump (ESP) cable to a mineral insulated (MI) resistance heater cable for use in oil and gas wells by conductively joining one or more of the electrical conductors of the ESP cable to a cold lead of the MI heater cable within an insulated sleeve covered and sealed within a protective cover. The connector thereby allows the MI heater cable and ESP pump cable to be joined to production tubing and then lowered into the well bore to the desired location. |
| US08502071B2 |
Cable drop system
The present invention is directed toward a sealing assembly in a cable drop system. The sealing assembly includes a base mounted to a network cabinet and a cover hingedly connected to the base. The sealing assembly also includes a lower sleeve and an upper sleeve. The lower sleeve and the upper sleeve wrap around the cables passing through an opening in the cable drop system. The lower sleeve includes a top portion and a bottom portion. The bottom portion of the lower sleeve is connected to the base and the upper sleeve is positioned around the top portion of the lower sleeve to form the sealing assembly. |
| US08502069B2 |
Protective cover
A protective cover for lengths of materials used in environments in which the lengths of material are moved and pulled around and subjected to abrasion, chemicals, and weather extremes. The protective cover includes a sleeve that surrounds the length of material to be protected. The sleeve has open ends and is formed of a fabric made substantially of high performance yarns. |
| US08502067B2 |
Method of manufacturing solar cell electrode and conductive paste
The present invention relates to a method of manufacturing a solar cell electrode, comprising: preparing a semiconductor substrate having a preformed electrode on a front side, a back side, or both of the front and the back side of the semiconductor substrate; applying a conductive paste onto the preformed electrode, wherein the conductive paste comprises a conductive powder, an amorphous saturated polyester resin with glass transitional temperature (Tg) of 50° C. or lower, and an organic solvent; drying the applied conductive paste; putting a tab electrode on the dried conductive paste; and soldering the tab electrode. |
| US08502066B2 |
High haze transparent contact including insertion layer for solar cells, and/or method of making the same
Certain example embodiments of this invention relate to a front transparent conductive electrode for solar cell devices (e.g., amorphous silicon or a-Si solar cell devices), and/or methods of making the same. Advantageously, certain example embodiments enable high haze to be realized in the top layer of the thin film stack. In certain example embodiments, an insertion layer comprising ITO or AZO is provided between a layer of AZO and a layer of ITO. The AZO may be deposited at room temperature. The insertion layer is provided with an oxygen content selected so that the insertion layer sufficient to alter the crystalline growth of the layer of AZO compared to a situation where no insertion layer is provided. In certain example embodiments, the layer of ITO may be ion-beam treated so as to roughen a surface thereof. The ion beam treating may be performed a voltage sufficient to alter the crystalline growth of the layer of AZO compared to a situation where no insertion layer is provided. |
| US08502065B2 |
Photovoltaic device including flexible or inflexibel substrate and method for manufacturing the same
Disclosed is a photovoltaic device. The photovoltaic device includes: a first electrode and a second electrode; a first unit cell and a second unit cell which are placed between the first electrode and the second electrode and include a first conductive semiconductor layer, an intrinsic semiconductor layer and a second conductive semiconductor layer; and an intermediate reflector which is placed between the first unit cell and the second unit cell, and includes a hydrogenated amorphous carbon layer. |
| US08502064B2 |
Hybrid system for generating power
A hybrid system for generating electrical power. The hybrid system includes a photovoltaic array for collecting and converting solar radiation into electrical power, an apparatus for producing power from a source of liquid fuel, the apparatus including at least one capillary flow passage, the at least one capillary flow passage having an inlet end and an outlet end, the inlet end in fluid communication with the source of liquid fuel, a heat source arranged along the at least one capillary flow passage, the heat source operable to heat the liquid fuel in the at least one capillary flow passage to a level sufficient to change at least a portion thereof from a liquid state to a vapor state and deliver a stream of substantially vaporized fuel from the outlet end of the at least one capillary flow passage, a combustion chamber in communication with the outlet end of the at least one capillary flow passage and a conversion device operable to convert heat released by combustion in the combustion chamber into electrical power, and a storage device electrically connected to the photovoltaic array and the conversion device for storing the electrical power produced by the photovoltaic array and the conversion device. |
| US08502058B2 |
System and method for controlling audio equipment
An apparatus for signal processing, wherein a disc is placed on a turntable and is provided with a groove which can be followed by the pick-up element, and employing a time-code signal wherein during use of the disc the said time-code signal controls the digital audio source. |
| US08502056B2 |
Method and apparatus for generating and updating a pre-categorized song database from which consumers may select and then download desired playlists
Apparatus, methods, systems, and data structures for providing a music-subscription service customer with a portable music device that has been preloaded with customer-selected music. A music-subscription service provider receives a customer order to purchase a portable music device, and also receives the customer's selection of less than all of the music available on the music-subscription service provider's music database. The music-subscription service provider uses a computer to download the customer-selected music to the portable music device ordered by the customer. The music-subscription service provider then provides to the customer the portable music device that has been preloaded with the customer-selected music. The steps may be performed over the Internet and/or at a retail location. |
| US08502055B2 |
Method and system for presenting a musical instrument
A system that incorporates teachings of the present disclosure may include, for example, a method for presenting a first portion of the simulated musical instrument on a first presentation device, presenting a second portion of the simulated musical instrument on a second presentation device, presenting at the first presentation device a demonstrative stimulus directed to the first portion, and further presenting at least a portion of the musical score with an indicator providing instruction for stimulating the second portion according to the portion of the musical score where the indicator is located, detecting a stimulus directed to the second portion, and presenting an audible sound corresponding to the demonstrative stimulus directed to the first portion and the stimulus directed to the second portion. Other embodiments are disclosed. |
| US08502049B2 |
Plants and seeds of corn variety CV849932
According to the invention, there is provided seed and plants of the corn variety designated CV849932. The invention thus relates to the plants, seeds and tissue cultures of the variety CV849932, and to methods for producing a corn plant produced by crossing a corn plant of variety CV849932 with itself or with another corn plant, such as a plant of another variety. The invention further relates to corn seeds and plants produced by crossing plants of variety CV849932 with plants of another variety, such as another inbred line. The invention further relates to the inbred and hybrid genetic complements of plants of variety CV849932. |
| US08502042B2 |
Plants and seeds of hybrid corn variety CH117581
According to the invention, there is provided seed and plants of the hybrid corn variety designated CH117581. The invention thus relates to the plants, seeds and tissue cultures of the variety CH117581, and to methods for producing a corn plant produced by crossing a corn plant of variety CH117581 with itself or with another corn plant, such as a plant of another variety. The invention further relates to genetic complements of plants of variety CH117581. |
| US08502033B1 |
Soybean cultivar 11374861
A soybean cultivar designated 11374861 is disclosed. The invention relates to the seeds of soybean cultivar 11374861, to the plants of soybean cultivar 11374861, to the plant parts of soybean cultivar 11374861, and to methods for producing progeny of soybean cultivar 11374861. The invention also relates to methods for producing a soybean plant containing in its genetic material one or more transgenes and to the transgenic soybean plants and plant parts produced by those methods. The invention also relates to soybean cultivars or breeding cultivars, and plant parts derived from soybean cultivar 11374861. The invention also relates to methods for producing other soybean cultivars, lines, or plant parts derived from soybean cultivar 11374861, and to the soybean plants, varieties, and their parts derived from use of those methods. The invention further relates to hybrid soybean seeds, plants, and plant parts produced by crossing cultivar 11374861 with another soybean cultivar. |
| US08502032B1 |
Soybean cultivar 14333215
A soybean cultivar designated 14333215 is disclosed. The invention relates to the seeds of soybean cultivar 14333215, to the plants of soybean cultivar 14333215, to the plant parts of soybean cultivar 14333215, and to methods for producing progeny of soybean cultivar 14333215. The invention also relates to methods for producing a soybean plant containing in its genetic material one or more transgenes and to the transgenic soybean plants and plant parts produced by those methods. The invention also relates to soybean cultivars or breeding cultivars, and plant parts derived from soybean cultivar 14333215. The invention also relates to methods for producing other soybean cultivars, lines, or plant parts derived from soybean cultivar 14333215, and to the soybean plants, varieties, and their parts derived from use of those methods. The invention further relates to hybrid soybean seeds, plants, and plant parts produced by crossing cultivar 14333215 with another soybean cultivar. |
| US08502021B2 |
Plants and seeds of hybrid corn variety CH157635
According to the invention, there is provided seed and plants of the hybrid corn variety designated CH157635. The invention thus relates to the plants, seeds and tissue cultures of the variety CH157635, and to methods for producing a corn plant produced by crossing a corn plant of variety CH157635 with itself or with another corn plant, such as a plant of another variety. The invention further relates to genetic complements of plants of variety CH157635. |
| US08502020B1 |
Maize variety hybrid X03B509
A novel maize variety designated X03B509 and seed, plants and plant parts thereof, produced by crossing Pioneer Hi-Bred International, Inc. proprietary inbred maize varieties. Methods for producing a maize plant that comprises crossing hybrid maize variety X03B509 with another maize plant. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X03B509 through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby. This invention relates to the maize variety X03B509, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X03B509. This invention further relates to methods for producing maize varieties derived from maize variety X03B509. |
| US08502019B2 |
Methods for producing a hybrid seed product
A method for increasing production of hybrid seed of bee-pollinated crops, such as alfalfa and soybean at predetermined hybridity levels. Hybrid seed is produced using female and pollenizer plants at a selected ratio of female plants to pollenizer plants. The female plants and the pollenizer plants are intermingled in the hybrid seed production field. Prediction of percentage of hybridity at various female to pollenizer ratios allows for selection of a ratio of female plants to pollenizer plants to provide seed at a test percentage of hybridity. The percentage of hybridity may be increased post-harvest by employing techniques using seed properties such as size differential, color or density to remove a higher percentage of non-hybrid seed. The hybrid seed product is maximized at various hybridity levels. Planting according to subrows allows for separate harvesting of intermingled crops. Testing the hybrid seed product provides verification of percentage of hybridity. |
| US08502014B2 |
Method for the production of a single heavy chain antibody
The present invention relates to a method for the generation of single chain immunoglobulins in a mammal. In particular, the present invention relates to a method for the generation of single chain camelid VHH antibodies in a mammal which undergo the process of class-switching and affinity maturation found within antibody producing B cells. Single chain antibodies generated using the method of the present invention and the uses thereof are also described. |
| US08502013B2 |
Disposable absorbent article
An absorbent article that can be a sanitary napkin. The absorbent article comprises a topsheet joined to a backsheet and has an absorbent core material disposed therebetween, the absorbent core material being a fibrous absorbent material exhibiting on one side thereof discrete raised portions. The raised portions define a continuous network of channels, the channels defining a void region adjacent the topsheet of the sanitary napkin. |
| US08502012B2 |
Absorbent structures including coated absorbent material
An absorbent layer containing water-absorbing polymeric particles that are surface-treated and that are immobilized by a matrix, formed from a thermoplastic adhesive component, including a thermoplastic polymers and a specific plasticizer, and being free of low weight average molecular weight (e.g. below 1000, or below 2000 or even below 3000 g/mole) tackifiers and plasticizers. The absorbent articles may for example be adult incontinence articles, infant (e.g. baby, toddler) diapers, including training pants, and feminine hygiene articles, such as sanitary napkins. |
| US08502011B2 |
Absorbent article and method of manufacturing the absorbent article
An absorbent article according to the present invention includes: a water-decomposable top sheet, a water-decomposable back sheet; and a water-decomposable absorber placed between the top sheet and the back sheet. The back sheet is formed of multiple sheet pieces each being smaller than a main body of the absorbent article, and each sheet piece at least partially overlapping adjacent one or more of the other sheet pieces. In addition, an adhesive is applied to each overlapping region where adjacent two of the sheet pieces overlap each other. |
| US08502009B2 |
Matrix material comprising graphite and an inorganic binder suited for final disposal of radioactive waste, a process for producing the same and its processing and use
A matrix material for safe temporary and/or ultimate disposal of radioactive wastes suitable for the embedment of radioactive wastes, contains graphite and at least inorganic binder which can be glass, aluminosilicate, silicate, borate and lead sulfide. |
| US08502004B2 |
Process for evaluating a refinery feedstock
Process for evaluating the effect of a refinery feedstock on a refinery process by (i) providing a refinery feedstock (ii) treating the refinery feedstock to produce a plurality of fractions each representative of a feedstock for the refinery process, the plurality of fractions having at least two fractions with different properties; (iii) treating each of the plurality of fractions under experimental conditions representative of those in the refinery process, the treatments being carried out in an essentially parallel manner; and (iv) determining one or more performance criteria for each fraction for the refinery process by analyzing the respective product streams produced from each fraction at least partially in parallel. |
| US08502001B2 |
