| Document | Document Title |
|---|---|
| US08411147B2 |
Method for eliminating chromatic aberration caused by an imaging environment and for testing stability of the imaging environment, and chromatic aberration calibration device for use with the same
A method for eliminating chromatic aberration caused by an imaging environment and for testing stability of the imaging environment, and; a chromatic aberration calibration device are disclosed. The method serves to detect errors resulting from environmental factors and human factors and, by using a specific measurement distance and angle, eliminate chromatic aberration caused by such factors. Environmental factors include variations of the image capture device itself; the hue, lightness, and chroma of external light; and the distance and angle between the chromatic aberration calibration device and the image capture device. Human factors include operator-related variations, focusing variations, and hand tremor during measurement. When the same chromatic aberration calibration device and imaging environment are used, the method can show color variations caused by the environmental and human factors in the image capture process and thereby determine whether the imaging environment has the expected stability. |
| US08411142B2 |
Intellectual surveillance system and monitoring method thereof
The present invention relates to an intellectual surveillance system and a monitoring method thereof. The intellectual surveillance system comprises a camera module and a terminal computer module, wherein the camera module is capable of monitoring and reacting various sudden situations, and then the camera module transmits images and messages of the situations to the terminal computer module through at least one BNC connector and at least one coaxial cable, further that, the terminal module is able to display the images and show a alert so as to complete a secure monitor without any RS-485 series communication port and digital IP camera. Besides, the intellectual surveillance system can control the actions of monitoring and reacting such situations automatically by using the monitoring method. |
| US08411133B2 |
Mobile terminal and panoramic photographing method for the same
A mobile terminal and panoramic photographing method for the same are provided. The panoramic photographing method includes displaying a preview image upon selection of a panoramic mode, successively capturing a first partial image and second partial image in response to input of a shooting start signal, setting a photographing direction through a comparison between the first partial image and second partial image, and producing a panoramic image in the set photographing direction. As a result, the user does not have to set the photographing direction to capture a panoramic image using a mobile terminal. |
| US08411130B2 |
Apparatus and method of video conference to distinguish speaker from participants
Disclosed are a system and a method that generates image data that represent a speaker to be distinguished, and enables a mobile terminal to provide a video conference service using the image data that distinguishes the speaker. A video conference apparatus may include a speaker distinguishing unit to distinguish, as a speaker, a participant who is speaking from a plurality of participants in the video conference and an image data generating unit to generate image data that represents the distinguished participant differently from other participants. |
| US08411129B2 |
Video conference system and method using multicast and unicast transmissions
A computer-implemented method includes receiving registration messages at a call control agent device via first unicast transmissions from at least three video conference terminals. The registration messages request set up of a video conference between the at least three video conference terminals. The computer-implemented method includes sending a set up message from the call control agent device to each of the at least three conference terminals via second unicast transmissions. The set up message includes at least an identification of a multicast control group, a send multicast group of each of the at least three conference terminals, and a default receive multicast group. In response to the set up message, one or more of the at least three video conference terminals join the default receive multicast group. |
| US08411126B2 |
Methods and systems for close proximity spatial audio rendering
Disclosed herein are multimedia-conferencing systems and methods enabling local participants to hear remote participants from the direction the remote participants are rendered on a display. In one aspect, a method includes a computing device receives a remote participant's image and sound information collected at a remote site. The remote participant's image is rendered on a display at a local site. When the local participant is in close proximity to the display, sounds generated by the remote participant are played over stereo loudspeakers so that the local participant perceives the sounds as emanating from the remote participant's location rendered on the display. |
| US08411123B2 |
Light scanning apparatus, latent image forming apparatus and image forming apparatus
A light scanning apparatus is provided in which a light source is controlled so that the total exposure energy density of when light beams are emitted to an image carrying member across light deflection scanning of a plurality of times becomes constant on the image carrying member, thereby high image quality, long lasting output images are obtained. Exposure energy density necessary when exposure is completed by light deflection scanning of one time is set to Ex1, the latent image electrical potential deepness of a latent image formed thereof is set to Vs1, total exposure energy density across light deflection scanning of a plurality of times is set to Ex_n, the latent image electrical potential deepness thereof is set to Vs_n, wherein Ex_n=Ex1−ΔEx and {(Vs_n/Vs1)^3−1.05}×Ex1<ΔEx<{(Vs_n/Vs1)^3−0.95}×Ex1. |
| US08411116B2 |
Method, system and apparatus for power saving backlight
A method and system for displaying an image on a liquid crystal display (LCD) that may reduce power consumption. The method and system can include calculating a luminance for pixels in an image in a LCD based upon a light spread function and brightness values of light emitting diodes (LEDs). The method and system can also include changing a brightness of an LED based upon a consideration of the gray value of the pixels and the distance of the pixels from a dominant LED. The method and system can further set the brightness of the LED units to a brightness or brightness value substantially greater than or equal to a gray value of each pixel of the image. |
| US08411113B1 |
Layered digital image data reordering and related digital image rendering engine
A digital image rendering system, such as a geographic map rendering system, receives image data from an image database, such as a map database, in the form of data having image features defined as sets of image objects arranged in a series of layers. The image rendering system processes the received data in a manner that allows for rendering the original layered data without rendering each original layer separately by reordering the original layered digital image data into fewer layers. |
| US08411109B2 |
System for delivering and enabling interactivity with images
A system, including apparatuses, software and methods, is disclosed for capturing and delivering images as to which various interactive functions are enabled for a user. The images introduced to the system can come from any one of a variety of sources, including from a digital camera. A graphical user interface permits a user to customize a set of interactive functions to be enabled for a given set of images. The interactively enabled images can be delivered via a webpage to a user, for example, via email, the Internet or downloaded from a disk or from disk drive on a computer on which the webpage is stored. Each image is delivered to a user in its own layer of software, which permits complex sets of images of relatively high resolution to be delivered to users without any appreciable delay associated with the delivery or the need for the user to have additional software, such as a plug-in to receive images and enable interactive functions with respect to the images. Whenever an interactive function is being carried out, a viewer perceives only one image layer at a given time, but the currently viewable image layer can be changed rapidly, so that the user can perceive the illusion of motion, including virtual rotation of an object depicted in a set of images. |
| US08411108B2 |
Rotational display system
The present invention provides a system which integrates unique lighting technologies, switching systems, mounting systems, information delivery systems and power supply systems within a support such as vehicular wheel to provide an advanced, high quality visual display apparatus in various surfaces of rotation. A displayed image may be three dimensional. These technologies, and their many unique applications, provide for a novel and useful series of video display devices that are small, lightweight, efficient and can have the capability of producing a clear, bright, high definition image that is equivalent to that of a modern day TV or high quality computer monitor. |
| US08411105B1 |
Method and system for computing pixel parameters
A method and system for computing pixel parameters is disclosed. In one embodiment, the rasterizing of a geometric primitive comprising a plurality of vertices wherein each vertex comprises a respective color value, is performed by a rasterization module of a graphics pipeline. The rasterizing includes interpolating a respective color value for each pixel of the geometric primitive, wherein the respective color value is of a first bit width. The rasterizing also includes transforming the respective color value to a second bit width to produce a respective transformed color value for each pixel. Additionally, the rasterizing includes altering the respective transformed color value using a screen-location based dither table to produce a dithered transformed color value for each pixel. After the rasterizing, propagating the respective dithered transformed color value of each pixel to downstream modules of the graphics pipeline is performed. |
| US08411101B2 |
Preview data generating apparatus, method to generate preview data, and computer usable medium therefor
A preview data generating apparatus to generate preview data, which is used to display a preview image representing an image to be printed on a recording medium, in reflection of a color of the recording medium, is provided. The preview data generating apparatus includes a base color input unit to input a base color being the color of the recording medium, a print data input unit to input print data in a printable format, which is used to print the image, a data conversion unit to convert the print data into a displayable format suitable for a display device, and a base color incorporated data generating unit to generate the preview data representing the image to be printed by incorporating the displayable-formatted data and the base color. |
| US08411099B2 |
Computer graphics processor and method of rendering images
Therefore, a computer graphics processor with a forward mapping renderer is provided. The renderer comprises a texture space rasterizer (TS) for rasterizing a primitive in texture space, a color generating unit (PS) for determining the color of the output of the texture space rasterizer (TS) and for forwarding a color sample along with coordinates, a 2 pass screen space resampler (SSR1, SSR2) for resampling the color sample determined by the color generating unit (PS), and at least one one-dimensional blur filter unit (1PB, 2PB) associated to at least one pass of said screen space resampler (SSR1, SSR2) for performing a one-dimensional filtering before performing said at least one pass. |
| US08411096B1 |
Shader program instruction fetch
Embodiments for programming a graphics pipeline, and modules within the graphics pipeline, are detailed herein. Several of these embodiments utilize offset registers associated with the instruction tables for the modules within the pipeline. The offset register serves as a pointer to locations in the instruction table, which allows instructions to be written to be instruction table, without requiring that the shader programs have explicit addresses. One embodiment describes a method of programming a graphics pipeline. This method involves accessing the shader program stored in memory. A shader instruction is generated from this shader program, and loaded into an instruction table associated with a target module graphics pipeline. The shader instruction is loaded into the instruction table at the location indicated by an offset register. |
| US08411095B2 |
Performance allocation method and apparatus
In accordance with some embodiments, a graphics process frame generation frame rate may be monitored in combination with a utilization or work load metric for the graphics process in order to allocate performance resources to the graphics process and in some cases, between the graphics process and a central processing unit. |
| US08411091B2 |
Image drawing system, image drawing server, image drawing method, and computer program
An image drawing system, an image drawing server, an image drawing method, and a computer program product that provides a three-dimensional world to a client-terminal. The method includes: providing a viewpoint in the vicinity of an avatar and creating a three-dimensional object; performing a perspective projection of a static object to create a two-dimensional panoramic image; overlaying the two-dimensional panoramic image, information on a dynamic object, and an image of the avatar; and storing the two-dimensional panoramic image. The computer program product tangibly embodies instructions which when implemented causes a computer to execute the steps of the method. The system includes: a three-dimensional object creation unit; a panoramic image creation unit; a drawing unit for overlaying; and a panoramic image storage unit. The server includes: a reception unit; a three-dimensional object creation unit; a panoramic image creation unit; and a transmission unit. |
| US08411090B2 |
Methods for flattening a 3D surface into a 2D piece
Disclosed is a method for flattening a 3D surface into a 2D piece. In one embodiment, the method is implemented by constructing a plurality of wire-patches by feature curves on a surface patch of the 3D surface, wherein each of feature curves comprises a plurality of wire-nodes; computing an optimal 2D angle for each of said wire-nodes of the constructed wire-patches; determining an optimal position for each of said wire-nodes based on the computed optimal 2D angles thereof, respectively; and laying out each of said feature curves in 2D based on the determined optimal position. A device to flatten a 3D surface into a 2D piece is also provided. |
| US08411087B2 |
Non-linear beam tracing for computer graphics
A non-linear beam tracing technique that supports full non-linear beam tracing effects including multiple reflections and refractions for computer graphics applications. The technique introduces non-linear beam tracing to render non-linear ray tracing effects such as curved mirror reflection, refraction, caustics, and shadows. Beams are allowed to be non-linear where rays within the same beam are not parallel or do not intersect at a single point. Such is the case when a primary beam bounces off of a surface and spawns one or more secondary rays or beams. Secondary beams can be rendered in a similar manner to primary rays or beams via polygon streaming. Beyond smooth ray bundles, the technique can also be applied to incoherent ray bundles which is useful for rendering bump mapped surfaces. |
| US08411086B2 |
Model creation using visual markup languages
A method and system for defining a model by analyzing images of a physical space. In some embodiments the images of a physical space contain distinctive visual features with associated semantic information, and the model is defined using image feature detection techniques to identify distinctive visual features and a rich marker-based markup language to give meaning to the distinctive visual features. In some embodiments the distinctive visual features are predefined markers, and the markup language specifies model aspects and rules for combining semantic information from a plurality of markers to define the model. |
| US08411080B1 |
Apparatus and method for editing three dimensional objects
A computer graphic editing or modeling system that automatically alters a computer graphic object based on a user sketch. The computer graphic object may be presented as an image space view of the object (proxy). The sketch is placed in proximity to some feature of the image space view. The system matches the sketch with the feature taking into account silhouettes, which may be derived by way of depth continuity and depth gradient similarity, of the object and matching the silhouette with the feature based on proximity and shape. The matched handle silhouette is transformed to associated handle vertices of a mesh of the graphic object. The system may then deform the mesh based on the user sketch by obtaining a dimensional relationship between the user sketch and the associated silhouette and applying the dimensional relationship to a region of interest, which includes the handle vertices. |
| US08411077B2 |
DC-DC converter and organic light emitting display device using the same
A DC-DC converter having low power consumption by reducing an input current and an organic light emitting display using the same. In one embodiment, a DC-DC converter includes a buck-boost circuit for generating and outputting a second power of a second power source by receiving an input voltage. The buck-boost circuit adjusts and outputs the voltage level of the second power of the second power source in response to the voltage level of the input voltage. A controller controls the buck-boost circuit. The buck-boost circuit includes a first coil coupled between a first node and a ground; a first capacitor having first and second electrodes, the first electrode being coupled to the first node, a first switch coupled between the first node and an input terminal; and a second switch coupled between the second electrode of the capacitor and ground. |
| US08411073B2 |
System and method for detecting display disconnection
A video processing device comprises a display interface coupleable to a display device and a display controller configured to transmit a video signal via an output node of the display interface. The video signal comprises an active segment comprising video information and an inactive segment comprising synchronization information. The video processing device further comprises a display detector configured to determine whether the display device is coupled to the display interface based on a comparison of a first voltage at the output node during transmission of the inactive segment to a second voltage. |
| US08411069B1 |
Touchscreen with a light modulator
A device with a touchscreen with a light modulator is disclosed herein. The device transitions from a netbook mode to a touchscreen mode. The device comprises a main unit and a touchscreen unit with a transparent display. The touchscreen unit is preferably separated from the main unit when in a netbook mode, and the touchscreen unit communicates wirelessly with the main unit. The touchscreen unit preferably has an outer screen display surface and an inner screen display surface on each side of a light modulating unit. The main unit preferably has a main unit display. |
| US08411066B2 |
High speed noise tolerant multi-touch touch device and controller therefor
A touch-sensitive device includes a touch panel, a drive unit, a sense unit, and a measurement unit. A touch applied to a node of the panel changes a capacitive coupling between two electrodes (a drive electrode and a sense electrode) of the touch panel. The drive unit delivers a drive signal, which may comprise one or more drive pulses, to the drive electrode. The sense unit couples to the sense electrode, and generates a response signal that includes a differentiated representation of the drive signal, which is then fed through a resistor. The amplitude of the response signal is responsive to the capacitive coupling between the electrodes, and is measured to provide an indication of a touch at the node. |
| US08411062B1 |
Adaptive drive system
An apparatus includes a down pump configured to generate a regulated voltage signal based, at least in part, on an input voltage and a reference voltage. The apparatus includes a level shifter configured to generate an activation signal having a voltage level corresponding to the reference voltage based, at least in part, on the input voltage and the regulated voltage signal. The apparatus includes a switching device configured to generate a drive signal corresponding to the input voltage in response to the activation signal. |
| US08411061B2 |
Touch event processing for documents
One or more touch input signals can be obtained from a touch sensitive device. If the touch input signals are associated with one or more regions of a web page displayed on the touch sensitive device, a touch event associated with the regions of a web page is processed by the web page. Otherwise, the touch events can be processed by an application (e.g., a browser). |
| US08411059B2 |
Integrated electromagnetic type input flat panel display apparatus
An integrated electromagnetic type input flat panel display apparatus is disclosed. The integrated electromagnetic type input flat panel display apparatus comprises a display panel, a control unit and a signal processing unit. The display panel has a display unit and an electromagnetic sensor unit, wherein the display unit and the electromagnetic sensor unit are integrated in to a substrate of the display panel. The signal processing unit receives and processes the signals from the electromagnetic sensor unit. |
| US08411058B2 |
Method and system for tactile display
A system and method for a touch display system. The a touch display system includes: a flat touch display assembly including a matrix of flat Braille pixels, wherein each flat Braille pixel is operable to be placed in one of two states. A heating source is selectively connected to each flat Braille pixel. A cooling source selectively connected to each flat Braille pixel. The flat Braille pixels are configured to represent images to touch by selective heating and cooling thereof. In one embodiment, the above described display can be used in combination with software that automatically converts text to Braille which is displayed using the flat touch display assembly. |
| US08411057B2 |
Protection-plate-attached electronic member
A protection-plate-attached electronic member including: a first electronic member including a first transparent substrate; an adhesion layer which overlaps with the first transparent substrate; a protection plate fixed to the first electronic member in a state in which the adhesion layer intervenes between the protection plate and the first transparent substrate; and a peeling auxiliary section which intervenes between the adhesion layer and one of the protection plate and the first electronic member so as to lower bonding strength between the adhesion layer and the one of the protection plate and the first electronic member, wherein the adhesion layer includes an overlapping section which overlaps with the peeling auxiliary section; and a nonoverlapping section which does not overlap with the peeling auxiliary section and which directly contacts with the one of the protection plate and the first electronic member. |
| US08411056B2 |
Apparatus and method for touch input in portable terminal
An apparatus and method for setting a control command in response to a touch area and controlling an application in a portable terminal through a simple touch input is provided. The apparatus includes a control command determination unit and a control unit. The control command determination unit detects a control command of an application corresponding to an area touched by a user when a touch input is sensed while the application works. The control unit controls an operation of the working application by using the control command detected by the control command determination unit. |
| US08411052B2 |
Touch panel, liquid crystal display screen using the same, and methods for making the touch panel and the liquid crystal display screen
A touch panel includes a first electrode plate and a second electrode plate spaced from the first electrode plate. The first electrode plate includes a first substrate, a plurality of first transparent electrodes, and a plurality of first signal wires. The second electrode plate includes a second substrate, a plurality of second transparent electrodes, and a plurality of second signal wires. Both the second transparent electrode and the first transparent electrode include a transparent carbon nanotube structure, the carbon nanotube structure includes of a plurality of metallic carbon nanotubes. |
| US08411051B2 |
Liquid crystal display screen
A liquid crystal display screen includes an upper board, a lower board opposite to the upper board, and a liquid crystal layer located between the upper board and the lower board. The upper board includes a touch panel. The touch panel includes a plurality of transparent electrodes. At least one of the transparent electrodes includes a carbon nanotube structure. |
| US08411050B2 |
Touch interface having microphone to determine touch impact strength
A computing device receives position coordinates of a touch input region upon a user touching the touch input region. The computing device also receives an audio signal from an audio sensor upon the user touching the touch input region. An impact strength of the user's touch is determined based on the audio signal. The computing device performs an action that is associated with the determined impact strength. |
| US08411049B2 |
Information processing apparatus
An information processing apparatus includes a display control unit that causes a display unit having a display screen to perform information display; a switching unit that performs switching between a touch input enable state, in which predetermined processing is performed in response to touch input, and a touch input disable state, in which the predetermined processing is not performed even when touch input is detected; and a detector that is disposed at a position different from a position of the touch position detector and that performs predetermined detection. The display unit can be switched between an inactive state and an active state. The switching unit includes a first controller that sets the touch input disable state when the display unit enters the inactive state, and a second controller that performs switching to the touch input enable state in accordance with the result of the predetermined detection. |
| US08411044B2 |
Touch panel, method for making the same, and display device adopting the same
A touch panel includes a substrate, a transparent conductive layer, and at least two separate electrodes. The substrate includes a first surface. The transparent conductive layer is formed on the first surface of the substrate. The transparent conductive layer includes a carbon nanotube layer, and the carbon nanotube layer includes a plurality of carbon nanotubes entangled with each other. The electrodes are separately disposed on a surface of the transparent conductive layer and electrically connected with the transparent conductive layer. Further, a method for making the touch panel and a display device adopting the same are also included. |
| US08411043B2 |
Electronic device
An electronic device including a casing, a touch display and a processor is provided. The casing has an opening, and the touch display is disposed inside the casing for receiving the operation of an input tool. The opening exposes a portion of the touch display. The touch display has a sensing surface. The processor is coupled to the touch display, and the user interface displayed by the touch display is determined by the processor. As a result, the convenience of operating the electronic device is increased. |
| US08411039B2 |
Computer keyboard
A computer keyboard comprises a touch control display panel comprising a display unit, a plurality of touch sensing units, and a display control unit. The display unit is utilized for displaying icons of control keys. The touch sensing units are utilized for sensing pressed status of the control keys, and transmitting pressure sensing signals and position signals to a host. The display control unit is utilized for receiving icons of the control keys from the host, and making the display unit display icons of the control keys. When an external force presses one of the control keys of the touch control display panel, a specific touch sensing unit senses pressed status of a position corresponding to the pressed control key, and make the host start or terminate an executable program according to link of the executable program corresponding to the pressed control key. |
| US08411036B2 |
Hardware accelerated caret rendering
Techniques for hardware accelerated caret rendering are described in which a system based caret is emulated using hardware acceleration technology. The hardware accelerated caret can be rendered using dedicated graphics processing hardware to look and feel like a system caret. This can involve using pixel shaders to produce the hardware accelerated caret and a employing a back-up texture to remove the caret after it is drawn and cause the caret to blink. In addition, rendering of the caret can be coordinated with other animations and/or other presentations of a frame buffer to piggy back drawing of the caret onto other drawing operations. This can reduce the number of times the frame buffer is presented and therefore improve performance. |
| US08411032B2 |
Loop member for pointing devices for computers, consisting of wires linked to each other as well as pointing device comprising such a loop member
Loop member 10 for pointing devices for computers, consisting of a number of axially extending thin wires 11, 12, 13, 15, 16, twined in each other in such a way that the wires 11, 12, 13, 15, 16 work as links that can rotate a small angle in relation to each other. The wires 11, 12, 13, 15, 16 together build up a tangentially bendable cylinder, the cross-section of which is stretched into an elongate shape via two supports. Between the supports, there is a thin plate on which the upper part of the cylinder rests. The upper surface of the cylinder can be reached by a user through an opening in an apparatus box and be moved in a two-dimensional way, the move being detected and giving rise to the corresponding move of a pointer or the like on a screen. Suitable embodiment for said supports and peripheral mechanics is also shown. |
| US08411031B2 |
Input device having magnetic button structure
An input device includes a cover and a base. The cover includes a button and a protrusion. The protrusion protrudes from the button. The base includes a processing unit and a button controlling module. The button controlling module includes a first magnetic member, a second magnetic member, and a movement sensing unit. The adjacent ends of the first magnetic member and the second magnetic member have the same polarity. The protrusion of the button contacts the first magnetic member. The movement sensing unit is for sensing the movement of the second magnetic member and for transmitting the sensed movement data of the second magnetic member to the processing unit. The processing unit determines the depressed button according to the sensed movement data of the second magnetic member. |
| US08411029B2 |
Gaming keyboard and related methods
A gaming keyboard and related methods are disclosed that provide features to enhance the computer gaming experience. A keyboard connection pod is disclosed that improves power capabilities of the keyboard thereby allowing for enhanced features that require more power. A panic mechanism is disclosed that can be triggered to cause one or more selected keys to change states. Keycap rim-lighting is disclosed that provides improved visual indication of key positions. A hand registration enhancement is disclosed including a spacebar having a thumb notch and/or WASD and spacebar keys with different tactile response than other keys. Function keys are disclosed that are positioned proximate to allow reduced movement of the left hand. An integrated cord wrap tray is disclosed for a peripheral such as a mouse. Other features and variations are also disclosed. |
| US08411026B2 |
Methods and devices for lighting displays
Various devices and methods of lighting a display are disclosed. In one embodiment, for example, a display device includes a transmissive display configured to be illuminated through a back surface and a reflective display configured to be illuminated through a front surface. A light source is disposed with respect to the back of the transmissive display to illuminate the transmissive display through the back surface. A light pipe is disposed with respect to the light source to receive light from the light source and is configured to propagate the light such that this light provides front illumination of the reflective display. |
| US08411024B2 |
Image display device
An image display device comprises a liquid crystal display panel, panel driving circuits, a backlight configured to include a plurality of light source blocks, and a controller configured to modulate input data to generate image data synchronized with N multiple frame frequency, control the panel driving circuits such that same image data are displayed every two consecutive frame periods, control the light source blocks to be sequentially turned on during a light source scanning period, and control the light source blocks to be simultaneously turned off during a light source blinking period between neighboring light source scanning periods. |
| US08411021B2 |
Display control apparatus and display control method for adjusting display luminance according to ambient brightness
A display control apparatus includes an external light detection unit configured to detect ambient brightness of a display apparatus, a variation detection unit configured to detect a variation of orientation of the display apparatus, and a control unit configured to adjust display luminance of the display apparatus according to the ambient brightness detected by the external light detection unit and the variation detected by the variation detection unit. |
| US08411018B2 |
Method and apparatus for driving a liquid crystal display device
A source driver comprising a first DAC with a positive polarity (PDAC), a second DAC with a negative polarity (NDAC), first and second operational amplifiers. Each operational amplifier is characterized with a 1st & 2nd stage and an output stage. The PDAC and NDAC are coupled to the first and second operational amplifiers through a first pair of switches. The 1st & 2nd and output stages of the first operational amplifier are coupled to the 1st & 2nd and output stages of the second operational amplifier through a second pair of switches. The first and second operational amplifiers are coupled to odd data lines and even data line through a third pair of switches. |
| US08411014B2 |
Signal processing circuit and method
A signal processing circuit includes: multiple digital-signal processing units operating in parallel each including a selecting unit for selecting one of multiple systems of input picture signals, a double-speed converting unit for writing the data equivalent to one field of the picture signal selected by the selecting unit in field memory, and simultaneously reading the data equivalent to one field from the field memory twice at double speed, thereby converting the frequency of the picture signal into double speed, a reading unit for reading the picture signal converted into double speed by the double-speed converting unit and temporarily stored in line memory, and a correction processing unit for subjecting the picture signal read by the reading unit to predetermined correction processing; and a control unit for performing the selection control of the multiple systems of picture signals, and the read position control of a picture signal from the line memory. |
| US08411010B2 |
Cholesteric liquid crystal display device including a voltage stabilization part surpressing variations in output voltage
A cholesteric liquid crystal display device in which a first step for applying a high voltage pulse to initialize a pixel and a second step for applying a low voltage pulse to increase a coexistence ratio of a focal conic state to the planar state in the initialized pixel are performed and a gradation value is determined by a cumulative time during which the low voltage pulse is applied, the device includes: a voltage generation circuit; and a driver circuit, wherein: the voltage generation circuit includes: a step-up part that generates a step-up voltage from a power source voltage; a voltage switching part; and a voltage stabilization part that generates the predetermined voltage in accordance with the voltage control signal from the step-up voltage, wherein the voltage stabilization part suppresses variations in output voltage; and the step-up part switches step-up ratios between the first step and the second step. |
| US08411008B2 |
Liquid crystal display having a plurality of common voltages applied during different driving time and driving method thereof
There is provided a liquid crystal display, which prevents a blur on a display image by periodically varying a common voltage of the liquid crystal display panel. The liquid crystal display comprises: a liquid crystal display panel having pixel electrodes for supplying data voltages and a common electrode for supplying a common voltage; a common voltage generator for generating common voltages of different potentials; and a common voltage supply unit for periodically changing the potential of a common voltage supplied to the common electrode by switching the common voltages from the common voltage generator. |
| US08411005B2 |
Liquid crystal display apparatus and driving method therefor
A liquid crystal display (LCD) apparatus includes an LCD section and a driving section. The driving section provides the LCD section with a compensated gradation datum based on a first gradation datum of an (n)-th frame, a second gradation datum of an (n+1)-th frame and a third gradation datum of an (n−1)-th frame. The driving section provides the LCD section with a sum total of a pre-tilt value that is varied in accordance with the gradation and the first gradation datum when the gradation of the second gradation datum is higher than that of the first gradation datum. The driving section provides the LCD section with the first gradation datum when a gradation of the second gradation datum is lower than that of the first gradation datum. |
| US08411004B2 |
Video processing circuit, video processing method, liquid crystal display device, and electronic apparatus
A video processing circuit for a liquid crystal panel, includes: a boundary detecting unit which detects a boundary between a first pixel whose applied voltage specified by an input video signal is below a first voltage and a second pixel whose applied voltage is equal to or higher than a second voltage which is higher than the first voltage; and a correction unit which corrects, for at least two second pixels one of which is adjacent to the boundary detected by the boundary detecting unit on the opposite side of the first pixel and which are successive in a direction opposite to the boundary, an applied voltage to liquid crystal elements corresponding to the second pixels from the applied voltage specified by the video signal to a voltage which is equal to or higher than the first voltage and below the second voltage. |
| US08411003B2 |
Liquid crystal display and methods of driving same
A liquid crystal display (LCD) and methods of driving same. In one embodiment, the LCD) includes a plurality of gate lines, {Gn}, spatially arranged along a row direction; a plurality of data lines, {Dm}, spatially arranged along a column direction perpendicular to the row direction, and a plurality of pixels, {Pn,m}, spatially arranged in the form of a matrix, where m=1, 2, . . . , M, n=1, 2, . . . , N, and M and N are positive integers. Each pixel Pn,m is defined between two neighboring gate lines Gn and Gn+1 and two neighboring data lines Dm and Dm+1, and comprises a first sub-pixel electrode, a second sub-pixel electrode, a first transistor having a gate electrically coupled to the gate line Gn+1, a source and a drain electrically coupled to the first sub-pixel electrode, a second transistor having a gate electrically coupled to the gate line Gn, a source electrically coupled to the source of the first transistor and a drain electrically coupled to the second sub-pixel electrode, and a third transistor having a gate electrically coupled to the gate line Gn+2, a source electrically coupled to one of the two neighboring data lines Dm and Dm+1 and a drain electrically coupled to the sources of the first and second transistors. |
| US08411002B2 |
Printed circuit board and display system including the printed circuit board
A display system includes a system module, a connector connected to the system module, and a display module connected to the system module through the connector. The display module includes a liquid crystal panel which displays an image, and a first printed circuit board (“PCB”) which drives the liquid crystal panel. The first PCB includes a ground layer having a first ground region electrically connected to the display module, and a second ground region electrically isolated from the first ground region and electrically connected to the connector. The system module is configured to transmit communication signals to the display module and/or receive communication signals from the display module. The system module is further configured to transmit a noise component, which is independent of the communication signals, to the display module through the connector. |
| US08411001B2 |
Display device with floating bar
A display device includes a plurality of pixels, a data line transmitting a data voltage to the pixels, and a floating bar crossing the data line and being divided into a plurality of pieces. By dividing the floating bar into a plurality of pieces, a delay of a data signal can be prevented so that excellent images can be displayed. Furthermore, by disposing a diode between the pieces of the floating bar, an effect of dispersing static electricity can be maximized. |
| US08411000B2 |
Display device and driving method thereof
A display device includes a light emitting diode, and first and second driving transistors connected between a driving voltage and the light emitting diode to supply driving electric current to the light emitting diode. A control voltage or control voltages differentiated in polarity from each other is/are applied to control terminals of the first and the second driving transistors. The first driving transistor has a control electrode located below a semiconductor layer of the light emitting diode while the second driving transistor has a control electrode located over the semiconductor layer. Two driving transistors are formed at each pixel, and an area occupied thereof within the pixel is reduced. Control voltages differentiated in polarity from each other are applied to the respective driving transistors, substantially preventing deterioration of the driving transistors. |
| US08410998B2 |
Device for driving a plasma display panel