Process for the production of alcohol from a carbonaceous feedstock
Process for the conversion of ethanoic acid into ethanol by (a) introducing ethanoic acid and H2 into a primary hydrogenation unit in the presence of a precious metal-based catalyst to produce ethanol and ethyl ethanoate and (b) introducing ethyl ethanoate, from step (a), together with H2 into a secondary hydrogenation unit in the presence of a copper-based catalyst to produce ethanol. Ethanol from step (b) is recovered. |
| US08501997B2 |
Curing agent for low temperature cure applications
The present invention discloses both amine compositions and amine-epoxy compositions containing N,N′-dimethyl-meta-xylylenediamine. A novel process for producing amines such as N,N′-dimethyl-meta-xylylenediamine, and structurally similar amines, is also disclosed. |
| US08501990B2 |
Process for the production of acetic acid
A process for the reduction and/or removal of permanganate reducing compounds formed by the carbonylation of methanol in the presence of a Group VIII metal carbonylation catalyst to produce acetic acid is disclosed. More specifically, a process for reducing and/or removing permanganate reducing compounds or their precursors from intermediate streams during the formation of acetic acid by said carbonylation processes is disclosed. In particular, a process in which a low boiling overhead vapor stream from a light ends column is subjected to a single distillation to obtain an overhead that is subjected to an extraction to selectively remove and/or reduce PRC's from the process is disclosed. |
| US08501987B2 |
Process for production of glycolic acid
Process for producing glycolic acid by contacting carbon monoxide and formaldehyde, optionally in the presence of a solvent, with a catalyst including a solid acid. The solid acid is an acidic polyoxometalate compound insoluble in formaldehyde, glycolic acid and the optional solvent, and has a concentration of acid sites of greater than 60 μmol g−1 on the external surface and/or a Hammett Acidity value of less than −12.8. |
| US08501985B2 |
Use of phosphonium salts in coupling reactions and process for their manufacture
The object of the present invention is the use of phosphonium salts in coupling reactions, and a method for their preparation. |
| US08501983B2 |
Composition having HASE rheology modifiers
A monomer compound that contains at least one polymerizable functional group per molecule, and at least one bicycloheptyl-, bicycloheptenyl-, or branched (C5-C42)alkyl-polyether radical per molecule, wherein the bicycloheptyl- or bicycloheptenyl-polyether radical may optionally be substituted on one or more of the ring carbon atoms by one or two (C1-C6)alkyl groups per ring carbon atom is useful in making polymers, particularly pH responsive polymers. |
| US08501976B2 |
Scalable lead zirconium titanate (PZT) thin film material and deposition method, and ferroelectric memory device structures comprising such thin film material
A novel lead zirconium titanate (PZT) material having unique properties and application for PZT thin film capacitors and ferroelectric capacitor structures, e.g., FeRAMs, employing such thin film material. The PZT material is scalable, being dimensionally scalable, pulse length scalable and/or E-field scalable in character, and is useful for ferroelectric capacitors over a wide range of thicknesses, e.g., from about 20 nanometers to about 150 nanometers, and a range of lateral dimensions extending to as low as 0.15 μm. Corresponding capacitor areas (i.e., lateral scaling) in a preferred embodiment are in the range of from about 104 to about 10−2 μm2. The scalable PZT material of the invention may be formed by liquid delivery MOCVD, without PZT film modification techniques such as acceptor doping or use of film modifiers (e.g., Nb, Ta, La, Sr, Ca and the like). |
| US08501975B2 |
Method for manufacturing ruthenium carbene complexes
A method of manufacturing ruthenium carbene complexes and novel aryl alkylidene ruthenium complexes based on the method, the complexes able to used as catalysts in metathesis reactions. |
| US08501972B2 |
Solid fatty alkyl ester sulfonate metal salt and method for producing powder thereof with sharp particle size distribution
A solid fatty acid alkyl ester sulfonate metal salt is disclosed having an endothermic peak area between 50° C. and 130° C. of 50% or more relative to the whole endothermic peak area between 0° C. and 130° C. when determined using a differential scanning calorimter. A method for producing a fatty acid alkyl ester sulfonate metal salt powder is also disclosed, including a step of pulverizing the solid fatty acid alkyl ester sulfonate metal salt in a pulverizer, with the internal temperature of the pulverizer being adjusted to 30° C. to 50° C. |
| US08501968B2 |
Antitumoral dihydropyran-2-one compounds
Antitumoral compounds obtained from a porifera, of the family Raspailiidae, genus Lithoplocamia, species lithistoides, and derivatives thereof are provided. |
| US08501960B2 |
Saxagliptin intermediates, saxagliptin polymorphs, and processes for preparation thereof
The invention provides Saxagliptin Schiff bases, polymorphs of Saxagliptin and (1S,3S,5S)-2-[(2S)-2-propan-2-ylideneamino-2-(3-hydroxy-1-adamantyl)acetyl]-2-azabicyclo[3.1.0]hexane-3-carbonitrile, processes for preparing Saxagliptin hydrates, and pharmaceutical compositions thereof. |
| US08501956B2 |
Benzimidazole compounds
Provided are compounds having Formula VIIIa-1: wherein Z, X5, R2, R2a and R10 are as defined herein. Compounds of Formula VIIIa-1 can be used to prepare heterocyclic derivatives such as benzimidazole derivatives. |
| US08501953B2 |
PKM2 modulators for use in the treatment of cancer
Compounds that modulate pyruvate kinase M2 (PKM2) are described herein. Also described herein are pharmaceutical compositions comprising the compounds, and methods of using the compounds in the treatment of cancer. |
| US08501952B2 |
Fluoroalkyl silanes
The present invention is directed to a fluorosilane represented by (L)3-Si—(CH2)n—N(-Q3-Rf)-Q1-Rf where each n is independently an integer from 1 to 12; L is independently chosen from a hydrolysable or non-hydrolysable monovalent group Rf is chosen from a C2-C12 perfluoroalkyl provided that: i) one fluorine atom of the perfluoroalkyl can be optionally replaced by hydrogen, and/or ii) the perfluoroalkyl can be optionally interrupted by at least one oxygen, methylene, or ethylene; Q1 is chosen from the group consisting of a C2-C12 hydrocarbylene optionally interrupted by at least one divalent organic group; X1 is chosen from O or S; and b) Q1 and Q3 are independently chosen from the group consisting of a C2-C12 hydrocarbylene interrupted by at least one of —C(O)—O— or —O—C(O)—, and optionally further interrupted by at least one divalent organic group. |
| US08501949B2 |
Tetomilast polymorphs
The present invention provides a tetomilast crystal that is industrially easily produced in a large volume. (1) a tetomilast hydrate crystal having a powder X-ray diffraction spectrum that is substantially the same as the powder X-ray diffraction spectrum shown in FIG. 2; (2) an anhydrous tetomilast type A crystal having a powder X-ray diffraction spectrum that is substantially the same as the powder X-ray diffraction spectrum shown in FIG. 4; (3) an anhydrous tetomilast type C crystal having a powder X-ray diffraction spectrum that is substantially the same as the powder X-ray diffraction spectrum shown in FIG. 8; (4) a tetomilast acetonitrile solvate crystal having a powder X-ray diffraction spectrum that is substantially the same as the powder X-ray diffraction spectrum shown in FIG. 10; and (5) a mixture consisting of the above anhydrous tetomilast type A crystal and an anhydrous tetomilast type B crystal. These crystals are stable towards heat and moisture, and are also excellent in terms of the disintegration property and dissolution property of tablets. Accordingly, these crystals are preferably used as pharmaceutical compositions. |
| US08501942B2 |
Polymerizable monomers
A monomer of formula (1) is provided wherein R1 is hydrogen or a monovalent C1-C6 hydrocarbon group, and R2 is a group having polymerization functionality. Using the monomer, crosslinking units can be incorporated into a polymer chain. A chemically amplified negative resist composition comprising a base polymer having crosslinking units incorporated therein has a high sensitivity and forms a resist pattern with minimized LER. |
| US08501939B2 |
Triazines and pyrimidines as protein binding ligands
Compounds of the general formula (I): in which inter alia Q1 represents —NR1R3, —OR1 or —SR1 and Q2 represents —NR2R4, —OR2 or —SR2, and A represents the point of attachment to a support matrix, are useful as protein binding ligands when (a) at least one of R1, R2, R3 and R4 includes an alkyl group —CnH2n+1 in which n is greater than or equal to 7; (b) at least two of R1, R2, R3 and R4 independently include an alkyl group —CnH2n+1 or a cycloalkyl group —CnH2n−1 in which n is greater than or equal to 4; or (c) at least three of R1, R2, R3 and R4 independently include a C1-12 alkyl group substituted by —NR5R6 or aryl. |
| US08501938B2 |
Benzothiazole derivatives
Provided are compounds of formula I or II that are useful for the treatment of diseases related to the adenosine receptor. Also included are methods oftreating patients suffering from or susceptible to at least one symptom of abuse of dependence on, or withdrawal from at least one substance. |
| US08501937B2 |
Method of producing highly functionalized 1,3-diamino-propan-2-ols from solid support
The invention is directed to compounds and methods of synthesizing hydroxyethlamino amides and their use in treatment of aspartyl protease mediated diseases and conditions. |
| US08501936B2 |
Preparation and uses of 1,2,4-triazolo [1,5a] pyridine derivatives
This application relates to compounds of the general Formula I and salts thereof, wherein X, R1A, R1B, R2, R3, R4, and R5 are as defined herein. The application also relates to compositions and methods of treatment of hyperproliferative diseases or disorders. |
| US08501922B2 |
CIS reactive oxygen quenchers integrated into linkers
The present invention provides methods and compositions for performing illuminated reactions, particularly sequencing reactions, while mitigating and/or preventing photodamage to reactants that can result from prolonged illumination. In particular, the invention provides methods and compositions for incorporating photoprotective agents into conjugates comprising reporter molecules and nucleoside polyphosphates. |
| US08501920B2 |
Nucleic acid sequences encoding peptides with utrophin spectrin-like repeats
The present invention relates to compositions and methods for expressing mini-dystrophin peptides. In particular, the present invention provides compositions comprising nucleic acid sequences that are shorter than wild-type dystrophin cDNA and that express mini-dystrophin peptides that function in a similar manner as wild-type dystrophin proteins. The present invention also provides compositions comprising mini-dystrophin peptides, and methods for expressing mini-dystrophin peptides in target cells. |
| US08501919B2 |
Systems for the control and use of fluids and particles
The configuration of a feedstock material is controlled by bringing it into contact with at least a first gas moving against it at a location with an area and thickness of the feedstock liquid that forms drops or fibers of a selected size. In one embodiment, drops of agricultural input materials are formed for spraying on agricultural fields. In another embodiment, nanofibers of materials such as chitosan or metals are formed. In another embodiment seeds are planted with gel. |
| US08501916B2 |
Antibodies to matrix metalloproteinase 9
The present disclosure provides compositions and methods of use involving binding proteins, e.g., antibodies and antigen-binding fragments thereof, that bind to the matrix metalloproteinase-9 (MMP9) protein (MMP9 is also known as gelatinase-B), wherein the binding proteins comprise an immunoglobulin (Ig) heavy chain (or functional fragment thereof) and an Ig light chain (or functional fragment thereof). |
| US08501914B2 |
Recombinant protein S composition
A pharmaceutical agent for treating a disease such as inflammatory diseases, blood coagulation diseases associated with deficiency of Protein S has been required. The present invention provides a Protein S composition comprising recombinant Protein S molecules having complex type N-glycoside-linked sugar chains, wherein the Protein S has a higher binding activity to a receptor for advanced glycation end products (hereinafter referred to as “RAGE”) than native Protein S present in healthy human blood, and also has a higher ratio of sugar chains in which fucose is not bound to the complex type N-glycoside-linked sugar chains bound to Protein S than native Protein S present in healthy human blood. |
| US08501911B2 |
Methods of reducing inflammation and mucus hypersecretion
Methods and compounds for decreasing MARCKS-related inflammation and MARCKS-related mucus hypersecretion or decreasing MARCKS-related inflammation in a subject by the administration of a N-terminal myristoylated protein fragment of the N-terminal region of MARCKS protein or a peptide fragment thereof are disclosed. |
| US08501907B2 |
Immunoglobulin cleavage fragments as disease indicators and compositions for detecting and binding such
The invention relates to antibody compositions and use of the composition to detect disease processes associated with elaboration of proteases. The reagents are directed to assessing an IgG breakdown product that is the result of such proteolytic cleavage. The invention further relates to the use of a therapeutic immunospecific for IgG protease cleavage products to restore effector function to antibody compositions that are subject to protease cleavage. |
| US08501906B2 |
Compounds and methods for treating cancer
The present invention provides a method of treating cancer involving administering an insulin-like growth factor-1 receptor (IGF-1 receptor) agonist and an anti-cancer chemotherapeutic agent. Also provided are compounds for treating cancer comprising an IGF-1-receptor ligand coupled to an anti-cancer chemotherapeutic agent. Also provided are compounds for treating cancer comprising an insulin-receptor ligand coupled to an anti-cancer chemotherapeutic agent. |
| US08501903B2 |
Urea-bonded alkoxysilanes for use in sealants and adhesives
The invention relates to reactive, urea-bonded alkoxysilanes based on polyether block copolymers reacted with diisocyanate, said copolymers being of the structure B-An in which the central block B consists of polyoxytetramethylene, polyoxyethylene, polybutadiene, polyisoprene, polyacrylate, polymethacrylate, polyamide, polyurethane or polyester units and the blocks A consist of polyoxypropylene units, and to a method for producing such alkoxysilanes. Preparations containing one or more urea-bonded alkoxysilanes can be used as an adhesive, sealant or coating agent. |
| US08501902B2 |
Process for the polymerisation of thiophene or selenophene compounds
The invention relates to a process for coupling thiophene or selenophene compounds, in particular for preparing conjugated thiophene or selenophene polymers with high molecular weight and high regioregularity, and to novel polymers prepared by this process. The invention further relates to the use of the novel polymers as semiconductors or charge transport materials in optical, electrooptical or electronic devices including field effect transistors (FETs), thin film transistors (TFT), electroluminescent, photovoltaic and sensor devices. The invention further relates to FETs and other semiconducting components or materials comprising the novel polymers. |
| US08501900B2 |
Nylon resins and process
The disclosures herein relate to a polymer such as nylon 66, having low yellowness and excellent whiteness retention for applications in melt extrusion and injection molding where an increase in molecular weight is not desirable. The polymer is prepared with a phosphorus compound content, e.g., a sodium hypophosphite (SHP) content, in an amount of 150 to 300 ppm by weight. The presence of an “end cap” additive such as one selected from acetic acid, propionic acid, benzoic acid, or succinic acid, added at the start of polymerization, effectively mitigates undesired molecular weight gain. |
| US08501896B2 |
High temperature poly(aryl ether)s containing a phthalazinone moiety