The present invention relates to a device for driving a plasma display panel having a plurality of cells arranged in rows and columns, said device comprising row address means for selectively addressing the display cell rows and creating, where required, in cooperation with means for selectively applying data voltages to the display columns, an electrical discharge inside the cell disposed at the intersection of the row and column selected during an address phase, and sustain means (I3, I4, I5, I6) for sustaining the electrical discharges inside said cell during a sustain phase immediately following the address phase. According to the invention, the row address means and/or the sustain means are capable of allowing a bi-directional current to flow in the display cells during the address and/or sustain phases. The capacitive and light-emission currents appearing during these phases can thus flow freely and do not create electromagnetic interference. |
| US08410997B2 |
Driving circuit, driving method and plasma display panel having scan line groups receiving reset signals at different times
A PDP driving circuit is disclosed. The circuit includes a scan driver divided into at least more than two groups, a logic controller generating scan driver control reference signals, which are used to generate scan driving signals of the scan driver, and a buffer block giving different delay times to the scan driver control reference signals, to apply them to the scan driver groups, respectively. |
| US08410989B2 |
Antenna structure including radiating conductor and magnetic material having dielectric property
An antenna for receiving electromagnetic waves in a desired frequency band, includes a radiating conductor and a ground conductor, a feeder part, a wavelength-shortening section, and a magnetic field applying section. The radiating conductor and a ground conductor resonate at a resonance point frequency. The feeder part is configured to feed the radiating conductor with electricity. The wavelength-shortening section in which a magnetic body having both a dielectric property and a magnetic property is disposed close to the radiating conductor shifts the resonance point frequency into a band lower than the desired frequency band by a wavelength-shortening effect obtained based on the dielectric property and the magnetic property. The magnetic field applying section is configured to apply a magnetic field to the magnetic body so as to reduce a magnetic loss due to the magnetic body. |
| US08410987B2 |
Method and device for measuring a radiation field
A method for measuring a radiation field in the direct vicinity of a measured object is provided. One or more antenna measurement probe(s) are moved in any desired fashion within the radiation field, and a number of high-frequency measurement points is thus recorded. During the movement of the antenna measurement probe, a position determination of a respective antenna measurement probe is conducted simultaneously with or in close temporal proximity to the capture of a respective high-frequency measurement point, in order to assign a position to each high-frequency measurement point so as to generate a spatially defined measurement point cloud. Finally, radiation patterns at any distance from the measured object may be determined from the spatial measurement point cloud by means of a field transformation method. |
| US08410986B2 |
Hybrid antennas for electronic devices
A portable electronic device is provided that has a hybrid antenna. The hybrid antenna may include a slot antenna structure and an inverted-F antenna structure. The slot antenna portion of the hybrid antenna may be used to provide antenna coverage in a first communications band and the inverted-F antenna portion of the hybrid antenna may be used to provide antenna coverage in a second communications band. The second communications band need not be harmonically related to the first communications band. The electronic device may be formed from two portions. One portion may contain conductive structures that define the shape of the antenna slot. One or more dielectric-filled gaps in the slot may be bridged using conductive structures on another portion of the electronic device. A conductive trim member may be inserted into an antenna slot to trim the resonant frequency of the slot antenna portion of the hybrid antenna. |
| US08410985B2 |
Mobile device antenna with dielectric loading
Mobile device antennas with dielectric loading are described herein. In one example, a mobile device includes a ground plane, carried within an enclosure. An antenna is connected to the ground plane. Dielectric loading material is provided within at least a portion of an area defined between the ground plane and the antenna. The dielectric loading material results in a shortening of a required antenna length, thereby creating a recovered area, i.e., valuable space within the enclosure “recovered” by the use of dielectric loading material. |
| US08410984B2 |
Electronic apparatus
An electronic apparatus includes an antenna housing groove extending in an extension direction of one end surface of a housing; and the housing having a boss protruding in the antenna housing groove in a width direction of the antenna housing groove; and a metal plate member that is passed through the boss and is sandwiched between the housing and the antenna body to interact with the bearing member, that is locked in both locked positions of a housed position in which the antenna body is housed in the antenna housing groove and in a protruding position in which the antenna body is rotated from the housed position by a predetermined angle and protrudes from the housing so that the metal plate member holds the positions of the antenna body, and that releases the lock upon reception of a force in a rotational direction of the antenna body. |
| US08410982B2 |
Unidirectional antenna comprising a dipole and a loop
A unidirectional wireless antenna with a front-to-back ratio of 20 dB comprises a loop antenna and a dipole antenna interconnected by a metallic element and printed on a printed circuit board. The antenna is small in size but provides good unidirectional transmission. |
| US08410981B1 |
Managing dimensional error in a direction finding antenna array
An antenna assembly may include an antenna array having a plurality of antenna elements generally arranged along an axis. The antenna array may include a first antenna element for receiving at least one signal from a signal source, and a second antenna element spaced a distance apart from the first antenna element for receiving the at least one signal from the signal source. The antenna assembly may also include a processor coupled with the antenna array for analyzing the at least one signal and utilizing the distance between the first antenna element and the second antenna element to determine at least one of a direction or a location of the signal source. The antenna assembly may further include a memory coupled with the processor for storing a correction factor, where the processor is configured to utilize the correction factor to determine the distance between the first antenna element and the second antenna element. |
| US08410972B2 |
Adder-embedded dynamic preamplifier
A method and apparatus for an adder-embedded dynamic preamplifier system with dynamic comparator and current mode adder including differential switches for precharging, a switch for evaluation; and reference, feedfoward input sections. When differential switches are closed, OUTN and OUTP are precharged. During the evaluation, discharging currents are proportionately determined by input and reference values. A following latch amplifies the discharging differences of OUTN and OUTP. |
| US08410971B2 |
System and method for configuring operation of a remote control by a display device
System and methods are provided for configuring operation of a remote control by a display device. In one embodiment a method includes detecting user selection of an input of the display device and determining a command for the remote control based on the user selection of the input, wherein the command identifies a configuration for the remote control. The method further includes transmitting the command to the remote control, by the display device, for configuration of the remote control, wherein the configuration specifies operation of the remote control with one or more devices associated with the input. |
| US08410969B2 |
Wide range charge balancing capacitive-to-digital converter
A capacitive-to-digital converter is provided which includes: sensor, offset and reference capacitors, an integrator circuit and a demodulation circuit. The sensor capacitor is switched according to a first clock and the offset capacitor according to a second clock, which has a higher switching frequency. The reference capacitor is switched according to a return signal from the converter's output. The integrator circuit includes an integrator capacitor, and has first and second nodes, with the sensor, offset and reference capacitors each being switched to the first and second nodes based on the respective first clock, second clock or return signal. The demodulation circuit receives and converts output of the integrator circuit into a digital output. The higher frequency clocking of the offset capacitor allows for a reduction in capacitance of the offset, reference or integrator capacitor, and the multiclocking of the converter allows for use of a multireferencing to the sensor capacitor. |
| US08410968B2 |
Track and hold circuit
A track and hold circuit includes an input, a first output configured to produce a first output signal, and a second output configured to produce a second output signal while the track and hold circuit is in a first mode. While the track and hold circuit is in a second mode, the second output signal is combined with the first output signal and output on the first output. |
| US08410966B2 |
Current DAC
A current digital-to-analog converter (DAC) is disclosed. The current DAC includes a current reference circuit coupled between a voltage source terminal and a voltage node, wherein the current reference circuit includes a feedback node. A switchable resistor network is communicably coupled to the feedback node of the current reference circuit via a first feedback network that is adapted to equalize a first voltage across the switchable resistor network voltage with a second voltage between the feedback node and the voltage node. A current mirror includes an output node communicably coupled to the switchable resistor network via a second feedback network that is adapted to equalize an output current that flows from the output node with an input current that flows into the switchable resistor network. |
| US08410961B2 |
Semiconductor integrated circuit
In combining an analog terminal of an A/D converter with a digital terminal, the effect of the noise from the digital terminal is reduced. A semiconductor integrated circuit includes a high-speed external terminal, a low-speed external terminal, a high-speed analog switch, a low-speed analog switch, and an A/D converter. The high-speed external terminal is coupled to an input of the A/D converter via the high-speed analog switch, and the low-speed external terminal is coupled to the input of the A/D converter via the low-speed analog switch. A plurality of inputs of a plurality of low-speed digital input buffer circuits and a plurality of outputs of a plurality of low-speed digital output buffer circuits are coupled to a plurality of low-speed external terminals. The output of any digital output buffer circuit is not coupled to a plurality of high-speed external terminals, but a plurality of inputs of a plurality of high-speed digital input buffer circuits is coupled to a plurality of high-speed external terminals. Between a plurality of low-speed external terminals and the input of the A/D converter, a low-speed separating resistor with a high resistance value is coupled, respectively. |
| US08410960B2 |
Method to linearize the output from an ADC
A method is disclosed of compensating the output of an ADC for non-linearity in the response of the ADC. The method comprises converting an analog input signal to uncorrected digital ADC output samples, applying a vector of correction variables to each of a block of uncorrected ADC output samples to provide a block of corrected ADC samples, and iteratively minimizing a measure of the spectral flatness of the block of corrected ADC samples with response to the vector of correction variables. |
| US08410951B2 |
Detecting a signal quality decrease in a measurement system
Techniques for detecting a signal quality decrease are disclosed. A sensor or probe may be used to obtain a plethysmograph or photoplethysmograph (PPG) signal from a subject. A wavelet transform of the signal may be performed and a scalogram may be generated based at least in part on the wavelet transform. One or more characteristics of the scalogram may be determined. The determined characteristics may include, for example, energy values and energy structural characteristics in a pulse band, a mains hum band, and/or a noise band. Such characteristics may be analyzed to produce signal quality values and associated signal quality trends. One or more signal quality values and signal quality trends may be used to determine if a signal quality decrease has occurred or is likely to occur. |
| US08410943B2 |
Bed exit lighting
A person-support apparatus includes a frame, a plurality of sensors, and a controller. The plurality of sensors are configured to determine a person's position relative to the frame. The controller is operatively coupled to the sensors. The controller determines whether an exit condition has been met. A light source is operatively coupled to the controller. The light source is activated by the controller when the controller determines that the exit condition has been met. |
| US08410942B2 |
Systems and methods to adjust an adjustable bed
A system and method provide for reducing the snoring of a person sleeping on an adjustable bed. The system comprises a device configured with at least a microphone and a speaker, the device configured to monitor for a noise consistent with snoring. The system further comprises a control unit communicably coupled to the device and configured to actuate at least one motor of the adjustable bed to adjust at least a portion of the adjustable bed, wherein the control unit is further configured to actuate the at least one motor in response to the device detecting a noise consistent with snoring. |
| US08410937B2 |
Two-part security tag
A security tag contains two parts. The contact (or lack thereof) of the two parts defines the operational state of the security tag. In one state, the security tag responds when a central control station runs a wireless security scan. In the other state, the tag does not respond. Thus the wireless security scan reveals the tag's operational state. If, for example, one part of the tag is affixed to a window, and the other part affixed to a flame of the window, then the two parts can be arranged so that they are in contact when the window is closed but not in contact when the window is open. A wireless scan of the tag thus reveals whether or not the window is open. In one embodiment, one part of the security tag includes an RFID circuit, and the other part includes an antenna. |
| US08410936B2 |
Contactless card that receives power from host device
A memory card compatible RFID card includes a smartcard controller that receives power from a host device. The RFID card also includes a small inductive device capable of inductive coupling with an RFID reader. The small inductive device is small enough to fit in the form factor of a memory card. Commands may be sent to the RFID card to keep the RFID card powered. |
| US08410934B2 |
Warning system, monitoring device and method for monitoring controlled device
A warning system includes a monitoring device and a controlled device, wherein the controlled device includes a wireless transmitter, a wireless receiver, a phase analyzer and a warning indicator. The wireless transmitter can transmit a detection signal, and then the controlled device responses to the detection signal and transmits a feedback signal. The wireless receiver can receive the feedback signal. The phase analyzer can analyze a phase difference between the detection signal and the feedback signal. The warning indicator can perform a warning action when the phase difference is greater than a preset value. Moreover, a method for monitoring a controlled device is disclosed in specification. |
| US08410933B2 |
Electronic device and theft warning method thereof
A theft warning system includes a first electronic device and a second electronic device. The first electronic device is configured for transmitting monitoring signals, wherein the frequency of the monitoring signals is capable of changing according to change in the voltage supplied to the first electronic device. The second electronic device communicates with the first electronic device by receiving the monitoring signals transmitted by the first electronic device, and generating alarms when a frequency of the received monitoring signals is changed. A theft warning method applied to the electronic device is also provided. |
| US08410929B2 |
Remote vehicle starting system providing an audible indication relating to remote starting and associated methods
A remote starting system for an engine of a vehicle includes a remote start handheld unit. A remote start controller may be positioned at the vehicle for starting the engine based upon the remote start handheld unit and causing the engine to run for a run time period before shutting off the vehicle engine. The remote start controller is resettable based upon the remote start handheld unit to cause the engine to run for an additional run time period while the engine is still running and before shutting off the engine. The remote start handheld unit includes an audible indicator for providing an audible indication to a user prior to expiration of the run time period to permit a user to use the remote start handheld unit to reset the run time period while the engine is still running and before shutting off the engine. |
| US08410927B2 |
Apparatus and method for finding a misplaced object using a database and instructions generated by a portable device
The basic invention uses a portable device that can contain a camera, a database, and a text, voice or visual entry to control the storage of an image into a database. Furthermore, the stored image can be associated with text, color, visual or audio. The stored images can be used to guide the user towards a target that the user does not recall its current location. The user's commands can be issued verbally, textually or by scrolling through the target images in the database until the desired one is found. This target can be shoes, pink sneakers, a toy or some comparable items that the user needs to find. |
| US08410923B2 |
Single MCU-based motion detection, local alarm and supervisory arrangement for alarm system
A device with single MCU-based motion detection, local alarm and supervisory arrangement for alarm system controlled by an alarm control panel (ACP) is disclosed. The device includes a sensor component to monitor environment, an output component to generate warning messages, a power supply component to provide power, and a microcontroller to communicate with sensor component, drive output component and monitor the status of ACP. The device can detect when intruders break in and make alarm warnings even when the ACP is destroyed. Plurality of devices and said ACP form a local warning matrix network (LWMN) to increase the detection area and scary effect to intruders. Each device of LWMN works independently when the ACP is destroyed. |
| US08410920B2 |
Proximity notification device, proximity notification program and method for notifying proximity of vehicle
A probability acquisition unit reads a collision probability that a pedestrian collides against a self-vehicle, from a data map, in which positions of a pedestrian are beforehand associated with collision probabilities, with reference to an obtained position of a pedestrian around a self-vehicle. A function control unit activates an alarm unit to cause an alarm to notify proximity of the self-vehicle to a pedestrian when the obtained collision probability is higher than a threshold. An obstacle acquisition unit obtains a detection result of an obstacle, which obstructs movement of a pedestrian. A path estimation unit estimates a traveling path of the self-vehicle on the data map. The probability acquisition unit decreases a collision probability in a region of the data map, the region being beyond the detected obstacle when viewed from the traveling path. |
| US08410919B2 |
Driving support apparatus
A driving support ECU comprises: a roadside object detection section for detecting, in a case where a lane marking WR on at least one of the right side and left side is detected by a white line detection section and another lane marking WL is not detected, a roadside object GL on the other of the right side and left side; a white line estimation part for estimating a position of a lane marking VL1 on the other of the right side and the left side based on the detected roadside object GL; and an information outputting section for determining a departure from the lane in which the vehicle VC is running, based on the estimated position of the lane marking VL1 on the other of the right side and left side. |
| US08410916B1 |
Refreshable tactile mapping device
A device and method are provided for creating a tactile picture by controlling gas flow through a plurality of through holes on a plate. |
| US08410911B2 |
RFID network system
A RFID network system which allows the use of simple and low cost, reduced functionality RFID readers/writers thanks to the use of a plurality of concentrators which allow to distribute the processing work related to the reading, writing and verification of each reader, thus optimizing the use of each system component and achieving high processing velocities. |
| US08410901B2 |
Assigning controlled access to securable devices
Controlled access to a securable device is assigned whereby a kiosk is operable to assign an authorized user an ability to access a securable device selected from among a plurality of securable devices located remotely from the kiosk. The kiosk associates a unique personal identification number (PIN) with the authorized user and with the selected securable device, and is operable to transmit the unique PIN to the selected securable device, inform the user of the unique PIN; provide the user with location information of the selected securable device. The selected securable device is adapted to accept entry, at the securable device, of a PIN, and permits access upon entry of the unique PIN. |
| US08410900B2 |
Method for processing received event message
Techniques for processing an incoming message from premises equipment at a monitoring location. In one embodiment, an event message, including digits with varying amplitudes, is generated at a premises (such as a home, office, factory, etc.) in response to an event at the premises. A communication channel is established between the premises equipment and the monitoring location and the event message is sent from the premises equipment to the monitoring location. The entire event message is evaluated based on the number of digits received compared to expected receiving parameters defined in a communication protocol. A number of possible interpretations of the event message is determined. One or more possible interpretations of the event message are eliminated based on the number of digits in each of the possible interpretations to create a subset of possible interpretations. Receipt of the event message is determined by selecting one possible interpretation from the subset of possible interpretations based upon the number of digits received by the monitoring location within a predetermined protocol time. |
| US08410899B2 |
Automobile keyless entry system having an RFID interrogator
A keyless entry system for an automobile is described. The keyless entry system comprises a radio frequency identification (RFID) tag that has been programmed to selectively unlock an automobile when the RFID tag is within a predetermined distance and, optionally, to lock the automobile when the RFID is outside the predetermined distance. An interrogator housed on or within the automobile comprises an actuatable RF signal generator for transmitting an electromagnetic signal and a time-out circuit. Regardless whether the programmed RFID tag is detected, or not, the RF signal generator transmits a first electromagnetic signal having a first limited total continuous transmit time, followed by an interim period of a defined length where the time-out circuit renders the interrogator incapable of transmitting the electromagnetic signal, followed by the RF signal generator transmitting a second electromagnetic signal having a second limited total continuous transmit time. |
| US08410895B2 |
Remote control and monitoring of barrier operators with radio frequency transceivers
Low cost, low power consumption radio frequency transceivers are incorporated in barrier operator control systems for transmitting signals between an operator control unit, one or more remote control units, a diagnostic or calibration device and an obstruction detector. Similar detector devices, including such transceivers, may be employed in loading docks for detecting the status of dock levelers and vehicle restraint devices. Radio frequency communication eliminates the need for hard wiring and also provides for transmission of commands and status information between various control units. |
| US08410890B2 |
Combination wire connector and current transformer
A transformer assembly for mounting a current transformer to an electrical apparatus. The generally toroidal current transformer senses electrical current in conductors of the electrical apparatus and has a housing. A mechanical lug for conductors of the electrical apparatus is mounted directly to the housing of the current transformer, within the central opening of the toroid. The mechanical lug has one or more conductor bores located within a main body of the mechanical lug for receiving respective conductor wires. |
| US08410889B2 |
Transformer construction
The invention relates to a transformer construction comprising a plurality of transformer cores configured to share magnetic flux paths and, as a result, at least one of the cores comprises a post and an associated sidewall having an effective cross-sectional area which is less than that of the post. Such a construction may be employed in a power conditioning unit, for example, for a photovoltaic module, which is configured to operate the cores out of phase from each other. Also described is a transformer winding comprising a longitudinal spine having a first turn emanating from a first portion of the spine in a first transverse direction and a second turn emanating from a second portion of the spine in a second transverse direction, wherein the second transverse direction is opposite to the first transverse direction. |
| US08410883B2 |
High voltage dry-type reactor for a voltage source converter
A high voltage dry-type reactor is series-connected via a first terminal to an AC supply voltage and via a second terminal to the AC phase terminal of a high voltage converter and includes a cylindrical coil of insulated wire. In order to protect the reactor from a damaging DC field, the reactor further includes a metallic or resistive electrostatic shield which is connected to a same DC potential as the converter. |
| US08410882B2 |
Field emission system and method
An improved field emission system and method is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. |
| US08410880B2 |
Material magnetizer systems
A system for improved magnetization of flexible magnetic sheet material, such as magnetic rubber. More particularly, this invention relates to providing a system for magnetization of pre-printed flexible magnetic sheet material. |
| US08410878B1 |
Contact device and electromagnetic switch using contact device
The present invention provides a contact device capable of narrowing a gap between a fixed contactor and a movable contactor and reducing the number of parts and the production costs, and an electromagnetic switch that uses the contact device. The contact device has a pair of columnar fixed contactors (6a, 6b) which are fixed to a surface of an insulation airtight container (4) while keeping a predetermined space therebetween, each having at least a tip end contact surface protruding into the insulation container; a movable contactor (11) that is disposed so as to be capable of contacting with and separating from the pair of fixed contactors (6a, 6b); and a pair of arc extinguishing annular permanent magnets (9a, 9b) which is respectively attached to outer circumferential surfaces of the pair of fixed contactors (6a, 6b) and drives an arc outwardly. |
| US08410874B2 |
Vertical quasi-CPWG transmission lines
In one example embodiment, a coplanar waveguide signal transition element transitions high-speed signals between vertically stacked coplanar waveguide transmission lines. The signal transition element comprises one or more dielectric layers and a plurality of electrically conductive vias extending through at least a portion of the one or more dielectric layers. The vias include one or more signal vias and one or more ground vias that are configured to transition signals between the vertically stacked coplanar waveguide transmission lines. The signal transition element also comprises a ground plane disposed within the one or more dielectric layers and electrically coupled to the one or more ground vias. The ground plane has one or more openings through which the one or more signal vias respectively pass. |
| US08410873B2 |
Dielectric resonator having a dielectric resonant element with two oppositely located notches for EH mode coupling
Disclosed are a dielectric resonator having simple configuration applicable to a multiple mode with no electrical signal transmission loss, and a method of controlling a resonance state (coupling mode) in the dielectric resonator. The dielectric resonator includes a cylindrical or polygonal external conductor, and a dielectric resonant element arranged at the substantially center of the external conductor. A notched portion is formed at a part of the dielectric resonant element so as to control the resonance state of the dielectric resonator. |
| US08410871B2 |
Tunable resonator and tunable filter
A tunable filter is provided which includes a filter unit comprising a pair of microstrips which are disposed facing each other, a capacitor unit connected to one side of the filter unit, and an adjustment unit for regulating the length of each of the pair of microstrips to adjust inductance of the filter unit, the adjustment unit being connected to the opposite side of the filter unit. The length of the microstrips may thereby be regulated in order to vary the frequency band. |
| US08410868B2 |
Methods and apparatus for temperature control of devices and mechanical resonating structures
Methods and apparatus for temperature control of devices and mechanical resonating structures are described. A mechanical resonating structure may include a heating element and a temperature sensor. The temperature sensor may sense the temperature of the mechanical resonating structure, and the heating element may be adjusted to provide a desired level of heating. Optionally, additional heating elements and/or temperature sensors may be included. |
| US08410856B2 |
Method and apparatus for canceling balun amplifier noise
The noise figure of a low noise amplifier (LNA) is reduced without sacrificing performance such as gain, IIP3, and wideband impedance matching. Embodiments include configuring a control module of the LNA to sum and scale an output from a current-sensing branch of the LNA and an output from a voltage sensing branch of the LNA into one or more summed and scaled outputs. The control module also feeds the one or more summed and scaled outputs back to at least one of the outputs of the branches of the LNA. |
| US08410852B2 |
Drive amplifier
A drive amplifier having improved linearity while being characterized by low current consumption. The drive amplifier includes first and second transistors having a gate to which first and second differential Radio Frequency (RF) voltages are respectively input; a third transistor which has a drain connected to a drain of the second transistor and a source connected to the gate of the first transistor, and a drain-source current which increases with an increase in the second differential RF voltage; and a fourth transistor which has a drain connected to a drain of the first transistor and a source connected to the gate of the second transistor, and a drain-source current which increases with an increase in the first differential RF voltage. |
| US08410849B2 |
Systems and methods of RF power transmission, modulation, and amplification, including blended control embodiments
Embodiments of the present invention enable a blended control approach to generate a desired output waveform in an outphasing-based system. Embodiments of blended control according to the present invention combine outphasing with bias and/or amplitude control to yield an accurate, practical, and producible system with substantially comparable performance to that of a theoretical ideal outphasing system, but without the isolation and accuracy requirements of outphasing alone. |
| US08410842B1 |
Power switch circuit
A power switch circuit includes a control circuit, and first and second detecting circuits. The control circuit includes first and second field effect transistors (FETs) and first and second sensing resistors. The first detecting circuit includes two input terminals connected to the first and second ends of the first sensing resistor and an output terminal connected to the first FET. The first detecting circuit controls the first FET to be turned on or turned off according to the voltages of the first and second ends of the first sensing resistor. The second detecting circuit includes two input terminals connected to the first and second ends of the second sensing resistor and an output terminal connected to the second FET. The second detecting circuit controls the second FET to be turned on or turned off according to the voltages of the first and second ends of the second sensing resistor. |
| US08410841B2 |
Input/output circuit
In some embodiments, an input/output (I/O) circuit sends and receives a high-level signal and a low-level signal via a coupling capacitance provided on a communication line. The I/O circuit includes a receiving portion including a first detection circuit arranged to detect one of the signals and a second detection circuit arranged to detect the other signal, a transmitting portion including a three-value output circuit configured to output one of signals consisting of a high-level signal, a low-level signal, and a high impedance signal, and a control circuit configured to control the receiving portion and the transmitting portion. The control circuit judges a level of an inputted signal depending on detection results of the first detection circuit and the second detection circuit in a receiving state and controls an output value of the three-value output circuit in a transmitting state. |
| US08410839B2 |
Systems and methods for driving high power states using lower voltage processes
A battery assisted level shifter comprises a pull up transistor pulling up an output when a received input signal is high, a pull down transistor pulling down the output when the received input signal is low, and a battery element to provide voltage offsets. The battery element can be implemented using one or more pull-up transistors for assisting with pulling up the output. The level shifter can be used in class-D amplifiers, DC-DC power converters and interfaces between circuits having different reference voltages. |
| US08410836B2 |
Phase locked loop
A phase locked loop includes a phase detector configured to compare a phase of an input clock with a phase of a feedback clock to produce a phase comparison result, an initial frequency value provider configured to detect a frequency of the input clock and provide a frequency detection result, a controller configured to generate a frequency control signal based on the phase comparison result and the frequency detection result, and an oscillator configured to generate an output clock in response to the frequency control signal. |
| US08410835B1 |
Leakage tolerant phase locked loop circuit device
Leakage tolerant phase locked loop (PLL) circuit devices and methods of locking phases of output phase signals to a phase of a reference signal using a leakage tolerant PLL circuit device are provided. Embodiments include a PLL circuit device comprising: a primary loop and a secondary correction circuit. The primary loop includes a phase detector, an error controller, a voltage controlled oscillator (VCO), and feedback divider. The secondary correction circuit is configured to generate and provide a secondary error-frequency signal to the error controller. The secondary correction circuit is configured to generate the secondary error-frequency signal in response to detecting a particular edge of a divided VCO output signal. The primary loop is configured to control a frequency adjustment based on at least one of a first error-frequency-increase signal, a first error-frequency-decrease signal, and the secondary error-frequency signal. |
| US08410833B2 |
On-chip power-up control circuit
A power-up control circuit utilizes on-chip circuits, multiple voltages, a ring oscillator and counter, and edge and level detection circuits to guarantee reset during power-up conditions and continues the reset state with a variable length counter to guarantee a predictable reset. In addition, a clean start-up after a logical power-down condition is provided. |
| US08410830B2 |
Injection locked frequency divider and associated methods
An apparatus includes an injection locking frequency divider, which includes a first resonant tank that has a first resonance frequency and a common mode path that includes a second resonant tank, and has a second resonance frequency that is a harmonic of the first resonance frequency. The second resonant tank is adapted to receive a first signal having an oscillation frequency near the harmonic of the first resonance frequency to cause the first resonant tank to provide a second signal that is locked to the first signal. |
| US08410827B2 |
Transmitter, interface device, and car mounted communication system
A transmitter includes a capacitor from one end of which a charge voltage is derived; a first constant current source to generate a charge current for the capacitor; a second constant current source to generate a discharge current for the capacitor; a charge/discharge controller to perform charge/discharge control of the capacitor based on a logic level of a transmission input signal and a comparison result between the charge voltage and a reference voltage; an output stage to generate the transmission output signal, wherein a slew rate of which is set in response to the charge voltage, and wherein an amplitude of the transmission output signal is set in response to an output side power source voltage; a reference voltage generator to fluctuate the reference voltage depend on the output side power source voltage; and a constant current controller to fluctuate a current value of the charge current and the discharge current depend on the reference voltage. |
| US08410821B2 |
Output current detecting circuit and transmission circuit
An output current detecting circuit includes: a current detecting transistor having a size smaller than that of an output transistor and a control terminal, to which a voltage same as a control voltage of the output transistor is applied; a sensing resistor connected to the current detecting transistor in a serial mode; a comparison circuit comparing a voltage converted by the sensing resistor and a reference voltage to judge a magnitude of a current flowing through the output transistor; and a reference voltage generating circuit, wherein the reference voltage generating circuit includes a constant current circuit flowing a constant current and a resistance element having one terminal connected to a power source voltage terminal, the reference voltage generating circuit generating the reference voltage based on a power source voltage by the conversion of the constant current into a voltage by flowing the constant current through the resistance element. |
| US08410820B2 |
High speed latch comparators
In a latch circuit having a bistable pair of cross connected transistors of a first polarity and a third transistor of a second polarity, a current signal greater than a bias current is received at a latch circuit port, amplified with the third transistor, and applied to the latch circuit port. This decreases the time in which the latch circuit port receiving the current signal greater than the bias current reaches a steady state voltage. |
| US08410814B2 |
Receiver circuits for differential and single-ended signals
Receiver circuits for differential and single-ended signals are disclosed. In some embodiments, a receiver may include a first amplifier configured to receive a first signal of a differential pair of signals at a first input and a second signal of the differential pair of signals at a second input when operating in differential mode. The receiver may also include a second amplifier coupled to the first amplifier, where the second amplifier is configured to receive a reference signal at a third input and a single-ended signal at the first input when operating in single-ended mode. In some embodiments, several receivers may be used, for example, to process a differential clock signal and one or more single-ended data signals referenced to the clock signal and/or differential data signals referenced to a single-ended clock signal. In some embodiments, the delays of each signal propagating through each respective receiver may be independently adjusted. |
| US08410809B2 |
Under-voltage and over-voltage detection circuit and driving method thereof
A low-voltage and over-voltage detection circuit receives a power source voltage, generates a shift voltage by shifting the received voltage to a predetermined level, and fixes the shift voltage as a clamping voltage when the shift voltage is higher than a predetermined clamping voltage. The low-voltage and over-voltage detection circuit includes a first transistor and a second transistor. The first transistor generates a regulator voltage that varies according to the power source voltage and performs a switching operation according to the shift voltage and the regulator voltage, and the second transistor is connected in parallel with the first transistor and generates hysteresis. The low-voltage and over-voltage detection circuit determines whether the power source voltage is a low-voltage or an over-voltage by using a drain voltage generated according to currents flowing to the first and second transistors. |
| US08410802B2 |
System including thermal control unit having conduit for dispense and removal of liquid thermal interface material
Systems and methods including testing of electronic components are described. One system relates to a system including a thermal control unit adapted to control the temperature of at least a portion of an electronic component during testing. The system includes at least one conduit extending through a portion of the thermal control unit, the conduit sized to permit the flow of a thermal interface material therethrough, the thermal interface material comprising a liquid. The at least one conduit is positioned so that the thermal interface material can be delivered through the conduit and onto the electronic component. The system also includes a device adapted to control the flow of the thermal interface material through the conduit, wherein the flow can be controlled to deliver the thermal interface material to the electronic component and to remove the thermal interface material from the electronic component. Other embodiments are described and claimed. |