A poly(phthalazinone sulfone) composition for molded articles having such characteristics as high temperature resistance, good electrical properties, good chemical and solvent resistance and toughness consists essentially of a polymer of formula (I): Cp-ZxA-Zy (I) wherein Z is a bisphenyl sulfone moiety of formula: (II): A is a phthalazinone moiety of formula (III): Cp is A, as defined above, or a biphenol moiety of formula (IV): x is an integer of at least 1; y is an integer of at least 1; and x+y=n, where n is an integer such that the polymer has a weight average molecular weight of about 20,000 to about 170,000, the composition comprising less than 5%, by weight, of low molecular weight oligomers; and having a glass transition temperature (Tg) from 225 to 305° C. |
| US08501895B2 |
Method for making alkoxy-modified silsesquioxanes and amino alkoxy-modified silsesquioxanes
A method is presented for making an amino alkoxy-modified silsesquioxane (amino AMS) comprising one or more compounds selected from the group consisting of an amino-AMS, an amino/mercaptan co-AMS, an amino/blocked mercaptan co-AMS, and mixtures of these. The use of solid strong cationic catalysts in this reaction system is advantageous because the catalyst remains as a solid throughout the reaction, allowing simplified separation of the solid catalyst from the soluble amino AMS or amino co-AMS products, resulting in total or near total recovery of the amino AMS or amino co-AMS products, as well as virtual total recovery of the catalyst for recycling. The use of the solid strong cationic catalysts is advantageous because it results in amino AMS products that are free of, or substantially free of, residual acid catalyst. |
| US08501894B2 |
Hydrosilyation of vinyl macromers with metallocenes
This invention relates to a process to functionalize polyolefins comprising contacting a metallocene catalyst with a hydrosilane, and one or more vinyl terminated polyolefins. This invention further relates to the hydrosilane-functionalized polyolefins produced thereby. |
| US08501893B2 |
Synthetic method for preparing dual curable silicone compositions
A synthetic method for preparing dual curable (e.g., thermal and light curable) silicone compositions is provided. The first step being a chemical modification of silanichydride bonds in cyclic siloxane monomer by the hydrosilylation reaction with acrylate-/methacrylate-containing allylic monomer. The second step being a ring-opening polymerization of the acrylate-/methacrylate-functionalized cyclic siloxane monomer with siloxane monomers using an oligosiloxane as a chain terminator. |
| US08501890B2 |
Copolymerizable methine and anthraquinone compounds and articles containing them
This invention relates to polymerizable ultraviolet light absorbers and yellow colorants and their use in ophthalmic lenses. In particular, this invention relates to polymerizable ultraviolet light absorbing methane compounds and yellow compounds of the methine and anthraquinone classes that block ultraviolet light and/or violet-blue light transmission through ophthalmic lenses. |
| US08501882B2 |
Use of hydrogen and an organozinc compound for polymerization and polymer property control
Methods of controlling polymerization reactions using a synergistic amount of hydrogen and an organozinc compound are disclosed. The resulting polymers have lower molecular weights and higher melt flow indices. |
| US08501879B2 |
Adhesive composition, adhesive sheet, semiconductor apparatus protection material, and semiconductor apparatus
A semiconductor apparatus adhesive composition having excellent adhesion properties when pressure-bonded and has excellent connection reliability and insulation reliability when hardened and an adhesive sheet using this adhesive composition. An adhesive composition including: (A) a silicone resin constituted of a repeating unit represented by the following general formula (1); (B) a thermosetting resin; and (C) a compound having a flux activity, where R1 to R4 represent univalent hydrocarbon groups having carbon numbers from 1 to 8, which are equal to or different from each other; each of l and m is an integer from 1 to 100; each of a, b, c, and d is 0 or a positive number and meets 0<(c+d)/(a+b+c+d)≦1.0; and each of X and Y is a bivalent organic group. |
| US08501877B2 |
Thermosetting compositions containing isocyanurate rings
The invention relates to thermosetting compositions containing isocyanurate ring(s) prepared through chain extension of an epoxy resin (a) with carboxyl-functional oligomers (b), which are the reaction product of polyols (i) containing one or more isocyanurate ring(s) and polycarboxylic acids or their anhydrides (ii). The polyols (i) containing one or more isocyanurate ring(s) can be prepared from the reactions of tris (2-hydroxyalkyl) isocyanurates with a modifier from a caprolactone or alkylene oxide, or glycidyl ester or glycidyl ether and mixtures thereof. The epoxy-functional thermosetting compositions containing an isocyanurate ring(s) can be further reacted with unsaturated acids, preferably (meth)acrylic acid, to obtain a curable polyacrylate. Both epoxy-functional isocyanurate and acrylate-functional isocyanurate thermosetting compositions can be further modified with a polyisocyanate to produce a composition that is useful as a reactive adhesive, binder or in other applications. |
| US08501876B2 |
Glass printing ink or lacquer of epoxy resin, other resin and photoinitiator
The invention relates to a glass printing ink and a glass printing lacquer comprising at least one pigment, at least one photoinitiator and at least two resins. One resin is an epoxy resin having an average molecular weight based on bisphenol A, diluted in a UV hardening monomer. Another resin is a resin which contains free functional amino, hydroxy, epoxy, acid, acid anhydride and/or acrylate groups. The invention also relates to the use of the glass printing ink and glass printing lacquer when printing a glass substrate and to a method for printing a glass substrate. |
| US08501875B2 |
Surface induced ring-opening polymerization and medical devices formed therefrom
The present disclosure relates to coated biodegradable materials having a reduced amount of residual catalysts and methods thereof. |
| US08501869B2 |
Block copolymer composition and hot-melt adhesive composition
Provided is a hot-melt adhesive composition which can be easily applied at a relatively low temperature, has a long open time, and also has high holding power. A hot-melt adhesive composition comprising a block copolymer composition which includes a block copolymer A and a block copolymer B, and a tackifying resin, wherein a weight ratio (A/B) of the block copolymer A and the block copolymer B is 25/75 to 90/10, and an aromatic vinyl monomer unit content of the block copolymer A is 41% or greater. |
| US08501868B2 |
Thermoplastic molding compositions with improved optical properties
The present invention relates to thermoplastic molding compositions having a mixture of (a) from 10 to 50% by weight of a methyl methacrylate polymer as component (A), from 20 to 60% by weight of a copolymer as component (B), and from 20 to 70% by weight of a graft copolymer as component (C). Component (C) is obtainable from components (c1) a core, (c2) a first graft shell, and (c3) a second graft shell. The second graft shell (c3) is obtainable via polymerization of a C1-C8-alkyl ester of methacrylic acid as component (c31) and a further vinylaromatic monomer as component (c32). Graft copolymer (C) is produced via emulsion polymerization and is isolated from the reaction mixture by precipitation resulting from shear. Also disclosed are processes for producing the molding compositions, the use of the molding compositions, and moldings obtainable from the molding compositions. |
| US08501867B2 |
Mixture based on a polyisocyanate and a solvent of ether ester type, aqueous emulsion obtained from this mixture and use of this emulsion for the manufacture of coatings and adhesives
The mixture of the invention comprises at least one cycloaliphatic polyisocyanate and at least one solvent comprising an ester function and an ether function. An aqueous emulsion can be obtained from this mixture which also comprises a compound bearing a function with a mobile hydrogen, selected from primary or secondary hydroxyl functions, phenol functions, primary and/or secondary amino functions, carboxylic functions and a thiol function or a compound containing precursor functions capable of freeing hydroxyl functions. The emulsion can be used for the manufacture of coatings on a substrate of cement, of wood or especially of leather, and also for the manufacture of adhesives. |
| US08501866B2 |
Colorant concentrates for thermoplastic biofiber composites
Color concentrates for thermoplastic biofiber composites are disclosed. The concentrates employ three factors to achieve concentrated delivery of color to the processing machine and excellent and substantially uniform dispersion of color in the processing machine: melt flow of the concentrate exceeding at least 4 g/10 min. using ASTM D-1238; pellet size of the concentrate such that at least 50 pellets weigh less than one gram; and weight percent of the colorant ingredients in the concentrate exceeding at least 30 weight percent. |
| US08501864B2 |
Insulating composition for an electric power cable
The present invention relates to an insulating composition for an electric power cable which comprises a polyolefin, an antioxidant, and a polar copolymer. Further, the present invention relates to an electric power cable comprising an insulating layer including a composition according to the present invention, and to the use of a polar copolymer for improving the storage stability, i.e. reducing the exudation of an antioxidant, in an insulating polymer composition. Thereby, said composition comprises polar monomer units in a comparatively small amount, e.g. in an amount of polar monomer units in the total polymer part of the composition from 1 to 100 micromol (1·10″6 to 100·106 mol) per gram of polymer in addition to an antioxidant. |
| US08501862B2 |
Extrusion agent based on a heterogeneous PVDF
The invention relates to an extrusion agent comprising: at least one heterogeneous PVDF (A), in other words a copolymer of VDF and at least one comonomer of VDF, comprising by weight at least 50%, advantageously at least 75%, of VDF which has a melting point Tm (expressed in ° C.)>172-549 m, preferably >1.1×(172-549 m), where m denotes the overall molar percentage of comonomer(s); and at least one interface agent (B), which are optionally diluted in a polyolefin (C). The heterogeneous PVDF preferably has a Tm of between 160 and 172° C. Advantageously it is also a VDF-HFP copolymer containing, by weight, from 88% to 92% of VDF and from 8% to 12% of HFP. The extrusion agent is used to reduce or eliminate the surface defects which arise during the extrusion of a thermoplastic resin (D). This resin may be a polyolefin, a styrenic resin, a polyester or a PVC. Optionally it may also be filled, i.e., may contain dispersed organic or inorganic particles. |
| US08501859B2 |
Rubber containing hydrophilic sorbitan monostearate and tackifying resin and tire with sidewall thereof
A carbon black reinforced rubber composition which contains hydrophilic sorbitan monostearate and specialized tackifying resin and a pneumatic rubber tire having a visually observable rubber component, such as for example a rubber sidewall, of said rubber composition. The surface of said rubber composition, namely the tire sidewall rubber component, in its uncured state contains said hydrophilic sorbitan monostearate on its surface together with said specialized tackifying resin to promote enhanced building tack and thereby counteract building tack loss by the sorbitan monostearate having been exposed to moisture (moisture exposed surface) during the processing of the rubber composition, particularly after its high shear processing such as, for example, extrusion. |
| US08501857B2 |
Abrasion resistant silicone coating composition, coated article, and making method
A silicone coating composition is provided comprising (A) a hydrolytic condensate obtained by (co)hydrolytic condensation of an alkoxysilane, (B) colloidal silica, (C) a urethane-modified vinyl polymer, (D) a curing catalyst, and (E) a solvent, the solid content of component (C) being 1 to 30% by weight based on the total solid content of components (A) and (B). The silicone coating composition can be coated and cured to an organic resin substrate without a need for primer, and the cured coating is abrasion resistant and transparent to visible light. |
| US08501851B2 |
Pre-accelerated resin composition
The present invention relates to a pre-accelerated resin composition comprising an unsaturated polyester resin and/or a vinyl ester resin, wherein the composition further comprises a. a copper salt, and b. a compound according to formula (1) in which R can be selected from H, optionally substituted C1-C20 alkyl, optionally substituted C6-C20 aryl, and wherein the copper is present in an amount of more than 0.1 mmol/kg resin. |
| US08501842B2 |
Polypropylene resin composition and molded article
Provided are a polypropylene resin composition which produces only a little mold staining at the time of molding, which is excellent in the stability against light and the molding processability, which has good balance between high rigidity and impact resistance, and which can give a molded article excellent in flow mark appearance and weld appearance when being processed into a molded article, and a molded article produced therefrom. The polypropylene resin composition of the present invention contains 99 to 60 parts by weight of propylene-based polymer (A), 1 to 40 parts by weight of inorganic filler (B) having an average particle diameter of 0.01 to 100 μm, and 0.05 to 5 parts by weight, per 100 parts by weight of the resin composition (I), of an hindered amine-type light stabilizer (C) which satisfies the specified requirements (a), (b) and (c), provided that the combined amount of the propylene-based polymer (A) and the inorganic filler (B) is 100 parts by weight. |
| US08501837B2 |
Tire having rubber component containing short fiber reinforcement with compatablizer
The invention relates to a tire having a rubber component which contains short fiber reinforcement with a compatabilizer for the fiber reinforcement. Desirably said short fiber reinforcement is an aramid pulp. Desirably said compatabilizer is an epoxy functionalized natural rubber. |
| US08501834B2 |
Dual-curing, multi-component dental composition
A dual-curing, multi-component dental composition is described. The dental composition can include: (a) one or more photopolymerizable monomers selected from the group consisting of acrylates and methacrylates; (b) one or more photoinitiators, selected from the group consisting of alpha-diketones, benzoin alkyl ethers, thioxanthones, benzophenones, acylphosphinoxides, acetophenones, ketals, titanocenes, borates and sensitizing colorants; (c) one or more molecular weight regulators selected from the group consisting of compounds which can be converted with a radical of a monomer of component (a), wherein the conversion takes place by abstraction of an H-radical from the molecular weight regulator in the allyl position; (d) one or more polymerization inhibitors for increasing the storage stability of the composition; (e) one or more inorganic fillers; (f) one or more initiators for a chemical curing at ambient temperature, and if necessary one or more further additives. Related methods and uses are also described. |
| US08501833B2 |
Method for preparing silicone hydrogels
The present invention provides a method and a formulation for consistently producing a silicone hydrogel material having relatively high oxygen permeability, relatively high ion permeability, and low modulus, and contact lenses prepared from a formulation of the invention or made of a silicone hydrogel material of the invention. |
| US08501825B2 |
Formulation and method for preparing gels comprising hydrous hafnium oxide
Formulations useful for preparing hydrous hafnium oxide gels contain a metal salt including hafnium, an acid, an organic base, and a complexing agent. Methods for preparing gels containing hydrous hafnium oxide include heating a formulation to a temperature sufficient to induce gel formation, where the formulation contains a metal salt including hafnium, an acid, an organic base, and a complexing agent. |