| US08410799B2 |
Motion sensing device and electronic device using the same
A motion sensing device includes a housing defining a chamber that includes a number of sidewalls. A number of movable members are connected to the sidewalls and able to move toward the sidewalls. Each movable member includes a number of conductive grooves opposing the sidewalls and having a resistance layer. A number of conductive spring members are respectively fixed to the sidewalls and each include a free end movably received in one conductive groove. An inertial weight is movably received in a space defined by the movable members. When the motion sensing device is jerked, the inertial weight moves and is able to apply a pushing force to one of the movable members, causing one of the movable members to move and causing two of the free ends in the same conductive groove to move toward each other. |
| US08410797B2 |
Capacitive sensor and sensing method
A capacitive sensing method is provided. The capacitive sensing method includes the step of alternately charging/discharging a capacitive sensing electrode of a capacitive sensor for predetermined times under an active mode and charging/discharging the capacitive sensing electrode during a fixed period under a standby mode while an object is not coupled to the capacitive sensing electrode, in which the capacitive sensing electrode has a first capacitance while the object is not coupled to the capacitive sensing electrode. The capacitive sensing method also includes the step of generating a switch signal while the object is coupled to the capacitive sensing electrode under the standby mode such that the capacitive sensing electrode has a second capacitance larger than the first capacitance and the step of switching the standby mode to the active mode according to the switch signal. |
| US08410796B2 |
Method for calibrating apparatuses for determining the moisture content of products based on capacitive measurements, and device for stimulating the dielectric properties of products, such as wood, for use in this method
A method for calibrating apparatuses for determining the moisture content of products based on capacitive measurements comprises the following operating steps: Inserting a device (1) for simulating the dielectric properties of products in a measuring area of an apparatus (2) to be calibrated; taking a capacitive measurement with the apparatus (2) while the device (1) is inserted in the measuring area; modifying the device (1) settings at least once and taking the capacitive measurement again, for each different setting value; comparing each capacitive measurement taken this way with a corresponding known reference capacitive measurement; calibrating the apparatus (2) based on this comparison. In turn, the device used in the method comprises at least a first receiving antenna (3), at least an electric terminal (4), in practice electrically connectable to the apparatus (2), and at least one adjustable impedance (5) for modifying the settings of the device (1), and which is electrically connected between the first antenna (3) and the electric terminal (4). |
| US08410792B2 |
Resonator arrangement and method for analyzing a sample using the resonator arrangement
A resonator arrangement has a conductive, semi-open outer housing, at an interior of which a conductive bar is provided disposed coaxially to the housing. At one end of the bar in a direction of a housing bottom, the bar has a die and, together with a dielectric and the housing bottom, forms a capacitor. The bar is short-circuited to the housing at another end, so that the bar and housing together form an LC oscillator circuit. Also disclosed is a method for analyzing a sample using a resonator arrangement. |
| US08410790B2 |
Apparatus for testing transformers
The invention relates to a device for testing transformers, having a static frequency converter (2). The static frequency converter (2) comprises a plurality of outlets (21, 22, 23), which are connected to a filter device (6). The filter device (6) also comprises a plurality of outlets (31, 32, 33), which are connected to a matching transformer (8), and wherein the matching transformer (8) is connected to the transformer (15) intended for testing. The filter device (6) is a filter transformer (11). |
| US08410789B2 |
High voltage electric cable
An electric cable is provided having a conductor element, and successively around the conductor element an electrically-insulating layer; a metal screen and an outer protective sheath. The cable has an extruded outer layer surrounding the outer protective sheath, the extruded outer layer being directly in contact with the outer protective sheath, and being obtained from a composition containing more than 50.0 parts by weight of apolar polymer per 100 parts by weight of polymer in the composition, together with an electrically-conductive filler. |
| US08410785B2 |
Electrical power system phase and ground protection using an adaptive quadrilateral characteristics
A quadrilateral distance module may be used to detect faults in an electrical power system. A resistive coverage of the quadrilateral distance module may be defined by an adaptive resistance blinder. The adaptive resistance blinder may be adapted to certain power system conditions, such as forward load flow and/or reverse load flow. A forward adaptive resistance blinder may be calculated in parallel with a reverse adaptive resistance blinder. The forward adaptive resistance blinder may use a polarizing quantity adapted for forward load flow conditions, and the reverse adaptive resistance blinder may use a polarizing quantity adapted for reverse load flow conditions. Fault detection may be performed by comparing both the forward and reverse adaptive resistance blinders to power system stimulus and detecting a fault when the stimulus satisfy either blinder. |
| US08410779B2 |
Contrast agent-free MR angiography with SSFP sequences
In a method to generate an MR angiography image of an examination region of a subject without the use of contrast agent, a first MR image of the examination region is acquired with a first imaging sequence in which a gradient-induced phase development for unmoved and moved spins is essentially completely rephased at the end of a repetition interval TR, and a second MR image of the examination region is acquired with a second imaging sequence in which the gradient-induced phase development for unmoved spins is likewise essentially completely rephased at the end of the repetition interval TR and a rest phase φrest for moved spins remains at the end of the repetition interval TR. The second MR image is subtracted from the first MR image to generate the MR angiography image. |
| US08410778B2 |
Magnetic resonance method and apparatus to acquire multiple image data sets from a subject
In a magnetic resonance (MR) method and apparatus for the acquisition of a first image data set and a second image data set of an examination subject, a series of excitation pulses is radiated into the examination subject, and after each excitation pulse, a first echo signal is detected after a first echo time TE1 and a second echo signal is detected after a second echo time TE2, with TE2 greater than TE1, and the first echo signal is entered in a first raw MR data set and the second echo signal is entered in a second raw MR data set. A first image data set is acquired from the first MR data set on the basis of magnitude information contained in the first MR data set. A second image data set is acquired from the second MR data set on the basis of phase information contained in the second MR data set. The first and second image data sets are stored on at least one memory device.This manner of data acquisition and processing delivers results that typically are obtained from two different data acquisition and processing procedures, one for each desired image data set. |
| US08410775B2 |
Methods and apparatus to detect location and orientation in an inductive system
A base station (e.g., a central device including a transducer assembly of one or more orthogonal transducers) transmits a magnetic field at a known power level and direction. The magnetic field signal includes data information transmitted from the base station to a movable remote station. The remote station includes a transducer assembly of one or multiple transducer coils to receive the magnetic field generated by the base station. Location and orientation of the remote station (with respect to the base station) are determined based on the magnitude, amplitude, and/or phase of magnetic field signals received on each of the remote station's transducers. The remote station may transmit the location and orientation information (e.g., raw measured data or converted data) to the base station using the same coils as used by the remote station to receive the magnetic field generated by the base station. |
| US08410774B2 |
Electromagnetic motion sensor
An electromagnetic motion sensor includes a base, an electromagnetic induction layer, a block, and an emitting coil. The electromagnetic induction layer with a plurality of induction coils is arranged on the bottom of the base. The block is movably connected to the base by a plurality of elastic members. The emitting coil is fixed to a center of the bottom of the block facing the induction layer. A circuit inside the block provides current to the emitting coil. The block moves with the jerk of the motion sensor when the motion sensor is jerked, causing the elastic members to be distorted. The relative movement between the block and the magnetic induction layer causes more than one of the induction coils generate and output voltage signals according to the change of magnetic flux through the plurality of induction coils caused by the moving of the emitting coil. |
| US08410773B2 |
Surge current detection device
A protection element (e.g., an arrester) protects a piece of equipment to be protected, from surge currents line terminals and an earth terminal. Surge current detection devices are provided on respective conductors connected to the arrester. Each of the surge current detection devices is to detect the surge current penetrated into a conductor for a short period of time, and includes a magnetic flux concentration member by which a magnetic flux produced by the penetrated surge current is concentrated in a given detection area at a high density, and a ferromagnetic material sheet positioned on the given detection area. The ferromagnetic material sheet includes a recording layer which is able to record and erase the penetration state of the surge current. A plurality of microcapsules are arranged in the recording layer, and each of the microcapsules contains a suitable liquid, and a plurality of magnetic particles suspended in the suitable liquid. An orientation state of the magnetic particles is varied by the concentrated magnetic flux, and can be visually recognized. |
| US08410771B2 |
Method and apparatus for spectrum detection
A spectrum detection method, system and base station are provided, which relate to the field of communications technology, and improve the spectrum utilization in a cellular multi-hop network. The spectrum detection method includes: receiving an intermediate spectrum detection result sent by each node; and integrating the intermediate spectrum detection results to obtain a final spectrum detection result. The spectrum detection method, system, and base station are mainly applied to cellular multi-hop networks. |
| US08410770B2 |
Fast boost regulator
A boost regulator that comprises a capacitor adapted to couple in parallel with a load, a switch coupled to the capacitor and to a diode, a comparator coupled to the load and receiving a reference voltage, and a circuit logic component that receives an output of the comparator and an output of a duty cycle signal generator. An output of the circuit logic component couples to the switch and is capable of activating and de-activating the switch. |
| US08410767B2 |
Control circuit of DC-DC converter applying offset to coil current, DC-DC converter applying offset to coil current and control method of DC-DC converter
A DC-DC converter or the like capable of generating a stable output voltage is provided. A control circuit 11 of a current mode step-down DC-DC converter 1 includes a slope compensation circuit SC and an offset circuit IF1. The slope compensation circuit SC adds an increase gradient m2 due to slope compensation to an increase gradient of a coil current waveform Vsense in a range wherein an ON period Ton of a switch SW1 exceeds ½ of an operating cycle T. An offset circuit IF1 applies an offset voltage Voffset which becomes smaller depending on the ON period Ton in excess of ½ of an operating cycle T, to a coil current waveform Vsense. |
| US08410763B2 |
Controller for buck and boost converter
A PWM controller for adjusting an output voltage of a buck and boost converter includes a first saw wave generator, which generates a first saw wave in accordance with the level of the output voltage. A first comparator coupled to the first saw wave generator compares the first saw wave with a first reference voltage and generates a first pulse. A peak hold circuit coupled to the first saw wave generator holds a peak value of the first saw wave. A second saw wave generator coupled to the peak hold circuit generates a second saw wave having a lower limit value that is the peak value of the first saw wave. A second comparator coupled to the second saw wave generator compares the second saw wave with the first reference voltage and generates a second pulse. |
| US08410762B2 |
DC-DC converter
The high-side switch has one end connected to the input terminal. The low-side switch has one end connected to other end of the high-side switch and other end connected to a ground terminal. The inductor has one end connected to the other end of the high-side switch and other end connected to the output terminal. The capacitor has one end connected to the other end of the inductor and other end connected to the ground terminal. The high-side switch controlling circuit generates and supplies a high-side switch controlling signal based on a target voltage of the output terminal, the output voltage of the output terminal, and a current flowing through the capacitor, to the high-side switch. The low-side switch controlling circuit generates and supplies a low-side switch controlling signal based on the high-side switch controlling signal and a current flowing through the inductor, to the low-side switch. |
| US08410760B2 |
Battery thermal system control strategy
A method and system for controlling temperature in an electric vehicle battery pack which preserves battery pack performance and longevity while maximizing vehicle driving range. A controller prescribes a minimum allowable operating temperature in the battery pack, where the minimum operating temperature increases as battery pack state of charge and remaining useful life decrease. During vehicle driving operations, the minimum allowable temperature is computed, and a thermal management system is used to warm the battery pack only if necessary to raise its temperature above the calculated minimum level. By minimizing use of the thermal management system to warm the battery pack, energy consumption is reduced and vehicle driving range is increased, while not adversely affecting battery pack performance or durability. The same strategy is employed during charging, which reduces the amount of energy consumed from the grid for warming the battery pack. |
| US08410759B2 |
Electrolyte for an electrochemical battery cell
Electrolyte for an electrochemical battery cell that contains sulphur dioxide and a conductive salt. The electrolyte is a gel that is formed with to the involvement of a fluorosulphinate. The invention is also directed to a battery cell that contains such an electrolyte. |
| US08410758B2 |
Systems and methods for bi-directional energy delivery with galvanic isolation
Systems and methods are provided for bi-directional energy delivery. A charging system comprises a first bi-directional conversion module, a second bi-directional conversion module, and an isolation module coupled between the first bi-directional conversion module and the second bi-directional conversion module. The isolation module provides galvanic isolation between the first bi-directional conversion module and the second bi-directional conversion module. |
| US08410756B2 |
Battery pack having a sensor activated off switch
A battery pack is provided with a plurality of battery modules; a pack main body that removably receives the plurality of battery modules; a movable member that prohibits the plurality of battery modules from being attached to and removed from the pack main body at a first position; at least one sensor that detects whether the movable member is located at the first position or not; and a controller that performs at least one predetermined processing based on detection by the at least one sensor. |
| US08410750B2 |
Method for solar power energy management with intelligent selection of operating modes
A method for solar power energy management with intelligent selection of operating modes classifies the power energy of a solar cell and an reserved power of a rechargeable battery into multiple power level ranges, and determine to supply power to a load in accordance with various combinations of the power level ranges of the solar cell and the rechargeable battery to avoid energy waste. When the solar cell is in a “sufficient” power level range, the power energy of the solar cell is simultaneously supplied to the load and stored in the rechargeable battery. When the solar cell is in an “insufficient” power level range, all the power energy of the solar cell is selectively supplied to the load or charged to the rechargeable battery. When being in a “poor” power level range, the power energy of the solar cell can still be charged to the rechargeable battery. |
| US08410748B2 |
Removable photovoltaic charging pack including a device compartment and container including a receiving compartment with a transparent panel to hold the charging pack
A portable container having an exterior surface and defining an interior compartment. The portable container includes a photovoltaic (PV) charging pack and a receiving device coupled to the exterior surface for detachably coupling the PV charging pack to the exterior surface. The PV charging pack includes a PV panel and defines a compartment for containing a portable electronic device. The PV panel is oriented away from the exterior surface when the PV charging pack is coupled to the receiving device. |
| US08410741B2 |
Servo motor control apparatus and control method
A servo motor control apparatus has a feedback loop. When an oscillation detection signal indicates no detection of oscillation, a parameter operating section gives an updating section an operational instruction to set a control parameter in accordance with a supplied set value. When the oscillation detection signal indicates detection of oscillation, the parameter operating section gives the updating section an operational instruction to set such a control parameter as to narrow a frequency band width of the feedback loop. |
| US08410739B2 |
Method and apparatus for determining the operating condition of generator rotating diodes
A controller (500) in an electric drive system is used to determine the operating condition of array of rotating diodes (302B) within a generator (204). During operation, the controller (500) receives a set of generator inputs, a set of machine parameters, and a set of diagnostic values. Next, the controller (500) determines a set of expected operating values corresponding to the set of diagnostic values. The controller (500) then compares the obtained diagnostic values to one or more corresponding expected operating values. If the difference is greater than a threshold, the controller (500) provides a fault indication that one or more of the array of rotating diodes (302B) has malfunctioned. |
| US08410738B2 |
Semiconductor device
Multiple pads are provided to a semiconductor chip of a semiconductor device. A first pad is arranged on a path for a first signal set to a voltage that corresponds to a first level in the active state. The first signal is input to the semiconductor chip from outside the semiconductor device, or is output to outside the semiconductor device from the semiconductor chip. A second pad is provided in order to receive a setting voltage. A first pin is connected to a first pad via a connection member, and receives the first signal from outside the semiconductor device, or from the semiconductor chip via the first pad. A second pin receives, from outside, a second signal set to a voltage that corresponds to the first level or a second level which is the complement of the first level. |
| US08410735B2 |
Torque ripple suppression control device for permanent magnet motor and electric power steering system
A torque ripple suppression control device for a permanent magnet motor includes a current command conversion unit that outputs a current command value, a position detector that detects a rotational position of the permanent magnet motor, a current detection unit that detects a current at the permanent magnet motor, an induced voltage coefficient setting unit that outputs an information signal related to an induced voltage coefficient for an induced voltage at the permanent magnet motor, a torque ripple suppression operation unit that outputs a current correction command value for the permanent magnet motor, a current control operation unit that outputs a voltage command value based upon addition results obtained by adding together the current command value and the current correction command value and the current detection value, and a power converter that outputs a voltage with which the permanent magnet motor is to be driven. |
| US08410729B2 |
Special purpose modes in photonic band gap fibers
Photonic band gap fibers are described having one or more defects suitable for the acceleration of electrons or other charged particles. Methods and devices are described for exciting special purpose modes in the defects including laser coupling schemes as well as various fiber designs and components for facilitating excitation of desired modes. Results are also presented showing effects on modes due to modes in other defects within the fiber and due to the proximity of defects to the fiber edge. Techniques and devices are described for controlling electrons within the defect(s). Various applications for electrons or other energetic charged particles produced by such photonic band gap fibers are also described. |
| US08410728B2 |
Method of and device for controlling shed lighting
A method of, and a device for controlling a shed lighting, and a shed provided therewith. To support daylight, lamps are switched on, but only in the case when the measured intensity is too low and, moreover, the time in which the daylight intensity could become sufficient is too short to achieve a desired period of time with a minimum light intensity. This saves energy and service life of lamps. |
| US08410724B2 |
Lighting control console for controlling a lighting system
Various embodiments of the invention relate to a lighting control console for controlling a lighting system comprising wherein digital adjusting commands, which can be transferred to the lighting devices of the lighting system via data connections, are generated in the lighting control console, and wherein the lighting control console comprises at least one housing, in which the hardware components are arranged so as to be protected from external influences, and wherein the lighting control console comprises a plurality of operating elements, in particular pushbuttons, slide controls and/or rotary controls, which are arranged at the upper side of the housing and by means of which operating commands can be input, and wherein the lighting control console comprises at least one display device, at which a user interface can be displayed. |
| US08410722B2 |
Illumination system
In an illumination system (1) having a control unit (2) and at least one de-central lamp operating device (12, 22) for operating one or more associated lamps (LA), the lamp operating device (12, 22) can be operated in different operational modes. In accordance with the invention the central control unit (2) and the lamp operating device (12, 22) are so configured that the selection and setting of an operational mode for the lamp operating device (12, 22) can be carried out from or via the central control unit (2). |
| US08410706B2 |
Method of calibrating a daylight sensor
A wireless lighting control system comprises a daylight sensor for measuring a light intensity in a space and a dimmer switch for controlling the amount of power delivered to a lighting load in response to the daylight sensor. For example, the daylight sensor may be able to transmit radio-frequency (RF) signals to the dimmer switch. The system provides methods of calibrating the daylight sensor that allow for automatically measuring and/or calculating one or more operational characteristics of the daylight sensor. One method of calibrating the daylight sensor comprises a “single-button-press” calibration procedure during which a user is only required to actuate a calibration button of the daylight sensor once. In addition, the daylight sensor is operable to automatically measure the total light intensity in the space at night to determine the light intensity of only the electrical light generated by the lighting load. |
| US08410705B2 |
LED lighting system with bypass circuit for failed LED
A bypass circuit is provided for each LED in a series to permit continued operation with reduced lighting in the event of an LED failure. The bypass circuit is provided in parallel to the LED and comprises a Zener Diode provided in parallel to a thyristor. Upon LED failure, the voltage across the Zener Diode is increased thereby triggering the thyristor which is maintained in a triggered mode as long as current flows through the series circuit. |
| US08410704B1 |
Ionization device
Ionization devices that have at least two modes of ionization, and that can switch between these two modes of operation, are described. Illustratively, the ionization devices can switch between a photoionization (PI) mode and a combined mode of electroionization (EI) and PI (EI/PI mode). |
| US08410699B2 |
Heat dissipation enhanced LED lamp
A LED lamp which could directly replace an ordinary tungsten, halogen, or electricity-saving light bulb, includes a LED filament, a lamp base, a thermally conductive electric insulator, and a mask. The thermally conductive electric insulator is filled in a cavity of the lamp base, and includes a first portion mechanically contacting the LED filament and an electrode of the lamp base to provide a first thermal channel from the LED filament to the lamp base, and a second portion adhering the mask to the lamp base to provide a second thermal channel from the lamp base to the mask. By using the mask to enlarge the heat dissipation area, a better heat dissipation effect is achieved. |
| US08410693B2 |
Plasma display panel
A plasma display panel includes a rear plate and a front plate arranged as opposed to the rear plate. The rear plate has a vertical barrier rib and a horizontal barrier rib orthogonal to the vertical barrier rib. The front plate has a first transparent electrode in parallel with the horizontal barrier rib and a plurality of second transparent electrodes in parallel with the vertical barrier rib. The front plate further has a plurality of bus electrodes having the same width and arranged with the same interval. The plurality of bus electrodes includes a first bus electrode electrically connected with the first transparent electrode, and a second bus electrode electrically connected with the plurality of second transparent electrodes. The second bus electrode is formed in a position opposed to the horizontal barrier rib. |
| US08410689B2 |
Stacked body having a light emitting element and a light detecting element for measuring an amount of light, a light emitting device, and an image formation device
A stacked body comprising a light emitting layer and a light detecting element which detects light emitted by the light emitting layer. The light detecting element has a light detecting region which overlaps a light emitting surface of the light emitting layer as viewed in the thickness direction of the light emitting layer. |
| US08410681B2 |
Light emitting device having a refractory phosphor layer
A light emitting device and method of producing the same is disclosed. The light emitting device includes a transparent thermal conductor layer, a refractory phosphor layer provided on the transparent thermal conductor layer, and a light emitting semiconductor arranged to emit light toward the transparent thermal conductor layer and the refractory phosphor layer. |
| US08410679B2 |
Semiconductor light emitting devices with densely packed phosphor layer at light emitting surface
An LED includes a chip having a light emitting surface, and a coating of phosphor-containing material on the light emitting surface. Phosphor particles are arranged in a densely packed layer within the coating at the light emitting surface, and such that the light emitting surface is in contacting relationship with the phosphor particles. |
| US08410677B2 |
Blue phosphor, light-emitting device, and plasma display panel
The present invention provides a blue phosphor having high luminance and showing less luminance degradation during driving of a light-emitting device. The present invention is a blue phosphor that includes: an alkaline earth metal aluminate represented by a general formula aBaO.bSrO.(1−a−b)EuO.cMgO.dAlO3/2, where 0.70≦a≦0.95, 0≦b≦0.15, 0.95≦c≦1.15, 9.00≦d≦11.00, and a+b≦0.97 are satisfied; and 0.008 mol to 0.800 mol of MWO4 with respect to 1 mol of the aluminate, where M is at least one element selected from a group consisting of Ba, Sr, and Ca. |
| US08410675B2 |
Thermionic electron emission device
A thermionic electron emission device includes an insulating substrate and one or more lattices located on the insulating substrate. Each lattice includes a first, second, third and fourth electrode down-leads located on the insulating substrate to define an area. A thermionic electron emission unit is located in the area. The thermionic electron emission unit includes a first electrode, a second electrode, and a thermionic electron emitter. The thermionic electron emitter includes a carbon nanotube film structure. The carbon nanotube film structure includes a carbon nanotube film. The carbon nanotube film includes a number of carbon nanotubes joined end to end along axial directions of the carbon nanotubes by contacting with each other directly. |
| US08410668B2 |
Crystal oriented ceramic composite body, and piezoelectric/electrostrictive element
A crystal oriented ceramic composite body is provided, including a substrate that has a first surface and a second surface, and a {100} oriented ceramic film that is disposed to face the first surface. The {100} oriented ceramic film includes a first sectional surface. The first sectional surface is perpendicular to the first surface, and a 90 degree domain includes a domain wall within a range of ±20 degrees of a normal to the first surface and occupies a surface area of at least ⅓ of the first sectional surface. |
| US08410666B2 |
Ultrasonic probe and method of manufacturing the same
According to one embodiment, an ultrasonic probe includes a plurality of piezoelectric elements, a first electrode, a plurality of second electrodes, a plurality of stacked flexible printed circuit boards, and a plurality of connection portions. The plurality of piezoelectric elements are arrayed. The first electrode is provided on the emitting surface side of the plurality of piezoelectric elements. The plurality of second electrodes are respectively provided on the rear surface sides of the plurality of piezoelectric elements. The plurality of stacked flexible printed circuit boards respectively include a plurality of terminals. The plurality of connection portions electrically connect the second electrodes to the terminals. At least one of the flexible printed circuit boards extends longer than the flexible printed circuit board serving as an upper layer. |
| US08410665B2 |
MEMS kinetic energy conversion
The present disclosure provides a micro device. The device has a micro-electro-mechanical systems (MEMS) movable structure, a plurality of metal loops over the MEMS movable structure, and a piezoelectric element over the MEMS movable structure. Frontside and backside capping wafers are bonded to the MEMS structure, with the frontside and backside capping wafers encapsulating the MEMS movable structure, the plurality of metal loops, and the piezoelectric element. The device further includes a magnet disposed on the frontside capping wafer over the plurality of metal loops. |
| US08410663B2 |
Piezoelectric actuator unit having a stress relieving layer and method for manufacturing the same
A piezoelectric actuator unit which undergoes less change in the amount of displacement and shows high durability in continuous operation under a high voltage and a high pressure over a long period of time is provided.The piezoelectric actuator unit including a multi-layer piezoelectric element having piezoelectric layers and metal layers with the piezoelectric layers and the metal layers being stacked one on another, and a case which houses the multi-layer piezoelectric element, wherein at least one of the plurality of metal layers is stress relieving layer which consists of a plurality of partial metal layers that are scattered throughout the entire region between two piezoelectric layers which adjoin the partial metal layers in the direction of stacking, and voids, and a peel-off section is formed at least in a part of the interface between the stress relieving layer and the piezoelectric layer that adjoins therewith. |
| US08410661B2 |
Method of generating electrical energy in an integrated circuit, corresponding integrated circuit and method of fabrication
A method of generating electrical energy in an integrated circuit that may include setting into motion a (3D) three-dimensional enclosed space in the integrated circuit. The 3D enclosed space may include a piezoelectric element and a free moving object therein. The method may also include producing the electrical energy from impact between the free moving object and the piezoelectric element during the motion. |
| US08410660B2 |
Acoustic devices embedded in photostructurable ceramics
A photostructurable ceramic is processed using photostructuring process steps for embedding devices within a photostructurable ceramic volume, the devices may include one or more of chemical, mechanical, electronic, electromagnetic, optical, and acoustic devices, all made in part by creating device material within the ceramic or by disposing a device material through surface ports of the ceramic volume, with the devices being interconnected using internal connections and surface interfaces. |
| US08410659B2 |
Electromechanical transducer and manufacturing method therefor
An electromechanical transducer includes a vibration membrane provided with a first electrode, a substrate provided with a second electrode, and a support member adapted to support the vibration membrane in such a manner that a gap is formed between the vibration membrane and the substrate, with the first and second electrodes being arranged in opposition to each other, wherein a part of the vibration membrane and a part of the substrate are in contact with each other at a contact region, and another region of the vibration membrane other than the contact region is able to vibrate; an overlap region is provided between the first electrode and second electrode in the contact region, and at least one of these electrodes has a through portion formed therethrough in at least a part of the overlap region, and a plurality of protrusions formed within the gap and on at least one of the vibration member and the support member, wherein the contact region is surrounded by the plurality of protrusions. |
| US08410636B2 |
Low AC resistance conductor designs
Described herein are improved configurations for providing a stranded printed circuit board trace comprising, a plurality of conductor layers, a plurality of individual conductor traces on each of the said conductor layers, and a plurality of vias for connecting individual conductor traces on different said conductor layers, the vias located on the outside edges of the stranded trace. The individual conductor traces of each layer may be routed from vias on one side of the stranded printed circuit board trace to vias on the other side in a substantially diagonal direction with respect to the axis of the stranded printed circuit board trace. In embodiments, the stranded printed circuit board trace configuration may be applied to a wireless power transfer system. |
| US08410635B2 |
Systems and methods for deactivating a matrix converter
Systems and methods are provided for deactivating a matrix conversion module. An electrical system comprises an alternating current (AC) interface, a matrix conversion module coupled to the AC interface, an inductive element coupled between the AC interface and the matrix conversion module, and a control module. The control module is coupled to the matrix conversion module, and in response to a shutdown condition, the control module is configured to operate the matrix conversion module to deactivate the first conversion module when a magnitude of a current through the inductive element is less than a threshold value. |
| US08410627B2 |
Self orienting vertical axis wind turbine
A vertical axis wind turbine includes a propeller assembly formed from a hub with downwardly and outwardly depending blades. The propeller assembly has a polygonal base with the blades forming the bases of a triangular surface meeting at a common vertex. The hub is mounted on a spindle which is connected to a shaft which is rotatable. A bendable joint is provided between the spindle and the shaft such that the hub and blades appear to face into the wind and spin. A lower end of the rotatable shaft is connected to a means for utilizing the rotation of the shaft. The angle that the blades make to the hub may be changed such that the blade swept area presented to the wind may be regulated to either speed up or slow down rotation. Struts may be provided between the blades such that longer blades may be used. |
| US08410626B2 |
Submersible power generating plant, driven by a water flow
There is provided a power generation plant for obtaining electrical power from a water flow. The power generation plant includes a revolving unit having a water turbine, a directly driven electrical generator having a coaxial configuration with a generator rotor and generator stator, a gondola housing having a housing part to form a cylindrical internal opening where the generator stator is situated, a support element for supporting the revolving unit which is situated coaxially and radially inside the cylindrical internal opening to bear the generator rotor, and a bearing configuration for the running of the support element in the cylindrical internal opening. The electric generator of the power generation plant is situated asymmetrically in relation to the longitudinal extension of the cylindrical internal opening in the gondola housing and is also displaced toward the support structure carrying the gondola housing. |
| US08410616B2 |
Method of processing resist, semiconductor device, and method of producing the same
A surface component film (2) is etched using a resist (3) as a mask, and the surface component film (2) is patterned according to the shape of an aperture (3a). This results in a step portion (4) having the same shape as the aperture (3a), with the sidewall (4a) of the step portion (4) exposed through the aperture (3a). The aperture (3a) is spin-coated with a shrink agent, reacted at a first temperature, and developed to shrink the aperture (3a). To control the shrinkage with high accuracy, in the first round of reaction, the aperture is shrunk by, for example, about half of the desired shrinkage. The aperture (3a) is further spin-coated with a shrink agent, reacted at a second temperature, and developed to shrink the aperture (3a). In this embodiment, the second-round shrink process will result in the desired aperture length. The second temperature is adjusted based on the shrinkage in the first round. With respect to a resist using short-wavelength light (short-wavelength resist) or a resist using electron beam (electron beam resist), a minute aperture can be obtained with stable shrink effect and accurate control of the length thereof. |
| US08410613B2 |
Semiconductor device having groove-shaped pattern
The semiconductor device has insulating films 40, 42 formed over a substrate 10; an interconnection 58 buried in at least a surface side of the insulating films 40, 42; insulating films 60, 62 formed on the insulating film 42 and including a hole-shaped via-hole 60 and a groove-shaped via-hole 66a having a pattern bent at a right angle; and buried conductors 70, 72a buried in the hole-shaped via-hole 60 and the groove-shaped via-hole 66a. A groove-shaped via-hole 66a is formed to have a width which is smaller than a width of the hole-shaped via-hole 66. Defective filling of the buried conductor and the cracking of the inter-layer insulating film can be prevented. Steps on the conductor plug can be reduced. Accordingly, defective contact with the upper interconnection layer and the problems taking place in forming films can be prevented. |
| US08410612B2 |
Interconnect regions
Some embodiments include interconnect regions. The regions may contain, along a cross section, a closed-shape interior region having an electrically conductive material therein, a first dielectric material configured as a liner extending entirely around a lateral periphery of the interior region, and at least two dielectric projections joining to the dielectric material liner and being laterally outward of the interior region. The dielectric projections may have an outer dielectric ring surrounding an inner dielectric region. The outer ring may consist of the first dielectric material and the inner dielectric region may be a composition different from a composition of the first dielectric material, and in some embodiments the composition within the inner dielectric region may be gaseous. |
| US08410604B2 |
Lead-free structures in a semiconductor device
A semiconductor device includes a semiconductor die and a plurality of lead-free solder bumps disposed on a surface of the semiconductor die. A substrate includes a plurality of metal layers and a plurality of dielectric layers. One of the metal layers includes a plurality of contact pads corresponding to the plurality of lead-free solder bumps, and one of the dielectric layers is an exterior dielectric layer having a plurality of respective openings for the contact pad. A plurality of respective copper posts is disposed on the contact pads. The respective copper post for each contact pad extends from the contact pad through the respective opening for the contact pad. The semiconductor die is mounted on the substrate with connections between the plurality of lead-free solder bumps and the plurality of copper posts. |
| US08410602B2 |
Cooling system for semiconductor devices
In one embodiment, the present invention includes a socket for a semiconductor package, where the socket has a frame with a segmented design, where socket streets are located between the segments. One or more of the streets may include a conduit to enable thermal transfer during operation of the semiconductor package. Other embodiments are described and claimed. |