| US08501821B2 |
Method to elicit tomato resistance to fungal disease
The present invention provides an essential oil containing cineole for eliciting tomato resistance to disease by fungal infection. The present invention also provides a method to elicit tomato resistance to disease by fungal infection. |
| US08501819B2 |
Stabilized compositions of volatile alkylating agents and methods of using thereof
A composition and method for treatment of cancer. The composition for treating a skin disorder, comprising: a Nitrogen Mustard or an HX salt of the Nitrogen Mustard, wherein the Nitrogen Mustard or the HX salt of the Nitrogen Mustard is in a non-aqueous vehicle or carrier that does not include petrolatum or ethanol does not include petrolatum or ethanol. The method comprises topically applying the composition of a Nitrogen Mustard or a HX salt of the Nitrogen Mustard to the affected skin, wherein the Nitrogen Mustard or the HX salt of the Nitrogen Mustard is in a non-aqueous vehicle or carrier that does not include petrolatum or ethanol. |
| US08501817B2 |
Stabilized compositions of alkylating agents and methods of using same
A composition and method for treatment of cancer. The composition for treating a skin disorder, comprising: an alkylating agent such as, for example, a Nitrogen Mustard or an HX salt of the Nitrogen Mustard, wherein the alkylating agent is in a non-aqueous vehicle or carrier that does not include petrolatum or ethanol does not include petrolatum or ethanol. The method comprises topically applying the composition of the alkylating agent to the affected skin, wherein the alkylating agent is in a non-aqueous vehicle or carrier that does not include petrolatum or ethanol. |
| US08501816B2 |
Antitussive compositions comprising memantine
Memantine compositions and methods of use are described herein. In some embodiments, the compositions comprise memantine and an absorption enhancer, or memantine and an elimination enhancer, or memantine and an absorption enhancer and an elimination enhancer. |
| US08501809B2 |
Inhibitors of α4 mediated cell adhesion
The present invention relates to a phenylalanine derivative of Formula (I) wherein X1 is a halogen atom, X2 is a halogen atom, Q is a CH2R— is a carboxyl group which may be esterified; or a pharmaceutically acceptable salt thereof. |
| US08501800B2 |
Controlled-release ophthalmic vehicles
An ophthalmically acceptable vehicle includes an aqueous suspension having a first viscosity. The suspension includes about 0.1% to about 6.5% by weight of a carboxyl-containing polymer prepared by polymerizing one or more carboxyl-containing monoethylenically unsaturated monomers and less than about 5% by weight of a cross-linking agent. The polymer has average particle size of not more than about 50 μm in equivalent spherical diameter. The vehicle includes a second polymer that allows the carboxyl-containing polymer to remain suspended. Upon contact with tear fluid, the vehicle gels to a second viscosity which is greater than the first viscosity. A method of administering a medicament to the eye of a subject includes applying a composition that includes this ophthalmically acceptable vehicle and a medicament contained for treatment of a disease or disorder for which ophthalmic delivery is indicated. The medicament is released from the vehicle in a sustained release manner. |
| US08501798B2 |
Dual-acting antihypertensive agents
The invention relates to compounds having the formula: wherein: Q, W, Y, Z, r, and Ar are as defined in the specification, and pharmaceutically acceptable salts thereof. These compounds have AT1 receptor antagonist activity and neprilysin inhibition activity. The invention is also directed to pharmaceutical compositions comprising such compounds; methods of using such compounds; and process and intermediates for preparing such compounds. |
| US08501797B2 |
(2-aryl-1H-imidazol-4-yl)-linked heterocycle derivatives
This invention is directed to compounds of formula I having the structure which are PDE10A enzyme inhibitors. The invention provides a pharmaceutical composition comprising a therapeutically effective amount of a compound of the invention and a pharmaceutically acceptable carrier. The present invention also provides processes for the preparation of the compounds of formula I. The present invention further provides a method of treating a subject suffering from a neurodegenerative disorder comprising administering to the subject a therapeutically effective amount of a compound of formula I The present invention also provides a method of treating a subject suffering from a drug addiction comprising administering to the subject a therapeutically effective amount of a compound of formula I. The present invention further provides a method of treating a subject suffering from a psychiatric disorder comprising administering to the subject a therapeutically effective amount of a compound of formula I. |
| US08501792B2 |
Treating cancer with desthiazolyl ritonavir
Treatment of cancer includes administering a compound of formula I, for example des-ritonavir, to a subject. In particular, treatment of breast cancer is described. |
| US08501787B2 |
Compounds for the inhibition of angiogenesis and use thereof
This invention is directed to compounds of structure (I). Particularly this invention is directed to compounds of structure (VIII) wherein the variables are defined as in the description. These compounds are integrin inhibitors and are useful in the treatment of diseases in which an inhibition of angiogenesis is desired. |
| US08501786B2 |
Hydroxymethyl pyrrolidines as beta 3 adrenergic receptor agonists
The present invention provides compounds of Formula I, pharmaceutical compositions thereof, and method of using the same in the treatment or prevention of diseases mediated by the activation of β3-adrenoceptor. |
| US08501780B2 |
Indazole carboxamides and their use
The invention is directed to novel indazole carboxamide derivatives. Specifically, the invention is directed to compounds according to Formula I: wherein R1 and Z are defined below, and to pharmaceutically-acceptable salts thereof. The compounds of the invention are inhibitors of IKK2 and can be useful in the treatment of disorders associated with inappropriate IKK2 (also known as IKKβ) activity, such as rheumatoid arthritis, asthma, and COPD (chronic obstructive pulmonary disease). Accordingly, the invention is further directed to pharmaceutical compositions comprising a compound of the invention. The invention is still further directed to methods of inhibiting IKK2 activity and treatment of disorders associated therewith using a compound of the invention or a pharmaceutical composition comprising a compound of the invention. |
| US08501778B2 |
Aralkyl piperidine derivatives and their uses as antalgic or ataractic agent
The present invention relates to aralkyl piperidine derivatives, compositions containing the same, and their uses in the preparation of antalgic or ataractic medicament. The said derivatives are a free base of the compound represented by the following formula or a salt thereof. The pharmacological experiments show that they display favorable antalgic, ataractic activity and low side effects. |
| US08501777B2 |
3,5-disubstituted phenyl-piperidines as modulators of dopamine neurotransmission
The present invention relates to compounds having therapeutic effects against disorders in the central nervous system, and in particular substituted phenylpiperidines of the formula 1: wherein R is as defined herein. |
| US08501775B2 |
Anthelmintics for preventing parasitic infections in humans and animals
The present invention relates to compositions comprising certain active compounds which are suitable as repellents, and to their use for preventing an infection of humans or of animals by the infectious states of parasitic flatworms (platyhelminths). |
| US08501770B2 |
Substituted imidazopyridinyl-aminopyridine compounds
The present invention relates to substituted imidazopyridinyl-aminopyridine compounds and methods of synthesizing these compounds. The present invention also relates to pharmaceutical compositions containing substituted imidazopyridinyl-aminopyridine compounds and methods of treating cell proliferative disorders, such as cancer, by administering these compounds and pharmaceutical compositions to subjects in need thereof. |
| US08501767B2 |
Imidazopyridines and imidazopyrimidines as HIV-1 reverse transcriptase inhibitors
The invention provides compounds of formula A or B which are useful in the treatment of a subject infected with HIV. |
| US08501766B2 |
Treatment of rheumatoid arthritis with a combination of laquinimod and methotrexate
This invention provides a method of treating a subject afflicted with rheumatoid arthritis comprising periodically administering to the subject an amount of laquinimod or pharmaceutically acceptable salt thereof and an amount of methotrexate, wherein the amounts when taken together are effective to treat the subject. This invention also provides laquinimod or pharmaceutically acceptable salt thereof for use in combination with methotrexate in treating a subject afflicted with rheumatoid arthritis. This invention also provides a pharmaceutical composition comprising an amount of laquinimod or pharmaceutically acceptable salt thereof and an amount of methotrexate for use in treating a subject afflicted with rheumatoid arthritis. |
| US08501765B2 |
Diazacarbazoles and methods of use
The invention relates to 1,7-diazacarbazole compounds of Formula (I), which are useful as kinase inhibitors, more specifically useful as checkpoint kinase I (chk1) inhibitors, thus useful as cancer therapeutics. |
| US08501764B2 |
Pharmaceutical formulation and process comprising a solid dispersion of macrolide (tacrolimus)
The present invention relates to a pharmaceutical formulation and process for preparing the same comprising an oral dosage formulation, such as a capsule formulation, of a macrolide compound, such as tacrolimus, wherein the capsule formulation contains both a solid dispersion of the macrolide along with a non-dispersed form of the macrolide. The pharmaceutical formulation according to the invention is bioequivalent to the FDA approved product according to a bioavailability study conducted in humans. |
| US08501757B2 |
Substituted phenylamine carboxamide analogs as mGluR5 negative allosteric modulators and methods of making and using the same
Disclosed are negative allosteric modulators of the metabotropic glutamate receptor subtype 5 (mGluR5); synthetic methods for making the compounds; pharmaceutical compositions comprising the compounds; and methods of treating neurological and psychiatric disorders associated with glutamate dysfunction using the compounds and compositions. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present invention. |
| US08501755B2 |
Tetrahydropyridothienopyrimidine compounds and methods of use thereof
This invention relates to compounds of Formula (I), wherein the variables are as disclosed in the specification, to pharmaceutical compositions containing them, to methods of making the compounds and pharmaceutical compositions, and to methods of using the compounds and pharmaceutical compositions for treating or preventing disorders, in particular cancer. |
| US08501749B2 |
Azaquinazolinediones chymase inhibitors
Disclosed are small molecule inhibitors of the formula (I), which are useful in treating various diseases and conditions involving chymase. |
| US08501746B2 |
Organic compounds
The present invention provides heterocyclic derivatives that modulate the activity of stearoyl-CoA desaturase. Methods of using such derivatives to modulate the activity of stearoyl-CoA desaturase and pharmaceutical compositions comprising such derivatives are also encompassed. |
| US08501741B2 |
Optically active compound of prulifloxacin for treating infection and preparation method thereof
Anti-infection levorotatory optically active compound (S-configuration) of prulifloxacin represented by the following formula (1) and preparation method thereof are disclosed. Said method utilizes levorotatory ulifloxacin as the raw material and the reaction is conducted in organic solvent in the presence of alkaline materials, wherein the reaction temperature is −20° C.˜60° C. and the reaction time is 15 minutes to 24 hours. |
| US08501740B2 |
Methods of treatment of opioid tolerance, physical dependence, pain and addiction with inhibitors of certain growth factor receptors
Methods of preventing the development and reversing or partially reversing opioid tolerance in a subject are provided herein. Such methods include the step of administering to a subject in need thereof a therapeutically effective amount of a PDGFR modulator or EGFR modulator alone or together with an opiate analgesic. The methods can also be used for the treatment of refractory neuropathic pain, physical dependence or addiction. |
| US08501736B2 |
Isoquinoline derivatives
The invention relates to 6-piperidinyl-substituted isoquinoline derivatives of the formula (I) useful for the treatment and/or prevention of diseases associated with Rho-kinase and/or Rho-kinase mediated phosphorylation of myosin light chain phosphatase, and compositions containing such compounds. |
| US08501735B2 |
N-containing heteroaryl derivatives as JAK3 kinase inhibitors
N-containing heteroaryl derivatives of formula I or II, wherein the meanings for the various substituents are as disclosed in the description. These compounds are useful as JAK, particularly JAK3, kinase inhibitors. |
| US08501734B2 |
Medical intervention in haematological cancers
The present invention relates to the medical and pharmaceutical use of substituted 1H-imidazo[4,5-c]quinolin-4-amines, in particular Imiquimod® and Gardiquimod®, alone or preferably in combination with Akt inhibitors, in particular with Akti1/2 and AktX, and most preferably with Akti1/2, in the treatment, prevention and/or amelioration of haematological cancers, in particular multiple myeloma disorders or B-cell disorders, and most particular in the therapy of multiple myeloma. |
| US08501729B2 |
5-HT3 receptor modulators, methods of making, and use thereof
Novel 5-HT3 receptor modulators are disclosed. These compounds are used in the treatment of various disorders, including chemotherapy-induced nausea and vomiting, post-operative nausea and vomiting, and irritable bowel syndrome. Methods of making these compounds are also described in the present invention. |
| US08501728B2 |
Substituted heteroarylamide oxazepinopyrimidone derivatives
The disclosure relates to a series pyrimidone derivatives represented by formula (I) or a salt thereof, or a solvate thereof or a hydrate thereof: wherein: Y, Z, R1, R2, R3, R4 and n are as defined in the disclosure. Also disclosed are methods of preparing the compounds of formula (I), intermediates therefor and their utility in treating a variety of disease conditions. |
| US08501726B2 |
Azetidine derivatives as sphingosine 1-phosphate (S1P) receptor modulators
The present invention relates to novel azetidine derivatives, processes for preparing them, pharmaceutical compositions containing them and their use as pharmaceuticals as modulators of sphingosine-1-phosphate receptors. |
| US08501724B1 |
Purinone compounds as kinase inhibitors
Disclosed herein are compounds that form covalent bonds with Bruton's tyrosine kinase (Btk). Also described are irreversible inhibitors of Btk. In addition, reversible inhibitors of Btk are also described. Also disclosed are pharmaceutical compositions that include the compounds. Methods of using the Btk inhibitors are disclosed, alone or in combination with other therapeutic agents, for the treatment of autoimmune diseases or conditions, heteroimmune diseases or conditions, cancer, including lymphoma, and inflammatory diseases or conditions. |
| US08501723B2 |
Pharmaceutical compositions comprising fesoterodine
The present application relates to a pharmaceutical granulate comprising Fesoterodine or a pharmaceutically acceptable salt or solvate thereof and a pharmaceutically acceptable stabilizer, which can be selected from the group consisting of sorbitol, xylitol, polydextrose, isomalt, dextrose, and combinations thereof, and is preferably a sugar alcohol selected from the group consisting of xylitol and sorbitol. The granulate is suitable for incorporation into pharmaceutical compositions comprising a gel matrix formed by at least one type of hydroxypropyl methylcellulose into which the Fesoterodine is embedded and, optionally, further excipients. In certain embodiments, the granulate is formed by a process of wet granulation. |
| US08501721B2 |
Postprandial hyperglycemia-improving agent
A postprandial hyperglycemia-improving agent, the agent is highly safe and exhibits excellent effects of inhibiting the postprandial increase of blood glucose. The postprandial hyperglycemia-improving agent comprises a cycloartenol or a derivative thereof as an active ingredient. |
| US08501720B2 |
Method for treatment of dysmenorrhea
A method of treatment of dysmenorrhea in the context of oral contraception characterized by daily administration of ethinylestradiol and drospirenone in an extended regimen. |
| US08501719B2 |
Androgen treatment in females
The present invention is directed to a method of using dehydroepiandrosterone (DHEA) to treat a human female with diminished ovarian reserve. The method includes measuring a baseline follicle stimulating hormone (FSH) level of the human female, and when the baseline FSH level is below about 40.0 mIU/ml, administering about 75 milligrams of DHEA per day to the female for at least four months to treat ovarian follicles in at least one ovary of the female to improve human folliculogenesis during the at least four months. The present invention further is directed to a method of restoring the ovarian environment of an older human female to that of a younger human female. The method includes administering about 75 milligrams of DHEA per day to the female for at least four months. |
| US08501718B2 |
Androgen treatment in females
The present invention is directed to a method of improving ovarian reserve in a human female with diminished ovarian reserve as measured by the female's anti-Müllerian hormone level. The method may include evaluating a first anti-Müllerian hormone level of the female, administering dehydroepiandrosterone to the female for at least about one month, and evaluating a second anti-Müllerian hormone level of the female, wherein the second anti-Müllerian hormone level is greater than the first anti-Müllerian hormone level. |
| US08501717B2 |
Methods to treat and/or prevent mucositis
The present invention relates to methods useful for treating and/or preventing mucositis using an active vitamin D compound. |
| US08501716B2 |
C7-fluoro substituted tetracycline compounds
The present invention is directed to a compound represented by Structural Formula (A): or a pharmaceutically acceptable salt thereof. The variables for Structural Formula (A) are defined herein. Also described is a pharmaceutical composition comprising the compound of Structural Formula (A) and its therapeutic use. |
| US08501715B2 |
Oxidized lipids and uses thereof in the treatment of inflammatory diseases and disorders
Novel synthetic oxidized lipids and methods utilizing oxidized lipids for treating and preventing an inflammation associated with an endogenous oxidized lipid are provided. |
| US08501711B2 |
Acylated 1,6-anhydro decasaccharide and its use as an antithrombotic agent
The instant invention relates to the decasaccharide of formula (I), wherein Ac represents an acetyl group: in its acid form or in the form of any one of its pharmaceutically acceptable salts, and to its process of preparation. The oligosaccharide of formula (I) is useful as an antithrombotic agent. |
| US08501708B2 |
Adenosine compounds and their use thereof
Provided herein are a class of purine nucleoside compounds, particularly substituted adenosine compounds, such as benzyloxy cyclopentyladenosine (BCPA) compounds, as well as methods of using these compounds as selective A1 adenosine receptor agonists, particularly for reducing and/or controlling elevated or abnormally fluctuating intraocular pressure (IOP) in the treatment of glaucoma or ocular hypertension (OHT). |
| US08501699B2 |
Bicyclic nucleosides and nucleotides as therapeutic agents
The present disclosure relates to the use and methods of manufacture of bicyclic nucleosides and nucleotides for the treatment and prevention of infectious and proliferative diseases, including microbial infections and cancer. |
| US08501698B2 |
Crystal structures of SGLT2 inhibitors and processes for preparing same
The present invention relates to physical crystal structures of a compound of the formula I: wherein R1, R2, R2a, R3 and R4 are as defined herein, especially pharmaceutical compositions containing structures of compound I or II, processes for preparing same, intermediates used in preparing same, and methods of treating diseases such as diabetes using such structures. |
| US08501695B2 |
Tissue kallikrein for the treatment of diseases associated with amyloid protein
This invention relates to methods of treating Alzheimer's disease or symptoms thereof, and amnesic mild cognitive impairment or symptoms thereof. Methods of the invention include administering a therapeutically effective amount of tissue kallikrein, variants or active fragments thereof. The invention further relates to uses of tissue kallikrein or a variant or active fragment thereof for the digesting or cleaving amyloid and the treatment of conditions benefiting from the digestion or cleavage of amyloid. The invention further relates to pharmaceutical compositions comprising a therapeutically effective amount of tissue kallikrein, variants or active fragments thereof formulated for oral or intranasal administration. |
| US08501694B2 |
Method of administering porcine B-domainless fVIII
The present invention provides a method of administering porcine B-domainless factor VIII (OBI-1) to a patient having factor VIII deficiency to provide more rapid and effective protection against bleeding episodes, compared to formerly available methods, or to provide more effective protection to such patients during non-bleeding periods. This invention is based on the discovery that the recombinant B-domainless porcine fVIII, termed OBI-1, has greater bioavailability compared to the natural porcine fVIII partially purified from porcine plasma, termed HYATE:C. Therefore, the inventive method employs lower unit doses of OBI-1, including, alternatively, omission of antibody-neutralizing dosage, or has longer intervals between the administration, compared to HYATE:C, to provide equivalent protection in patients having fVIII deficiency. The invention further provides pharmaceutical compositions and kits containing OBI-1 in combination with a pharmaceutically acceptable carrier, that are useful for treating patients in need of fVIII more effectively. |
| US08501690B2 |
Use of selective estrogen receptor modulator for joint fusion and other repair or healing of connective tissue
Methods for facilitating joint immobilization or fusion using selective estrogen receptor modulator (SERM) such as raloxifene are disclosed. The SERM may be administered systemically or locally. In conjunction with SERM, other therapeutic agents such as calcium, vitamin D, bone morphogenetic protein may be administered simultaneously. The method can similarly be applied to facilitate bone repair, bone healing, and connective tissue healing processes in a patient. |
| US08501688B2 |
SCGB3A2 as a growth factor and anti-apoptotic agent
The present disclosure is generally related to methods of using the secretory protein SCGB3A2 for promoting lung development and treating lung disease. Some embodiments are, for example, methods for treating and inhibiting the development of neonatal respiratory distress. Other embodiments are methods of promoting lung development in damaged or diseased lungs. Also disclosed are methods for inhibiting lung damage due to anti-cancer agents. |
| US08501686B2 |
Method of treating fatty liver diseases and conditions in non-lipodystrophic subjects
The invention generally relates to the use of leptin in the treatment of a leptin-responsive disease or condition in a non-lipodystrophic subject. More particularly, the invention is directed to the use of leptin in the treatment of a fatty liver disease in a non-lipodystrophic subject with a relative leptin deficiency. The invention includes methods for the treatment of nonalcoholic steatohepatitis (NASH), alcoholic fatty liver disease (AFLD), and nonalcoholic fatty liver disease (NAFLD) in a non-lipodystrophic subject. The invention includes the treatment of conditions ranging from ectopic lipid accumulation (steatosis) to cirrhosis. |
| US08501683B2 |
Cycloundecadepsipeptide compounds and use of said compounds as a medicament
At least one embodiment of the present invention relates to new cycloundecadepsipeptide compounds and to the use of said compounds as a medicament, in particular as antiviral agents, more particularly for preventing or treating Hepatitis C infections or HCV induced disorders. |
| US08501681B2 |
Macrocyclic hepatitis C virus serine protease inhibitors
The present invention relates to compounds, including compounds of Formula I, or a pharmaceutically acceptable salt, ester, or prodrug, thereof: which inhibit serine protease activity, particularly the activity of hepatitis C virus (HCV) NS3-NS4A protease. Consequently, the compounds of the present invention interfere with the life cycle of the hepatitis C virus and are also useful as antiviral agents. The present invention further relates to pharmaceutical compositions comprising the aforementioned compounds for administration to a subject suffering from HCV infection. The invention also relates to methods of treating an HCV infection in a subject by administering a pharmaceutical composition comprising the compounds of the present invention. |
| US08501680B2 |
Antagonists against interaction of PF4 and RANTES
The invention relates to polypeptides of amino acid sequence SEQ ID NO: 1 according to formula (1), the use thereof for producing a medicament, and medicaments for the treatment of diseases related to monocyte recruitment. |
| US08501675B2 |
High viscosity novel base stock lubricant viscosity blends
A lubricant formulation and method of blending a lubricant formulation is disclosed. The lubricant formulation comprises at least two base stocks. The first base stock comprises a viscosity greater than 135 cSt, Kv100° C. and a tight molecular weight distribution as a function of viscosity. The second base stock comprises a viscosity less than 60 cSt, Kv100° C. The formulation also comprises a polyol ester. The lubricant formulation provides favorable properties. |
| US08501673B2 |
DLC-coated member
A DLC-coated member (100) has a base (200), an intermediate layer (300) that covers the surface of the base (200), and a DLC film (400) that covers the surface of the intermediate layer (300). The intermediate layer (300) has a five-layer structure, constituted of a first intermediate layer (301), a second intermediate layer (302), a third intermediate layer (303), a fourth intermediate layer (304), and a fifth intermediate layer (305). The five layers (301 to 305) are made of DLC to which Si has been added. Among the layers (301 to 305), the Si concentration in the first intermediate layer (301) is the highest, and that in the fifth intermediate layer (305) is the second highest. The Si concentrations in the second intermediate layer (302), third intermediate layer (303), and fourth intermediate layer (304) are lower than those in the first intermediate layer (301) and fifth intermediate layer (305). |
| US08501666B2 |
Image receiver elements with aqueous dye receiving layer
A thermal, non-silver halide-containing image receiver element includes a support and an aqueous-coated image receiving layer. This receiving layer comprises a water-dispersible polymer having a polyurea or polyurethane backbone and up to 25 weight % of the water-dispersible polymer comprising polysiloxane side chains that are covalently attached to the backbone, each of the side chains having a molecular weight of at least 500. Aqueous dispersions of polyester ionomers and crosslinking agents can also be present. |
| US08501658B2 |
Enantioselective reactions catalyzed by chiral triazolium salts
This invention provides a convenient method for converting imines and other electrophiles into heterocyclic ring systems. The process does not require the use of metallic reagents, and is catalyzed by an organic heterocyclic carbene catalyst. Accordingly, it produces the desired compounds without the concomitant production of a large volume of metallic waste. Chiral heterocyclic carbene catalysts of the invention and methods of using these catalysts produce chiral heterocycles in high enantiomeric and diastereomeric excess. |
| US08501654B2 |
Use of hydrogen scavenging catalysts to control polymer molecular weight and hydrogen levels in a polymerization reactor
The present invention provides dual catalyst systems containing a metallocene catalyst and a hydrogen scavenging catalyst, and polymerization processes employing these dual catalyst systems. Due to a reduction in hydrogen levels in the polymerization processes, olefin polymers produced from these polymerization processes may have a higher molecular weight, a lower melt index, and higher levels of unsaturation. |
| US08501653B2 |
Heat-treated Ziegler-Natta catalysts for ethylene polymerization
Catalyst systems, processes of forming the same and polymers formed therefrom are described herein. The processes of forming the catalyst systems generally include contacting a blend of an alkyl magnesium compound and an organoaluminum compound with an alcohol to form a magnesium dialkoxide compound; contacting the magnesium dialkoxide compound with a first agent to form a solution of reaction product “A”, the first agent including a halogenating/titanating agent; contacting the solution of reaction product “A” with a second agent to form a solid reaction product “B”, the second agent including a blend of a first metal halide and a metal alkoxide; contacting the solid reaction product “B” with a third agent to form a solid reaction product “C”, the third agent including a second metal halide; contacting the solid reaction product “C” with a fourth agent to form a solid reaction product “D”, the fourth agent including a third metal halide; contacting the solid reaction product “D” with a fifth agent to form a catalyst component, the fifth agent including a reducing agent; and heating an intermediate selected from reaction product “A”, reaction product “B”, reaction product “C”, reaction product “D” and combinations thereof to form a heat-treated catalyst that results in a shear response and a molecular weight distribution for a polymer produced by the heat-treated catalyst that are greater than a shear response and a molecular weight distribution for a polymer produced by an identical non-heat-treated catalyst. |
| US08501652B2 |
Catalysts for making ethanol from acetic acid
Catalysts and processes for forming catalysts for use in hydrogenating acetic acid to form ethanol. In one embodiment, the catalyst comprises a first metal, a silicaceous support, and at least one metasilicate support modifier. Preferably, the first metal is selected from the group consisting of copper, iron, cobalt, nickel, ruthenium, rhodium, palladium, osmium, iridium, platinum, titanium, zinc, chromium, rhenium, molybdenum, and tungsten. In addition the catalyst may comprise a second metal preferably selected from the group consisting of copper, molybdenum, tin, chromium, iron, cobalt, vanadium, tungsten, palladium, platinum, lanthanum, cerium, manganese, ruthenium, rhenium, gold, and nickel. |
| US08501650B2 |
Dry mix for treating refractory substrates and process using same
Dry mix for treating refractory substrates, comprising combustible particles of at least one oxidizable substance which, in the presence of oxygen, gives rise to an exothermic reaction, and particles of at least one other substance, wherein these particles form together, during said exothermic reaction, a coherent mass capable of adhering to and/or interacting with the treated substrate, characterized in that it comprises, as particles of at least one other substance, particles of at least one expanding substance, in that the dry mix without the particles of this at least one expanding substance has a first bulk density and in that the mix comprising said at least one expanding substance has a second bulk density lower than said first bulk density. |
| US08501649B2 |
Optical glass