| US08410600B2 |
Semiconductor device with protecting film and method of fabricating the semiconductor device with protecting film
Provided are a semiconductor device and a method of fabricating the semiconductor device, the semiconductor device including: a source trace, a drain trace, and a gate trace placed on a substrate; a transistor which is placed on the drain trace and includes a source pad and a gate pad; insulating films placed between the drain and source traces and between the drain and gate traces on the substrate so as to cover sidewall surfaces of the transistor; a source spray electrode which is placed on the insulating film between the source and drain traces and connects the source pad of the transistor and the source trace; and a gate spray electrode placed on the insulating film between the gate and drain traces and connects the gate pad of the transistor and the gate trace. |
| US08410598B2 |
Semiconductor package and method of manufacturing the same
A semiconductor package is formed having a substrate juxtaposed on at least two sides of a semiconductor die. Both the substrate and the semiconductor die are affixed to a conductive layer that draws heat generated during use of the semiconductor package away from the semiconductor die and the substrate. There are also electrical contacts affixed to the substrate and the semiconductor die. The electrical contacts facilitate electrical connection between the semiconductor die, the substrate, and any external devices or components making use of the semiconductor die. The substrate, semiconductor die, and at least a portion of some of the electrical contacts are enclosed by an encapsulating layer insulating the components. Portions of the electrical contacts not enclosed by the encapsulating layer are affixed to an outside device, such as a printed circuit board. |
| US08410597B2 |
Three dimensional semiconductor device
A 3D semiconductor device includes a conductive plate defining four sides and four recesses formed in the four sides, respectively. The conductive plate has first and second surfaces opposite to each other. A plurality of conductive leads are located in the recesses, respectively, and the conductive leads have first and second surfaces opposite to each other. A semiconductor die is attached onto the central area of the conductive plate. A plurality of conductive wires electrically connects the semiconductor die to the conductive leads. An encapsulant encloses, as in a capsule, the conductive plate, the conductive leads, the semiconductor die, and the conductive wires in such a manner that the first and second surfaces of the conductive plate and the first and second surfaces of the conductive leads are exposed to the outside. |
| US08410596B2 |
Semiconductor multi-package module including tape substrate land grid array package stacked over ball grid array package
A single metal layer tape substrate includes a patterned metal layer affixed to a patterned dielectric layer. The dielectric layer is patterned to provide openings exposing lands and bond sites on bond fingers on the land side of the metal layer. The metal layer is patterned to provide circuit traces as appropriate for interconnection with the die and with other elements. Interconnection with a die is made by wire bonding to exposed traces on a die attach side of the metal layer, and bond fingers and lands for access to testing the package are provided on the land side of the metal layer. |
| US08410592B2 |
Semiconductor device and method for producing the same
A semiconductor device includes a vertical transistor and an external contact plane. The transistor includes: a first side with a first load electrode and a control electrode, and an opposite second side with a second load electrode. The first side of the transistor faces the external contact plane. A dielectric layer extends from at least one edge side of the transistor as far as the second load terminal. An electrically conductive deposited layer is arranged on the dielectric layer and electrically connects the second load electrode to the second load terminal. |
| US08410577B2 |
Semiconductor device
The invention provides a semiconductor device which has a capacitor element therein to achieve size reduction of the device, the capacitor element having larger capacitance than conventional. A semiconductor integrated circuit and pad electrodes are formed on the front surface of a semiconductor substrate. A second insulation film is formed on the side and back surfaces of the semiconductor substrate, and a capacitor electrode is formed between the back surface of the semiconductor substrate and the second insulation film, contacting the back surface of the semiconductor substrate. The second insulation film is covered by wiring layers electrically connected to the pad electrodes, and the wiring layers and the capacitor electrode overlap with the second insulation film being interposed therebetween. Thus, the capacitor electrode, the second insulation film and the wiring layers form capacitors. |
| US08410576B2 |
Inductive structure and method of forming the inductive structure with an attached core structure
An inductor is formed on a wafer by attaching a first core structure to the wafer with a pick and place operation, forming a coil with one or more thick metal layers over the first core structure, and then attaching a second core structure to the first core structure with the pick and place operation after the coil has been formed. In addition, the pick and place operation can also be used to attach one or more integrated circuits to the wafer to form an integrated inductive device. |
| US08410575B2 |
High voltage semiconductor devices and methods of forming the same
High voltage semiconductor devices and methods of fabrication thereof are described. In one embodiment, a method of forming a semiconductor device includes forming first trenches in an insulating material. A trap region is formed in the insulating material by introducing an impurity into the first trenches. The first trenches are filled with a conductive material. |
| US08410574B2 |
Integrated microelectronic device with through-vias
An integrated microelectronic device is formed from a substrate having a first side and a second side and including a doped active zone (2) in the first side of the substrate. A circuit component is situated in the doped active zone. A through silicon via extends between the second side and the first side, the via being electrically isolated from the substrate by an insulating layer. A buffer zone is situated between the insulating layer and the doped active zone. This buffer zone is positioned under a shallow trench isolation zone provided around the doped active zone. The buffer zone functions to reduce the electrical coupling between the through silicon via and the doped active zone. |
| US08410573B2 |
SOI (silicon on insulator) structure semiconductor device and method of manufacturing the same
In a SOI structure semiconductor device using a SOI substrate, a lattice distortion layer is formed by implanting Ar ions into a silicon substrate as an active layer. The lattice distortion layer is capable of serving as a gettering site. The dose amount of Ar ions is adjusted in such a manner that tensile stress in the lattice distortion layer is equal to or greater than 11 MPa and equal to or less than 27 MPa. Thus, the lattice distortion layer can prevent occurrence of a leakage current while serving as the gettering site. |
| US08410571B2 |
Layout of dummy patterns
A layout of dummy patterns on a wafer having a plurality of pads disposed thereon is described. The layout of the dummy patterns includes having a plurality of dummy patterns spaced apart from each other and enclosing the plurality of the pads. The plurality of dummy patterns also include a plurality of peripheral dummy patterns and a plurality of central dummy patterns, wherein a minimum distance between the plurality of the central dummy patterns and the plurality of the pads is greater a minimum distance between the plurality of the peripheral dumpy patterns and the plurality of the pads. |
| US08410569B2 |
Solid-state imaging device and method for producing the same
A solid-state imaging device includes a first substrate including a light-sensing portion configured to perform photoelectric conversion of incident light and a wiring portion provided on a light-incident side; an optically transparent second substrate provided on a wiring portion side of the first substrate at a certain distance; a through-hole provided in the first substrate; a through-via provided in the through-hole; a front-surface-side electrode connected to the through-via and provided on a front surface of the first substrate; a back-surface-side electrode connected to the through-via and provided on a back surface of the first substrate; and a stopper electrode provided on the front-surface-side electrode and filling a space between the front-surface-side electrode and the second substrate. |
| US08410567B2 |
Solid image-pickup device with flexible circuit substrate
An improved solid image-pickup device is so formed that its semiconductor device has on its surface an image-pickup area having a plurality of light sensors arranged thereon. A plurality of bonding pads are formed on the surface of the semiconductor device and arranged around the image-pickup area. A plurality of through holes are formed through the semiconductor substrate, extending from the lower surfaces of the bonding pads to the back surface of the semiconductor substrate and each of the through holes is filled with an electrically conductive material, thereby effecting an electric connection between the bonding pads and the copper wire of the flexible circuit substrate bonded to the back surface of the semiconductor substrate. |
| US08410562B2 |
Methods, apparatuses, and systems for micromechanical gas chemical sensing capacitor
A capacitive chemical sensor, along with methods of making and using the sensor are provided. The sensors described herein eliminate undesirable capacitance by etching away the substrate underneath the capacitive chemical sensor, eliminating most of the substrate capacitance and making changes in the chemical-sensitive layer capacitance easier to detect. |
| US08410561B2 |
Electronic device and method for manufacturing thereof
An electronic device, including a substrate, a functional structure constituting a functional element formed on the substrate, and a cover structure forming a cavity portion in which the functional structure is disposed, is disclosed. In the electronic device, the cover structure includes a laminated structure of an interlayer insulating film and a wiring layer, the laminated structure being formed on the substrate in such a way that it surrounds the cavity portion, and the cover structure has an upside cover portion covering the cavity portion from above, the upside cover portion being formed with part of the wiring layer that is disposed above the functional structure. |
| US08410559B2 |
Selectively self-assembling oxygen diffusion barrier
A shallow trench isolation structure is formed in a semiconductor substrate adjacent to an active semiconductor region. A selective self-assembling oxygen barrier layer is formed on the surface of the shallow trench isolation structure that includes a dielectric oxide material. The formation of the selective self-assembling oxygen barrier layer is selective in that it is not formed on the surface the active semiconductor region having a semiconductor surface. The selective self-assembling oxygen barrier layer is a self-assembled monomer layer of a chemical which is a derivative of alkylsilanes including at least one alkylene moiety. The silicon containing portion of the chemical forms polysiloxane, which is bonded to surface silanol groups via Si—O—Si bonds. The monolayer of the chemical is the selective self-assembling oxygen barrier layer that prevents diffusion of oxygen to a high dielectric constant material layer that is subsequently deposited as a gate dielectric. |
| US08410558B2 |
Semiconductor device with field plates
A semiconductor device includes source fingers and drain fingers provided on an active region of a nitride semiconductor layer alternately, gate fingers having a side edge and a distal edge, a first insulation film provided on the nitride semiconductor layer and covers a top face, the side and distal edges of the gate fingers, field plates provided on the first insulation film between the gate fingers and the drain fingers, a minimum distance between the side face of the first insulation film located on the side edge of the gate fingers and the field plate being at least 100 nm, and field plate interconnections provided on the first insulation film and located outside of the active region and electrically connected with the source fingers and the field plates, a minimum distance between the side face of the first insulation film located on the distal edge of the gate fingers and the field plate interconnections being at least 100 nm. |
| US08410550B2 |
Breakdown voltage MOS semiconductor device
A semiconductor device has: a low concentration drain region creeping under a gate electrode of a MIS type transistor; a high concentration drain region having an impurity concentration higher than the low concentration drain region and formed in the low concentration drain region spaced apart from the gate electrode; and an opposite conductivity type region of a conductivity type opposite to the drain region formed in the low concentration drain region on a surface area between the high concentration drain region and the gate electrode, the opposite conductivity type region and low concentration drain region forming a pn junction. |
| US08410547B2 |
Semiconductor device and method for fabricating the same
A semiconductor device includes a substrate having a recess in an area where a gate is to be formed, spacers formed over sidewalls of the recess, and a first gate electrode filling in the recess. The spacers include material having the first work function or insulation material. The first gate electrode includes material having a second work function, wherein the second work function is higher than that of the spacers. |
| US08410544B2 |
finFETs and methods of making same
A method of fabricating and a structure of a merged multi-fin finFET. The method includes forming single-crystal silicon fins from the silicon layer of an SOI substrate having a very thin buried oxide layer and merging the end regions of the fins by growing vertical epitaxial silicon from the substrate and horizontal epitaxial silicon from ends of the fins such that vertical epitaxial silicon growth predominates. |
| US08410539B2 |
MOS transistor with a settable threshold
A MOS transistor comprising a conductive extension of its source region, insulated from its substrate, and partially extending under its channel. |
| US08410538B2 |
Semiconductor memory device and method for manufacturing same
According to one embodiment, a semiconductor memory device includes a substrate, a stacked body, a memory film, and a SiGe film. The stacked body includes a plurality of conductive layers and a plurality of insulating layers alternately stacked above the substrate. The memory film includes a charge storage film. The memory film is provided on a sidewall of a memory hole punched through the stacked body. The SiGe film is provided inside the memory film in the memory hole. |
| US08410537B2 |
Nonvolatile semiconductor memory device and method of manufacturing the same
The invention enhances program performance by increasing a coupling ratio between an N+ type source layer and a floating gate and reduces a memory cell area. Trenches are formed on the both sides of an N+ type source layer. The sidewalls of the trench includes first and second trench sidewalls that are parallel to end surfaces of two element isolation layers, a third trench sidewall that is perpendicular to the STIs, and a fourth trench sidewall that is not parallel to the third trench sidewall. The N+ type source layer is formed so as to extend from the bottom surface of the trench to the fourth trench sidewall, largely overlapping a floating gate, by performing ion-implantation of arsenic ion or the like in a parallel direction to the third trench sidewall and in a perpendicular direction or at an angle to a P type well layer from above the trench having this structure. |
| US08410534B2 |
Integrated circuit structures with silicon germanium film incorporated as local interconnect and/or contact
Disclosed are integrated circuit structures each having a silicon germanium film incorporated as a local interconnect and/or an electrical contact. These integrated circuit structures provide improved local interconnects between devices and/or increased capacitance to devices without significantly increasing structure surface area or power requirements. Specifically, disclosed are integrated circuit structures that incorporate a silicon germanium film as one or more of the following features: as a local interconnect between devices; as an electrical contact to a device (e.g., a deep trench capacitor, a source/drain region of a transistor, etc.); as both an electrical contact to a deep trench capacitor and a local interconnect between the deep trench capacitor and another device; and as both an electrical contact to a deep trench capacitor and as a local interconnect between the deep trench capacitor and other devices. |
| US08410532B2 |
Solid-state imaging device including a multilayer wiring layer, color filters, lenses, and waveguide groove and manufacturing method for the same
The present invention provides a solid-state imaging device comprising: a semiconductor substrate having a pixel region and a peripheral circuit region; a multilayer wiring layer including layers of wiring and an interlayer film interposed therebetween, and disposed above the semiconductor substrate to cover the pixel region and the peripheral circuit region except areas above the photoelectric conversion elements; a waveguide member filling the areas above the photoelectric conversion elements (waveguides) and covering the multilayer wiring layer at least within the pixel region; and an optical structure (composed of a color filter material and a lens material) disposed above the waveguide member within the pixel region, wherein a groove is formed by removing a portion of the waveguide member from an area within the pixel region that is in a border between the pixel region and the peripheral circuit region. |
| US08410528B2 |
CMOS image sensor
Disclosed is a CMOS image sensor, which can minimize a reflectance of light at an interface between a photodiode and an insulating film, thereby enhancing image sensitivity. Such a CMOS image sensor includes a substrate provided with a photodiode consisting of Si, an insulating film consisting of SiO2 and formed on the substrate, a semi-reflection film interposed between the substrate and the insulating film, and metal interconnections, color filters and micro lenses constituting individual unit pixels. The semi-reflection film has a refraction index value between those of the Si photodiode and the SiO2 insulating film. |
| US08410525B2 |
Compound semiconductor substrate and device therewith
A semiconductor device is formed on a semiconductor substrate, which is comprised of: a base substrate; and a multilayer being formed on the base substrate and having a surface serving for an interface with the semiconductor device, the multilayer including alternating layers of a first compound semiconductor and a second compound semiconductor materially distinguishable from the first compound semiconductor, one selected from the group consisting of the first compound semiconductor and the second compound semiconductor being doped with one selected from the group consisting of carbon and transition elements. |
| US08410521B2 |
Semiconductor light emitting device
Provided is a semiconductor light emitting device. The semiconductor light emitting device comprises a substrate, a first semiconductor layer on substrate, an air-gap part disposed in at least portion between the substrate and the first semiconductor layer, and a plurality of compound semiconductor layers comprising a first conductive type semiconductor layer, an active layer, and a second conductive type semiconductor layer on the first semiconductor layer. |
| US08410519B2 |
Integrated circuits with aligned (100) NMOS and (110) PMOS FinFET sidewall channels
An integrated circuit device that includes a plurality of multiple gate FinFETs (MuGFETs) is disclosed. Fins of different crystal orientations for PMOS and NMOS MuGFETs are formed through amorphization and crystal regrowth on a direct silicon bonded (DSB) hybrid orientation technology (HOT) substrate. PMOS MuGFET fins are formed with channels defined by fin sidewall surfaces having (110) crystal orientations. NMOS MuGFET fins are formed with channels defined by fin sidewall surfaces having (100) crystal orientations in a Manhattan layout with the sidewall channels of the different PMOS and NMOS MuGFETs aligned at 0° or 90° rotations. |
| US08410518B2 |
Organic light emitting diode display and method for manufacturing the same
In one aspect, an organic light emitting diode (OLED) display that includes: a substrate; an organic light emitting element on the substrate; a thin film encapsulation layer on the substrate and covering the organic light emitting element; a polymer carpet layer directly on the thin film encapsulation layer; and a cover film directly on the polymer carpet layer is provided. |
| US08410517B2 |
Light emitting diode coating method
Provided is a light emitting diode (hereinafter, referred to as an LED) coating method, and more particularly, an LED coating method that can be used to coat a phosphor, a molding, etc., on an LED.The LED coating method includes (a) preparing a substrate and a plurality of LEDs arranged on the substrate; (b) applying a photoresist onto the substrate and the plurality of LEDs; and (c) selectively exposing the photoresist to light to form a first coating on surfaces of the plurality of LEDs. Here, the first coating is formed by curing the photoresist. |