The present invention provides an optical glass, containing, in % by weight on an oxide basis, 30 to 50% of P2O5, 18 to 43% of BaO, 2 to 12% of B2O3, 1.4 to 5% of Al2O3, more than 0 to 6% of Li2O, more than 0 to 9% of La2O3, 0.1 to 8% of MgO, 0 to 10% of CaO, 0 to 15% of SrO, 0 to 5% of ZnO, 0 to 7% of Gd2O3, and 0 to 3% of SiO2, and having optical constants of a refractive index nd of 1.59 to 1.63 and an Abbe number νd of 63 to 68. |
| US08501648B2 |
Pre-moistened nonwoven webs with visible compressed sites
The disclosure relates to pre-moistened webs and wipes having visible compressed sites that provide the perception of a cloth-like texture. The disclosure also relates to a nonwoven web made of non-thermoplastic fibers with at least one compressed site on the surface of the web that remains visible when the web is pre-moistened. |
| US08501644B2 |
Activated protective fabric
Disclosed are fibrous activated materials that can remove and/or deactivate potentially dangerous airborne agents from a gas or air stream. Disclosed materials are multi-layer materials that include a fibrous nonwoven interceptor layer and an active layer immediately adjacent the interceptor layer. The interceptor layer is a fibrous membrane of very low basis weight and defines a relatively low porosity, and the active layer describes geometries, chemistries, etc. that can entrap and/or decontaminate compounds contained in an airstream passing through the material. Disclosed materials can be utilized in forming protective garments, face masks, and the like. |
| US08501643B2 |
Method for manufacturing basalt fiber
Basalt filament is manufactured such that the fiber diameter can be controlled and the filament is not severed during winding. A network former and a glass modifier are formed and maintained with respect to basalt rock ore, and the crystallization and binding of basalt fiber are inhibited, the heat-resistance property of basalt fiber is greatly improved from the conventional 750° C. to 850 or 900° C., and significant cost reduction is achieved over conventional products. The method includes: grinding basalt rock as a material; washing a resultant ground rock; melting the ground rock that has been washed; transforming a molten product into fiber; and drawing the fiber in an aligned manner, and winding it. The temperature of the molten product in the melting step is 1400 to 1650° C., and log η is 2.15 to 2.35 dPa·s and preferably 2.2 to 2.3 dPa·s, where η is the viscosity of the molten product. |
| US08501642B2 |
Nano-fiber compound solutions, emulsions and gels, production method thereof, Nano-fiber synthetic papers, and production method thereof
This invention provides compound solutions, emulsions and gels excellent in homogeneous dispersibility and long-term dispersion stability and also excellent in the properties as cosmetics, using disarranged nanofibers not limited in either form or polymer, widely applicable and small in the irregularity of single fiber diameter. This invention also provides a method for producing them. Furthermore, this invention provides synthetic papers composed of fibers, small in pore area and uniform in pore size, using disarranged nanofibers, and also provides a method for producing them. This invention provides compound solutions, emulsions, gels and synthetic papers containing disarranged nanofibers of 1 to 500 nm in number average diameter and 60% or more in the sum Pa of single fiber ratios. |
| US08501641B2 |
Compositions comprising cationic fluorinated ether silanes, and related methods
Compositions comprising cationic compounds having fluorinated ether groups and hydrolyzable silane groups are provided, the compounds having the formula: (I) |
| US08501640B2 |
Pressure-sensitive adhesive composition and pressure-sensitive adhesive sheet
The present invention provides a water-dispersed acrylic PSA composition suitable for forming a PSA sheet. The PSA composition contains 100 parts by weight of an acrylic copolymer with a Tg of −70° C. to −50° C. obtained by polymerization of a monomer starting material containing 60 wt % or more of an alkyl (meth)acrylate with a C8-12 alkyl group and 5 wt % or less of a radical polymerizable monomer with a carboxyl group. When an adhesive sheet is formed therefrom, it exhibits an average SUS adhesive strength of 11 N/20 mm or greater, PP adhesive strength of 8.5 N/20 mm or greater, 80° C. hold time of 1 hour or longer, and gap height of 10 mm or less in a curved surface adhesion test. |
| US08501635B1 |
Modification of REO by subsequent III-N EPI process
A method of growing single crystal III-N material on a semiconductor substrate includes providing a substrate including one of crystalline silicon or germanium and a layer of rare earth oxide. A layer of single crystal III-N material is epitaxially grown on the substrate using a process that elevates the temperature of the layer of rare earth oxide into a range of approximately 750° C. to approximately 1250° C. in the presence of an N or a III containing species, whereby a portion of the layer of rare earth oxide is transformed to a new alloy. |
| US08501634B2 |
Method for fabricating gate structure
A gate structure and a method for fabricating the same are described. A substrate is provided, and a gate dielectric layer is formed on the substrate. The formation of the gate dielectric layer includes depositing a silicon nitride layer on the substrate by simultaneously introducing a nitrogen-containing gas and a silicon-containing gas. A gate is formed on the gate dielectric layer, so as to form the gate structure. |
| US08501627B2 |
Profile control in dielectric etch
A method for etching a dielectric layer is provided. The dielectric layer is disposed over a substrate and below a patterned mask having a line-space pattern. The method includes (a) providing an etchant gas comprising CF4, COS, and an oxygen containing gas, (b) forming a plasma from the etchant gas, and (c) etching the dielectric layer into the line-space pattern through the mask with the plasma from the etchant gas. The gas flow rate of CF4 may have a ratio greater than 50% of a total gas flow rate of all reactive gas components. The gas flow rate of COS may be between 1% and 50%. The method reduces bowing in etching of the dielectric layer by adding COS to the etchant gas. |
| US08501625B2 |
Polishing liquid for metal film and polishing method
The invention relates to a polishing liquid for metal film comprising 7.0% by weight or more of an oxidizer for metal, a water-soluble polymer, an oxidized metal dissolving agent, a metal anticorrosive agent and water, provided that the total amount of the polishing liquid for metal film is 100% by weight, wherein the water-soluble polymer has a weight average molecular weight of 150,000 or more and is at least one member selected from among a polycarboxylic acid, a salt of a polycarboxylic acid, and a polycarboxylic acid ester. According to the invention, provided is a polishing liquid for metal film, by which polishing can be performed at a high rate even under a polishing pressure as low as 1 psi or lower, and such that a polished film after polishing is excellent in planarity, furthermore, with which a high polishing rate can be obtained even in an initial stage of polishing, and provided is a polishing method using the polishing liquid. |
| US08501622B2 |
Semiconductor device with two or more bond pad connections for each input/output cell and method of manufacture thereof
A semiconductor device including a plurality of input/output cells and having a first bond pad and at least one second bond pad coupled to each input/output cell. The first bond pads comprise a first pattern, and the at least second bond pads comprise at least one second pattern, wherein the at least one second pattern is different from or the same as the first pattern. Either the first bond pads, the at least second bond pads, or both, may be used to electrically couple the input/output cells of the semiconductor device to leads of an integrated circuit package or other circuit component. |
| US08501621B2 |
Method of fabrication of the memristive device
Three-dimensionally spatially localized artificial filament in the active layer of the memristive device formed by means of ion implantation through the top electrode structure provide the means to achieve high repeatability and high reliability of the memristive devices, leading to significantly improved manufacturing yield. The memristive devices fabricated according to the disclosed method of fabrication can be used in data storage, signal processing and sensing applications. |
| US08501620B2 |
Method for depositing tungsten film having low resistivity, low roughness and high reflectivity
Top-down methods of increasing reflectivity of tungsten films to form films having high reflectivity, low resistivity and low roughness are provided. The methods involve bulk deposition of tungsten followed by a removing a top portion of the deposited tungsten. In particular embodiments, removing a top portion of the deposited tungsten involve exposing it to a fluorine-containing plasma. The methods produce low resistivity tungsten bulk layers having lower roughness and higher reflectivity. The smooth and highly reflective tungsten layers are easier to photopattern than conventional low resistivity tungsten films. Applications include forming tungsten bit lines. |
| US08501618B2 |
Semiconductor device and method of forming RDL wider than contact pad along first axis and narrower than contact pad along second axis
A semiconductor device has a semiconductor die and first conductive layer formed over a surface of the semiconductor die. A first insulating layer is formed over the surface of the semiconductor die. A second insulating layer is formed over the first insulating layer and first conductive layer. An opening is formed in the second insulating layer over the first conductive layer. A second conductive layer is formed in the opening over the first conductive layer and second insulating layer. The second conductive layer has a width that is less than a width of the first conductive layer along a first axis. The second conductive layer has a width that is greater than a width of the first conductive layer along a second axis perpendicular to the first axis. A third insulating layer is formed over the second conductive layer and first insulating layer. |
| US08501616B2 |
Self-aligned protection layer for copper post structure
A semiconductor device including a semiconductor substrate and a conductive post overlying and electrically connected to the substrate. The semiconductor device further includes a manganese-containing protection layer on a surface of the conductive post. A method of forming a semiconductor device. The method includes forming a bond pad region on a semiconductor substrate. The method further includes forming a conductive post overlying and electrically connected to the bond pad region. The method further includes forming a protection layer on a surface of the conductive post, wherein the protection layer comprises manganese (Mn). |
| US08501612B2 |
Flip chip structure and method of manufacture
A flip chip structure includes glass stand-offs formed overlying a substrate surface. A conductive layer is formed overlying the glass stand-offs and configured for attaching to a next level of assembly. In one embodiment, photo glass processing is used to form the glass stand-offs. |
| US08501610B2 |
Non-volatile memories and methods of fabrication thereof
Non-volatile memories and methods of fabrication thereof are described. In one embodiment, a method of fabricating a semiconductor device includes forming an oxide layer over a semiconductor substrate, and exposing the oxide layer to a first nitridation step to form a first nitrogen rich region. The first nitrogen rich region is disposed adjacent an interface between the oxide layer and the semiconductor substrate. After the first nitridation step, the oxide layer is exposed to a second nitridation step to form a second nitrogen rich region. A first gate electrode is formed on the oxide layer, wherein the second nitrogen rich region is disposed adjacent an interface between the oxide layer and the first gate electrode. |
| US08501608B2 |
Method for processing semiconductor device
The present invention relates to a method for processing semiconductor devices with a fine structure, and more particularly, to a processing method suitable for miniaturizing semiconductor devices with a so-called high-k/metal gate structure. In an embodiment of the present invention, a deposited film, which includes an insulating film made of Hf or Zr and a material of Mg, Y or Al existing on, under or in the insulating film, is formed on a Si substrate and is removed by repeating a dry etching process and a wet etching process at least one time. The wet etching process is performed prior to the dry etching process. |
| US08501604B2 |
Method for forming a doped region in a semiconductor layer of a substrate and use of such method
A method of forming a doped region in a semiconductor layer of a substrate by alloying with doping elements is disclosed. In one aspect, the method includes screen printing a paste layer of doping element paste to the substrate and firing the screen printed paste layer of doping element paste, wherein a highly pure doping element layer is applied to the semiconductor layer after which the paste layer is screen printed to the doping element layer. |
| US08501602B2 |
Method of manufacturing devices having vertical junction edge
Techniques for forming devices, such as transistors, having vertical junction edges. More specifically, shallow trenches are formed in a substrate and filled with an oxide. Cavities may be formed in the oxide and filled with a conductive material, such a doped polysilicon. Vertical junctions are formed between the polysilicon and the exposed substrate at the trench edges such that during a thermal cycle, the doped polysilicon will out-diffuse doping elements into the adjacent single crystal silicon advantageously forming a diode extension having desirable properties. |
| US08501600B2 |
Methods for depositing germanium-containing layers
Methods for depositing germanium-containing layers on silicon-containing layers are provided herein. In some embodiments, a method may include depositing a first layer atop an upper surface of the silicon-containing layer, wherein the first layer comprises predominantly germanium (Ge) and further comprises a lattice adjustment element having a concentration selected to enhance electrical activity of dopant elements, wherein the dopant elements are disposed in at least one of the first layer or in an optional second layer deposited atop of the first layer, wherein the optional second layer, if present, comprises predominantly germanium (Ge). In some embodiments, the second layer is deposited atop the first layer. In some embodiments, the second layer comprises germanium (Ge) and dopant elements. |
| US08501599B2 |
Substrate processing apparatus and substrate processing method
A substrate processing apparatus has: a process chamber in which a substrate is processed; a heating device that optically heats the substrate accommodated in the process chamber from an outer periphery side of the substrate; a cooling device that cools the outer periphery side of the substrate by flowing a fluid in a vicinity of an outer periphery of the substrate optically heated by the heating device; a temperature detection portion that detects a temperature inside the process chamber; and a heating control portion that controls the heating device and the cooling device in such a manner so as to provide a temperature difference between a center portion of the substrate and an end portion of the substrate while maintaining a temperature at the center portion at a pre-determined temperature according to the temperature detected by the temperature detection portion. |
| US08501585B2 |
Manufacturing method of semiconductor device
To realize high performance and low power consumption of a semiconductor device by controlling electric characteristics of a transistor in accordance with a required function. Further, to manufacture such a semiconductor device with high yield and high productivity without complicating a manufacturing process. An impurity element imparting one conductivity type is added to a first semiconductor wafer in order to control the threshold voltage of a transistor included in the semiconductor device, before separating a single crystal semiconductor layer used as a channel formation region of the transistor from the first semiconductor wafer and transferring the single crystal semiconductor layer to a second semiconductor wafer. |
| US08501584B2 |
Method of manufacturing multi-level, silicon, micromechanical parts and parts thereby obtained
The process comprises the following steps: a) a first element (3) or a plurality of said first elements (3) is/are machined in a first silicon wafer (1) keeping said elements (3) joined together via material bridges (5); b) step a) is repeated with a second silicon wafer (2) in order to machine a second element (4), differing in shape from that of the first element (3), or a plurality of said second elements (4); c) the first and second elements (3, 4) or the first and second wafers (1, 2) are applied, face to face, with the aid of positioning means (6, 7); d) the assembly formed in step c) undergoes oxidation; and e) the parts (10) are separated form the wafers (1, 2). Micromechanical timepiece parts obtained according to the process. |
| US08501583B2 |
Method for connecting between substrates, flip-chip mounting structure, and connection structure between substrates
A resin containing a conductive particle and a gas bubble generating agent is supplied in a space between the substrates each having a plurality of electrodes. The resin is then heated to melt the conductive particle contained in the resin and generate gas bubbles from the gas bubble generating agent. A step portion is formed on at least one of the substrates. In the process of heating the resin, the resin is pushed aside by the growing gas bubbles, and as a result of that, the conductive particle contained in the resin is led to a space between the electrodes, and a connector is formed in the space. At the same time, the resin is led to a space between parts of the substrates at which the step portion is formed, and cured to fix the distance between the substrates. |
| US08501570B2 |
Method of manufacturing source/drain structures
An integrated circuit device and method for manufacturing the integrated circuit device provide improved control over a shape of a trench for forming the source and drain features of integrated circuit device, by forming a second doped region in a first doped region and removing the first and the second doped regions by a first and a second wet etching processes. |
| US08501566B1 |
Method for fabricating a recessed channel access transistor device
A method for fabricating a recessed channel access transistor device is provided. A semiconductor substrate having thereon a recess is provided. A gate dielectric layer is formed in the recess. A gate material layer is then deposited into the recess. A dielectric cap layer is formed on the gate material layer. The dielectric cap layer and the gate material layer are etched to form a gate pattern. A liner layer is then formed on the gate pattern. A spacer is formed on the liner layer on each sidewall of the gate pattern. The liner layer not masked by the spacer is etched to form an undercut recess that exposes a portion of the gate material layer. The spacer is then removed. The exposed portion of the gate material layer in the undercut recess is oxidized to form an insulation block therein. |
| US08501563B2 |
Devices with nanocrystals and methods of formation
Devices can be fabricated using a method of growing nanoscale structures on a semiconductor substrate. According to various embodiments, nucleation sites can be created on a surface of the substrate. The creation of the nucleation sites may include implanting ions with an energy and a dose selected to provide a controllable distribution of the nucleation sites across the surface of the substrate. Nanoscale structures may be grown using the controllable distribution of nucleation sites to seed the growth of the nanoscale structures. According to various embodiments, the nanoscale structures may include at least one of nanocrystals, nanowires, or nanotubes. According to various nanocrystal embodiments, the nanocrystals can be positioned within a gate stack and function as a floating gate for a nonvolatile device. Other embodiments are provided herein. |
| US08501562B1 |
Fabricating a gate oxide
An example of a method of fabricating a gate oxide of a floating gate transistor includes forming a plurality of shallow trench isolation (STI) regions in a silicon wafer. The method also includes selectively filling the STI regions with oxide. Further, the method includes forming sacrificial oxide regions on the silicon wafer. Furthermore, the method includes forming implant regions in the silicon wafer. In addition, the method includes selectively removing the sacrificial oxide regions. The method further includes forming the gate oxide. |
| US08501560B2 |
Method for manufacturing thin film capacitor and thin film capacitor obtained by the same
A thin film capacitor is characterized by forming a lower electrode, coating a composition onto the lower electrode without applying an annealing process having a temperature of greater than 300° C., drying at a predetermined temperature within a range from ambient temperature to 500° C., and calcining at a predetermined temperature within a range of 500 to 800° C. and higher than a drying temperature. The process from coating to calcining is performed the process from coating to calcining once or at least twice, or the process from coating to drying is performed at least twice, and then calcining is performed once. The thickness of the dielectric thin film formed after the first calcining is 20 to 600 nm. The ratio of the thickness of the lower electrode and the thickness of the dielectric thin film formed after the initial calcining step (thickness of lower electrode/thickness of the dielectric thin film) is preferably in the range 0.10 to 15.0. |
| US08501552B2 |
Pixel structure and method of fabricating the same
A pixel structure includes a substrate; a scan line; a gate electrode; an insulating layer disposed on the scan line, the gate electrode and the substrate; a channel and a data line disposed on the insulating layer; a source electrode and a drain electrode disposed on the channel; a passivation layer; a pixel electrode and a connecting electrode. The data line does not overlap the scan line. The passivation layer disposed on the source electrode and the drain electrode includes a first contact hole partially exposing the drain electrode, and a plurality of second contact holes partially exposing the data line or the scan line. The pixel electrode disposed on the passivation layer is electrically connected to the drain electrode through the first contact hole. Furthermore, the connecting electrode disposed on the passivation layer is electrically connected to the data line or the scan line through the second contact holes. |
| US08501551B2 |
Thin film transistor array substrate and method of fabricating the same
A thin film transistor array substrate having a high charge mobility and that can raise a threshold voltage, and a method of fabricating the thin film transistor array substrate are provided. The thin film transistor array substrate includes: an insulating substrate; a gate electrode formed on the insulating substrate; an oxide semiconductor layer comprising a lower oxide layer formed on the gate electrode and an upper oxide layer formed on the lower oxide layer, such that the oxygen concentration of the upper oxide layer is higher than the oxygen concentration of the lower oxide layer; and a source electrode and a drain electrode formed on the oxide semiconductor layer and separated from each other. |
| US08501547B2 |
Implantable microelectronic device and method of manufacture
An implantable hermetically sealed microelectronic device and method of manufacture are disclosed. The microelectronic device of the present invention is hermetically encased in a insulator, such as alumina formed by ion bean assisted deposition (“IBAD”), with a stack of biocompatible conductive layers extending from a contact pad on the device to an aperture in the hermetic layer. In a preferred embodiment, one or more patterned titanium layers are formed over the device contact pad, and one or more platinum layers are formed over the titanium layers, such that the top surface of the upper platinum layer defines an external, biocompatible electrical contact for the device. Preferably, the bottom conductive layer is larger than the contact pad on the device, and a layer in the stack defines a shoulder. |
| US08501538B2 |
Method for connecting substrate and method for manufacturing semiconductor device
A method for connecting substrates is provided. The method includes the steps of: preparing a first wiring substrate having a first substrate including a first region and a second region which are provided with a first metal wire, wherein an area ratio between the first region and the first metal wires in the first region is different from an area ratio between the second region and the first metal wire in the second region; heating the first wiring substrate to bend the first wiring substrate; and electrically connecting a third wiring on a third substrate to the first metal wire provided on the first wiring substrate, thereby mounting the first wiring substrate on the third substrate in a manner that the first surface of the first substrate is nonparallel to the first surface of the third substrate. |
| US08501536B2 |
Integrating and aligning laser chips on sliders for HAMR applications
A method of producing a slider wafer populated with electromagnetic components optically aligned with photonic elements for HAMR applications. Laser chips are transferred from a laser substrate wafer to the slider wafer by a massively parallel printing transfer process. After wafer bonding the laser chips to the slider wafer, the shape and optical alignment of the photonic elements are precisely aligned en masse by lithographic processing. |
| US08501535B2 |
Integrated circuit package system with dual side connection and method for manufacturing thereof
A method for manufacturing an integrated circuit package system includes: connecting an integrated circuit die with a bottom connection structure; placing an adhesive encapsulation over the integrated circuit die and the bottom connection structure with the bottom connection structure exposed; and placing a top connection structure over the adhesive encapsulation at an opposing side to the bottom connection structure. |
| US08501529B2 |
Carbon nanotube having improved conductivity, process of preparing the same, and electrode comprising the carbon nanotube
Provided are a method of doping carbon nanotubes, p-doped carbon nanotubes prepared using the method, and an electrode, a display device or a solar cell including the carbon nanotubes. Particularly, a method of doping carbon nanotubes having improved conductivity by reforming the carbon nanotubes using an oxidizer, doped carbon nanotubes prepared using the method, and an electrode, a display device or a solar cell including the carbon nanotubes are provided. |
| US08501523B2 |
Depositing titanium silicon nitride films for forming phase change memories
Organometallic precursors may be utilized to form titanium silicon nitride films that act as heaters for phase change memories. By using a combination of TDMAT and TrDMASi, for example in a metal organic chemical vapor deposition chamber, a relatively high percentage of silicon may be achieved in reasonable deposition times, in some embodiments. In one embodiment, two separate bubblers may be utilized to feed the two organometallic compounds in gaseous form to the deposition chamber so that the relative proportions of the precursors can be readily controlled. |
| US08501522B2 |
Intermetal stack for use in a photovoltaic cell
A donor silicon wafer may be bonded to a substrate and a lamina cleaved from the donor wafer. A photovoltaic cell may be formed from the lamina bonded to the substrate. An intermetal stack is described that is optimized for use in such a cell. The intermetal stack may include a transparent conductive oxide layer serving as a quarter-wave plate, a low resistance layer, an adhesion layer to help adhesion to the receiver element, and may also include a barrier layer to prevent or impede unwanted diffusion within the stack. |
| US08501518B2 |
Method of manufacturing thermoelectric conversion element and thermoelectric conversion element
P-type semiconductor sheets and n-type semiconductor sheets formed by mixing a powder of semiconductor material, a binder resin, a plasticizer, and a surfactant are prepared. In addition, separator sheets formed by mixing a resin such as PMMA and a plasticizer are prepared. Through holes are formed in each of the separator sheets and then filled with a conductive material. Thereafter, the p-type semiconductor sheet, the separator sheet, the n-type semiconductor sheet and the separator sheet are stacked. The resultant laminated body is cut into a predetermined size and then subjected to a baking process. |
| US08501516B2 |
Method for producing micromechanical patterns having a relief-like sidewall outline shape or an adjustable angle of inclination
A method for producing micromechanical patterns having a relief-like sidewall outline shape or an angle of inclination that is able to be set, the micromechanical patterns being etched out of a SiGe mixed semiconductor layer that is present on or deposited on a silicon semiconductor substrate, by dry chemical etching of the SiGe mixed semiconductor layer; the sidewall outline shape of the micromechanical pattern being developed by varying the germanium proportion in the SiGe mixed semiconductor layer that is to be etched; a greater germanium proportion being present in regions that are to be etched more strongly; the variation in the germanium proportion in the SiGe mixed semiconductor layer being set by a method selected from the group including depositing a SiGe mixed semiconductor layer having varying germanium content, introducing germanium into a silicon semiconductor layer or a SiGe mixed semiconductor layer, introducing silicon into a germanium layer or an SiGe mixed semiconductor layer and/or by thermal oxidation of a SiGe mixed semiconductor layer. |
| US08501515B1 |
Methods of forming micro-electromechanical resonators using passive compensation techniques
Methods of forming electro-micromechanical resonators provide passive temperature compensation of semiconductor device layers used therein. A first substrate is provided that includes a first electrically insulating temperature compensation layer on a first semiconductor device layer. A step is performed to bond the first electrically insulating temperature compensation layer to a second substrate containing the second electrically insulating temperature compensation layer therein, to thereby form a relatively thick temperature compensation layer. A piezoelectric layer is formed on the first electrically insulating temperature compensation layer and at least a first electrode is formed on the piezoelectric layer. |
| US08501514B2 |
Method for manufacturing light emitting diode by etching with alkaline solution
An LED includes a substrate, a first n-type GaN layer, a connecting layer, a second n-type GaN layer, a light emitting layer, and a p-type GaN layer. The first n-type GaN layer, the connecting layer, and the second n-type GaN layer are formed on the substrate in sequence. The connecting layer is etchable by alkaline solution, and a bottom surface of the second n-type GaN layer facing towards the connecting layer has a roughed exposed portion. The GaN on the bottom surface of the second n-type GaN layer is N-face GaN. A top surface of the second n-type GaN layer facing away from the connecting layer includes a first area and a second area. The light emitting layer and the p-type GaN layer are formed on the first area of the top surface of the second n-type GaN layer in sequence. |
| US08501512B2 |
Thin film transistor array panel and method for manufacturing the same
A manufacturing method of a thin film transistor array panel includes forming a gate line, forming a gate insulating layer on the gate line, forming a data line including a drain electrode on the gate insulating layer, forming a passivation layer on the gate insulating layer, the data line, and the drain electrode, forming a negative photosensitive organic layer on the passivation layer, heat treating the negative photosensitive organic layer to form an insulating layer including a first portion, and a second portion that is thinner than the first portion, and forming a pixel electrode, a first contact assistant, and a second contact assistant on the insulating layer. The pixel electrode is disposed on the first portion, the first and second contact assistants are disposed on the second portion, and the thickness of the second portion is less than about 1.5 micrometers (μm). |
| US08501511B2 |
Method of manufacturing laser diode
Manufacturing a laser diode includes growing an active layer, a first InP layer, and a diffraction grating layer; forming an alignment mark having a recess by etching the diffraction grating layer and the first InP layer; forming a first etching mask; forming a diffraction grating in the diffraction grating layer using the first etching mask; forming a modified layer containing InAsP on a surface of the alignment mark recess by supplying a first source gas containing As and a second source gas containing P; growing a second InP layer on the diffraction grating layer and on the alignment mark; forming a second etching mask on the second InP layer; selectively etching the second InP layer embedded in the recess of the alignment mark through the second etching mask by using the modified layer serving as an etching stopper; and forming a waveguide structure using the alignment mark. |
| US08501509B2 |
Multi-dimensional solid state lighting device array system and associated methods and structures
A multi-dimensional solid state lighting (SSL) device array system and method are disclosed. An SSL device includes a support, a pillar having several sloped facets mounted to the support, and a flexible substrate pressed against the pillar. The substrate can carry a plurality of solid state emitters (SSEs) facing in various directions corresponding to the sloped facets of the pillar. The flexible substrate can be a flat substrate prepared using planar mounting techniques, such as wirebonding techniques, before bending the substrate against the pillar. |
| US08501508B2 |
Method of forming quantum well mosfet channels having uni-axial strains caused by metal source/drains
Embodiments described include straining transistor quantum well (QW) channel regions with metal source/drains, and conformal regrowth source/drains to impart a uni-axial strain in a MOS channel region. Removed portions of a channel layer may be filled with a junction material having a lattice spacing different than that of the channel material to causes a uni-axial strain in the channel, in addition to a bi-axial strain caused in the channel layer by a top barrier layer and a bottom buffer layer of the quantum well. |
| US08501504B2 |
Method and system for non-destructive determination of dielectric breakdown voltage in a semiconductor wafer
According to one exemplary embodiment, a non-destructive method for determining a breakdown voltage of a dielectric layer on a semiconductor substrate includes injecting a test current in increasing ramp steps into the dielectric layer. The method further includes measuring a test voltage across the dielectric layer at each increasing ramp step of the test current. The method further includes detecting a dropped test voltage in response to the increasing ramp steps of the test current. The ramp steps of the test current can be substantially logarithmically increased. The breakdown voltage of the dielectric layer can be designated to be substantially equal to the dropped test voltage. |
| US08501499B2 |
Adaptive recipe selector
The invention provides a method of processing a wafer using Ion Energy (IE)-related multilayer process sequences and Ion Energy Controlled Multi-Input/Multi-Output (IEC-MIMO) models and libraries that can include one or more measurement procedures, one or more IEC-etch sequences, and one or more Ion Energy Optimized (IEO) etch procedures. The IEC-MIMO process control uses dynamically interacting behavioral modeling between multiple layers and/or multiple IEC etch sequences. The multiple layers and/or the multiple IEC etch sequence can be associated with the creation of lines, trenches, vias, spacers, contacts, and gate structures that can be created using IEO etch procedures. |
| US08501498B2 |
Mass tags for quantitative analyses
This invention pertains to methods, mixtures, kits and/or compositions for the determination of analytes by mass analysis using unique labeling reagents or sets of unique labeling reagents. The labeling reagents can be isomeric or isobaric and can be used to produce mixtures suitable for multiplex analysis of the labeled analytes. |
| US08501492B2 |
Measurement device used for specifically detecting substance to be examined using photocurrent, sensor unit used for same, and method for specifically detecting substance to be examined using photocurrent
In utilizing photocurrent generated in the photoexcitation of a dye in specific detection of an analyte, highly accurate detection can be realized by discharging charged current generated in the formation of a sensor unit and, in the detection of photocurrent of a plurality of detection spots provided on a working electrode, discharging photocurrent which is derived from a detection spot subjected to the latest photocurrent measurement and becomes noise current. The present invention provides a measuring apparatus comprising a sensor unit comprising a working electrode, a counter electrode, and an electrolyte-containing substance, a single or plurality of light sources that apply light to the working electrode, an XY moving device provided when the light source is moved relatively in an XY direction relative to the working electrode, an ammeter that measures current which flows across the working electrode and the counter electrode, and a discharge device that discharges charged current and photocurrent derived from a detection spot subjected to the latest photocurrent measurement. The specific detection method using the measuring apparatus is carried out by controlling the timing of light irradiation and the timing of connection to the ammeter and the discharge device. |
| US08501489B2 |
Urinary biomarkers to predict long-term dialysis
This invention is related to the field of the prevention and treatment of kidney disease. The treatment of kidney disease may be tailored depending upon the need for, or expectation of, long-term dialysis. For example, prediction of long-term dialysis treatment can be determined by monitoring urine biomarkers related to the development of chronic kidney disease. For example, a normalized time course of hyaluronic acid can be used to determine whether a patient having suffered acute kidney injury will require long-term dialysis. |
| US08501483B2 |
Method of assessing cancer status in a breast cancer patient
Described are methods for assessing recurrence status in a breast cancer patient that include assaying a biological sample from the patient for a level of a biomarker selected from such as S100β or HOX-C1I, where positive detection of one or both of the biomarkers indicates a positive recurrence status. The method can be used for prognosis of poor disease free survival in a breast cancer patient, where positive detection of one or both of the biomarkers indicates poor disease survival. The method may also be used for diagnosis of recurrence, where positive detection of circulating S100β is a diagnostic variable of recurrence. The method of diagnosis is carried out on a patient who is undergoing first line therapy and/or a patient who has had surgery to remove a primary breast tumour. |
| US08501478B2 |
Trehalose click polymers for delivery of biologically active molecules
Novel trehalose click polymers have in vitro and in vivo application in the cellular delivery of biologically active molecules, including nucleic acids and polypeptides. The trehalose click polymers of the present invention provide increased stability in serum as compared with other non-viral vectors, and are particularly useful in protecting nucleic acids against degradation. |
| US08501474B2 |
Methods of generating embryoid bodies and uses of same
Methods of generating embryoid bodies (EBs) by culturing embryonic stem cells (ESCs) under static conditions followed by culturing the cells under dynamic conditions using e.g., a Glass Bulb-shaped Impeller (GBI) or shaking a culture vessel are provided. Also provided are methods of generating expanded and/or differentiated cells from the EBs of the invention and methods of using same for treating disorders requiring cell replacement therapy. |
| US08501473B2 |
Use of pleitrophin for preventing and treating pancreatic diseases and/or obesity and/or metabolic syndrome
The present invention discloses the protein pleiotrophin secreted by the developing pancreas, and polynucleotides, which identify and encode this protein. The invention also relates to the use of these sequences in the diagnosis, study, prevention, and treatment of pancreatic diseases (e.g. diabetes), obesity, and/or metabolic syndrome. |
| US08501465B2 |
Modulators of alpha-synuclein toxicity
Disclosed are genes that, when overexpressed in cells expressing alpha-synuclein, either suppress or enhance alpha-synuclein mediated cellular toxicity. Compounds that modulate expression of these genes or activity of the encoded proteins can be used to inhibit alpha-synuclein mediated toxicity and used to treat or prevent synucleinopathies such as Parkinson's disease. Also disclosed are methods of identifying inhibitors of alpha-synuclein mediated toxicity. |
| US08501463B2 |
Anaerobic production of hydrogen and other chemical products
Described herein are methods for producing chemical products by anaerobically fermenting a particular biomass using anaerobic bacteria. Such chemical products include hydrogen and other gases, acetic acid and other volatile organic acids, solvents, solids, and salts of volatile organic acids. |
| US08501462B2 |
Insert device for multiwell plate
An assembly comprises a multiwell test plate having a plurality of wells having an opening and a base surface, an insert plate having a plurality of inserts positioned to align with a corresponding one of the wells whereby the insert plate can be nested with the multiwell plate. Each of the inserts includes a supply port arranged for flow communication with a supply source, an exhaust port, a bottom portion having a plurality of channels extending between the supply port and the exhaust port, and a gas permeable membrane covering the bottom portion. Each of the inserts is sized to position the gas permeable membrane a desired distance from the base surface of the multiwell test plate when the multiwell test plate and the insert plate are coupled to one another. |
| US08501460B2 |
Bioreactor systems and disposable bioreactor
The present invention is in the field of cell bioreactors, and specifically in the field of disposable bioreactors. |
| US08501459B2 |
Test probes, common oligonucleotide chips, nucleic acid detection method, and their uses
High-throughput detection for the interesting base or the mutation site in the nucleic acid sample can be achieved by means of the linear test probe pairs P1 and P2. The test probe pairs P1 and P2 respectively comprise either of the flanking complementary sequences which are adjacent to the interesting base or the mutation site in the nucleic acid sample. The invention can be applied to the re-sequencing the target nucleic acid sequence, the detection and analysis for the mutation, insertion, or deletion sites of a known nucleic acid sequence, and the genotyping of the pathogenic microorganism. |
| US08501457B2 |
Enrichment of Listeria spp
A medium for enriching Listeria spp. without polymerase chain reaction (PCR) inhibition and a method of using the medium. |
| US08501455B2 |
3-hydroxypropionic acid and other organic compounds
Methods and materials related to producing 3-HP as well as other organic compounds are disclosed. Specifically, isolated nucleic acids, polypeptides, host cells, and methods and materials for producing 3-HP and other organic compounds are disclosed. |
| US08501454B2 |
Homologous recombination-based DNA cloning compositions
Methods and compositions for cloning a donor DNA molecule into an acceptor vector at a predetermined location are described. The methods are based on homologous recombination mediated by in vitro treatment of the donor DNA and the acceptor vector with an enzyme cocktail containing an exonuclease and a single-stranded DNA binding protein. |
| US08501450B2 |
Hepatitis C virus variants
The present invention relates to HCV variants, particularly variants that are resistant to a protease inhibitors such as VX-950. Also provided are methods and compositions related to the HCV variants. Further provided are methods of isolating, identifying, and characterizing multiple viral variants from a patient. |
| US08501449B2 |
Recombinant elastase proteins and methods of manufacturing and use thereof
The present invention relates to methods for the manufacture, purification, formulation, and use of biologically active recombinant elastase proteins. Described are recombinant methods for producing therapeutically useful elastase proteins, as are pharmaceutical compositions comprising said elastase proteins. Novel recombinant elastase proteins and protein preparations are also disclosed. Methods are described for treating and preventing diseases of biological conduits using pharmaceutical compositions containing the elastase proteins of the invention. |
| US08501446B2 |
Azaindoles useful as inhibitors of JAK and other protein kinases
The present invention relates to inhibitors of protein kinases. The invention also provides pharmaceutical compositions comprising the compounds of the invention and methods of using the compositions in the treatment of various disorders. |
| US08501440B2 |
Fibrillation-resistant insulin and insulin analogues
A fibrillation-resistant insulin analogue may be a single-chain insulin analogue or a physiologically acceptable salt thereof, containing an insulin A chain sequence or an analogue thereof and an insulin B chain sequence or an analogue thereof connected by a polypeptide of 4-10 amino acids. The fibrillation-resistant insulin analogue preferably displays less than 1 percent fibrillation with incubation at 37° C. for at least 21 days. A single-chain insulin analogue displays greater in vitro insulin receptor binding than normal insulin while displaying less than or equal binding to IGFR than normal insulin. The fibrillation-resistant insulin may be used to treat a patient using an implantable or external insulin pump, due to its greater fibrillation resistance. |
| US08501437B2 |
Fibrous protein fusions and use thereof in the formation of advanced organic/inorganic composite materials
The claimed invention provides a fusion polypeptide comprising a fibrous protein domain and a mineralization domain. The fusion is used to form an organic-inorganic composite. These organic-inorganic composites can be constructed from the nano- to the macro-scale depending on the size of the fibrous protein fusion domain used. In one embodiment, the composites can also be loaded with other compounds (e.g., dyes, drugs, enzymes) depending on the goal for the materials, to further enhance function. This can be achieved during assembly of the material or during the mineralization step in materials formation. |
| US08501435B2 |
Process for preserving three dimensional orientation to allow registering histopathological diagnoses of tissue to images of that tissue
A process for maintaining 3 dimensional orientation between a tissue specimen and images of the area of investigation, to register histopathologic diagnoses of multiple locations within the specimen with corresponding locations on the surface of said area of investigation. |
| US08501433B2 |
Solvent for chromogenic substrate solution
The present invention relates to a non-toxic dipolar solvent for chromogenic substrate for detecting presence of lacZ gene and/or gene activity, which comprises a stabilizing amount of a solubilizing agent. The present invention also relates to a method for inducing lac operon in screening assay, comprising the step of contacting an agar plate with at least one essential oil in a concentration sufficient to induce the lac operon. The present invention further relates to a method for detecting the presence of bacteria, comprising the step of contacting an agar plate with at least one essential oil in a concentration sufficient to induce detection of the bacteria. |