| US08410516B2 |
Light emitting diode package having interconnection structures
A light emitting diode (LED) package includes a substrate, a first LED chip and a second LED chip. The substrate includes first to fourth electrodes, and an interconnection electrode. A mounting area is defined at center of a top surface of the substrate. The first to fourth electrodes are respectively in four corners of the substrate out of the mounting area. The first interconnection electrode is embedded in the substrate to electrically connect the first and the third electrodes. The first LED chip and the second LED chip are arranged in the mounting area. Each LED chip includes an anode pad and a cathode pad. The first to fourth electrodes are respectively connected to the four pads of the first and the second LED chips via a plurality of metal wires, and no metal wire connection is formed between the first and the second LED chips. |
| US08410515B2 |
Solid state lighting devices with point contacts and associated methods of manufacturing
Solid state lighting (“SSL”) devices with improved contacts and associated methods of manufacturing are disclosed herein. In one embodiment, an SSL device includes a first semiconductor material, a second semiconductor material spaced apart from the first semiconductor material, and an active region between the first and second semiconductor materials. The SSL device also includes an insulative material on the first semiconductor material, the insulative material including a plurality of openings having a size of about 1 nm to about 20 μm, and a conductive material having discrete portions in the individual openings. |
| US08410512B2 |
Solid state light emitting apparatus with thermal management structures and methods of manufacturing
Provided are apparatus and methods corresponding to a solid state light emitting element. Such methods include mounting, to a thermally conductive component, a solid state light emitting element that includes first and second electrical connection points that are configured to be conductively engaged on a first side of a circuit structure. The solid state light emitting element is electrically insulated from the thermally conductive component to provide that electrical connections are arranged on the first side of the circuit structure and heat is conducted to a second side of the circuit structure that is opposite the first side of the circuit structure. |
| US08410507B2 |
Thermal light source having a high color rendering quality
A luminous means (1) including at least one optoelectronic semiconductor device (2) which emits electromagnetic radiation during operation at at least one first wavelength (L1) and at at least one second wavelength (L2), wherein the first wavelength (L1) and the second wavelength (L2) differ from one another and are below 500 nm, in particular between 200 nm and 500 nm. Furthermore, the luminous means (1) includes at least one conversion means (3) which converts the first wavelength (L1) at least partly into radiation having a different frequency. The radiation spectrum emitted by the luminous means (1) during operation is metameric with respect to a black body spectrum. Such a luminous means makes it possible to choose the first wavelength and the second wavelength in such a way that a high color rendering quality and a high efficiency of the luminous means can be realized simultaneously. |
| US08410505B2 |
Light-emitting diode having a reflective layer between a transparent insulating layer and an electrode
A light-emitting diode (LED) structure and a method for manufacturing the same. The LED structure includes a substrate, an illuminant epitaxial structure, first conductivity type and second conductivity type contact layers, a transparent insulating layer, first and second reflective layers, first and second barrier layers, and first conductivity type and second conductivity type electrodes. |
| US08410502B2 |
Light-emitting device, planar light source including the light-emitting device, and liquid crystal display device including the planar light source
A light-emitting device according to an embodiment of the present invention includes a light-emitting element, and a package substrate on which this light-emitting element is placed. This package substrate includes a placement face on which the light-emitting element is placed, a back face that is opposed to the placement face, and a mounting face that is opposed, between the placement face and the back face, to a mounting substrate when the light-emitting device is mounted, and includes a first recess portion that extends, on the mounting face, from the back face toward the placement face and that has a first heat conduction member formed on the surface thereof, and an intermediate heat conduction member for conducting heat between the light-emitting element and the first heat conduction member. |
| US08410500B2 |
Light-emitting apparatus with shaped wavelength converter
Proposed is a light-emitting apparatus 200,300,400, comprising a semiconductor light emitting device 220,320,420 and a transparent ceramic body 230,330,430 comprising a wavelength converting material positioned in light receiving relationship to the semiconductor device. The light-emitting apparatus is characterized in that the side surfaces 233,333,433 of the ceramic body 230,330,430 are at an oblique angle 234,334,434 relative its bottom surface 231,331,431. This is especially advantageous to unlock the wave-guide modes inside the body 230,330,430. Consequently the total flux emitted from the light-emitting apparatus 200,300,400 can be enhanced considerably. Alternatively, the brightness of the top surface 232,332,432 of the ceramic body 230,330,430 can be enhanced considerably. |
| US08410499B2 |
LED with a current confinement structure aligned with a contact
An LED having a p-type layer of material with an associated p-contact, an n-type layer of material with an associated n-contact and an active region between the p-type layer and the n-type layer, includes a confinement structure that is formed within one of the p-type layer of material and the n-type layer of material. The confinement structure is generally aligned with the contact on the top and primary emission surface of the LED and substantially prevents the emission of light from the area of the active region that is coincident with the area of the confinement structure and the top-surface contact. The LED may include a roughened emitting-side surface to further enhance light extraction. |
| US08410495B2 |
Array-type light-emitting device and apparatus thereof
The application discloses an array-type light-emitting device comprising a substrate, a semiconductor light-emitting array formed on the substrate and emitting a first light with a first spectrum, wherein the semiconductor light-emitting array comprises a first light-emitting unit and a second light-emitting units, a first wavelength conversion layer formed on the first light-emitting unit for converting the first light into a third light with a third spectrum, and a circuit layer connecting the first light-emitting unit and the second light-emitting unit in a connection form to make the first light-emitting and the second light-emitting unit light alternately in accordance with a predetermined clock when driving by a power supply. |
| US08410494B2 |
Light emitting diode package and lamp with the same
An LED package comprises a substrate, a constant current die, an LED die and an encapsulation body. The substrate has a plurality of internal conductive contacts and a plurality of external conductive contacts. The constant current die is electrically connected to the internal conductive contact, and comprises a constant current circuit and a protection circuit in parallel, wherein the constant current circuit allows a first current to flow through and the protection circuit allows a second current, in an opposite direction to the first current, to flow through. The LED die is electrically connected to the internal conductive contact. The encapsulation body encapsulates the constant current die, the LED die and the internal conductive contacts of the substrate. Having a small volume, the LED package can be applied to a compact lamp and prevents the LED from being damaged. An LED lamp comprising the LED package is also disclosed. |
| US08410491B2 |
Semiconductor light emitting device substrate strips and packaged semiconductor light emitting devices
Semiconductor light emitting device packaging methods include fabricating a substrate configured to mount a semiconductor light emitting device thereon. The substrate may include a cavity configured to mount the semiconductor light emitting device therein. The semiconductor light emitting device is mounted on the substrate and electrically connected to a contact portion of the substrate. The substrate is liquid injection molded to form an optical element bonded to the substrate over the semiconductor light emitting device. Liquid injection molding may be preceded by applying a soft resin on the electrically connected semiconductor light emitting device in the cavity. Semiconductor light emitting device substrate strips are also provided. |
| US08410489B2 |
Semiconductor element, semiconductor device, and power converter
A semiconductor element 100 including an MISFET according to the present invention is characterized by having diode characteristics in a reverse direction through an epitaxial channel layer 50. The semiconductor element 100 includes a silicon carbide semiconductor substrate 10 of a first conductivity type, a semiconductor layer 20 of the first conductivity type, a body region 30 of a second conductivity type, a source region 40 of the first conductivity type, an epitaxial channel layer 50 in contact with the body region, a source electrode 45, a gate insulating film 60, a gate electrode 65 and a drain electrode 70. If the voltage applied to the gate electrode of the MISFET is smaller than a threshold voltage, the semiconductor element 100 functions as a diode in which current flows from the source electrode 45 to the drain electrode 70 through the epitaxial channel layer 50. The absolute value of the turn-on voltage of this diode is smaller than that of the turn-on voltage of a body diode that is formed of the body region and the first silicon carbide semiconductor layer. |
| US08410487B1 |
Manufacturing method and structure of LED chip
A manufacturing method and a structure of a light-emitting diode (LED) chip are disclosed. The method includes the steps of: providing a conductive block; providing an epitaxial block; bonding; removing an epitaxial substrate; making independent LEDs; forming a dielectric layer; and making electrical connection. A first LED, a second LED, and a third LED are formed on the conductive block, wherein the first and second LEDs are electrically connected in series, and the second and third LEDs are electrically connected in parallel. Thus, a basic unit with a flexible design of series- and parallel-connected LEDs can be formed to increase the variety and application of LED chip-based designs. |
| US08410486B2 |
Method for manufacturing microcrystalline semiconductor film and method for manufacturing semiconductor device
A method for manufacturing a semiconductor device having favorable electric characteristics with high productivity is provided. A first microcrystalline semiconductor film is formed over an oxide insulating film under a first condition that mixed phase grains with high crystallinity are formed at a low particle density. After that, a second microcrystalline semiconductor film is stacked over the first microcrystalline semiconductor film under a second condition that a space between the mixed phase grains are filled by the crystal growth of the mixed phase grains of the first microcrystalline semiconductor film. |
| US08410485B2 |
Pixel structure
A pixel structure including a scan line, a data line intersecting the scan line, a first gate, a second gate, a third gate, a semiconductor layer, a source, a first drain, a second drain, a first pixel electrode, and a second pixel electrode is provided. The dataline and the scan line are interlaced disposed. The semiconductor layer is disposed on the scan line to define the first gate and the second gate. The source is directly connected to the data line and located between the first gate and the second gate. The first gate is located between the first drain and the source. The second gate is located between the second drain and the source. The third gate is electrically connected to the scan line. The first pixel electrode and the second pixel electrode are respectively electrically connected to the first drain and the second drain. |
| US08410484B2 |
Flat display device with a dummy pixel integrally formed in a peripheral region
A flat display device is provided. The flat display device a substrate divided into an active region for displaying an image and a peripheral region that does not display the image, and includes: a gate line that crosses a data line to define a pixel region in the active region; a thin film transistor in a region near a crossing of the gate line and the data line; a first common electrode in the pixel region; a storage electrode on the first common electrode to provide storage capacitance; a pixel electrode electrically connected with the storage electrode and overlapping the pixel region, the data line, and the gate line; and an ink film covering the active region and the peripheral region, and having microcapsules including charged particles. |
| US08410483B2 |
Organic light-emitting display device and method of manufacturing the same
An organic light-emitting display device and method of manufacturing the same, the device including a first substrate; a second substrate facing the first substrate; an organic light-emitting unit formed by laser-induced thermal imaging, the organic light emitting unit being on the first substrate; a coupling member coupling the first substrate and the second substrate; and a supporting element on the first substrate, the supporting element having a height greater than a height of a thickest portion of the organic light-emitting unit and less than a height of the coupling member. |
| US08410482B2 |
Semiconductor device, light emitting apparatus and electronic device
Disclosed in a semiconductor device including a substrate, a first transistor, a second transistor, and a first source electrode and a first drain electrode of the first transistor are arranged along a first direction and a second source electrode and a second drain electrode of the second transistor are arranged in a reverse order of the first source electrode and the first drain electrode along the first direction, the first source electrode and the second source electrode are connected by a source connecting wiring, the first drain electrode and the second drain electrode are connected by a drain connecting wiring, a first gate electrode and a second gate electrode are connected by a gate connecting wiring and the source connecting wiring and the drain connecting wiring are provided at positions except a region overlapped with the first gate electrode, the second gate electrode and the gate connecting wiring. |
| US08410481B2 |
Pixel structure and pixel structure of organic light emitting device
A pixel structure including a first scan line, a second scan line, a data line and a power line substantially perpendicular to the first scan line and the second scan line, a reference signal line and an emission signal line substantially parallel with the first scan line and the second scan line, a common thin film transistor (C-TFT), a first pixel unit, and a second pixel unit is provided. The common thin film transistor has a common gate electrode, a common source electrode and a common drain electrode. The common gate electrode is electrically connected to the first scan line, the common drain electrode is electrically connected to the reference signal line. The first and the second pixel units respectively have a first TFT, a second TFT, a third TFT, a fourth TFT, a fifth TFT, a sixth TFT, a capacitor, and an emission device. |
| US08410478B2 |
p-Type MgZnO-based thin film and semiconductor light emitting device
A p-type MgxZn1-xO-based thin film (1) is formed on a substrate (2) made of a ZnO-based semiconductor. The p-type MgxZn1-xO-based thin film (1) is composed so that X as a ratio of Mg with respect to Zn therein can be 0≦X<1, preferably 0≦X≦0.5. In the p-type MgZnO thin film (1), nitrogen as p-type impurities which become an acceptor is contained at a concentration of approximately 5.0×1018 cm−3 or more. The p-type MgZnO thin film (1) is composed so that n-type impurities made of a group IV element such as silicon that becomes a donor can have a concentration of approximately 1.0×1017 cm−3 or less. The p-type MgZnO thin film (1) is composed so that n-type impurities made of a group III element such as boron and aluminum which become a donor can have a concentration of approximately 1.0×1016 cm−3 or less. |
| US08410477B2 |
Organic light emitting device, lighting apparatus and organic light emitting display apparatus
An organic light emitting device having increased outcoupling efficiency, a lighting apparatus including the organic light emitting device, and an organic light emitting display apparatus including the organic light emitting device. The organic light emitting device includes a substrate, a first electrode layer that is uniformly patterned on the substrate, a low refractive conductive layer disposed on the first electrode layer, and having a conductive material with a lower refractive index than a refractive index of an organic layer that is disposed on the low refractive conductive layer, and a second electrode layer formed on the organic layer. |
| US08410476B2 |
Organic electroluminescent display device and production method thereof
The present invention provides an organic electroluminescent display device including an electroluminescent element with a reduced leakage current and also provides a production method thereof. The present invention is an organic electroluminescent display device including an electroluminescent element, the electroluminescent element comprising a lower electrode, an organic layer, a light-emitting layer, and an upper electrode, stacked one above the other on and above a substrate in this order, wherein the organic electroluminescent display device further includes a bank formed on the organic layer. |
| US08410472B2 |
Epitaxial substrate for electronic device and method of producing the same
An epitaxial substrate for an electronic device having a Si single crystal substrate, a buffer as an insulating layer formed on the Si single crystal substrate, and a main laminated body formed by plural group III nitride layers epitaxially grown on the buffer, wherein a lateral direction of the epitaxial substrate is defined as an electric current conducting direction. The buffer including at least an initially grown layer in contact with the Si single crystal substrate and a superlattice laminate constituted of a superlattice multilayer structure on the initially grown layer. |
| US08410470B2 |
Core-shell quantum dot fluorescent fine particles
Disclosed is an ultraviolet fluorescent material having high light emission efficiency, wherein the peak wavelength of ultraviolet light to be emitted can be controlled by having a quantum dot structure wherein a fine crystal of zinc oxide having an average diameter of 1-10 nm serves as a core, and the surface of the zinc oxide fine crystal is covered with at least one of LiGaO2, LiAlO2, NaGaO2 and NaAlO2, which has a crystal structure similar to that of the zinc oxide and low lattice mismatch and hardly suffers from structural defects, or a solid solution thereof. |
| US08410460B2 |
Pattern defect inspection method and its apparatus
The pattern defect inspection apparatus and its method of the present invention comprises: a recipe setting unit for setting an inspection recipe and/or a review recipe; an illumination optical system including: a laser light source for emitting ultraviolet laser light; a quantity-of-light adjusting unit for adjusting a quantity of the ultraviolet laser light emitted from the laser light source; and an illumination range forming unit for forming on a sample an illumination range of the ultraviolet laser light; a coherence reducing system; and a detection optical system including: a condensing optical system; a diffracted-light control optical system; and a detecting unit. |
| US08410458B2 |
Optical filter material made of gallium-doped quartz glass, filter component and method for irradiation by means of a UV radiation source
The invention relates to an optical filter material made of doped quartz glass, which at a low dopant concentration exhibits spectral transmission as high as possible of at least 80% cm−1 for operating radiation of 254 nm, transmission as low as possible in the wave range below approximately 250 nm, and an edge wavelength λc within the wave range of 230 to 250 nm. It was found that this aim is achieved by doping comprising a gallium compound, which in the wave range below 250 nm has a maximum of an absorption band and thus determines the edge wave range λc. |
| US08410457B2 |
Sample transfer device and sample transferring method
A sample transfer device is provided which can insert to a charged particle beam apparatus a sample to be observed and analyzed under irradiation of a charged particle beam while suppressing to a minimum the time to expose the sample to the atmospheric environment. The sample transfer device for transferring the sample to be observed and analyzed by irradiating the charged particle beam comprises an expansible hollow member capable of accommodating a sample holder mounting the sample, a fixing member for fixing the sample holder within the expansible hollow member, and a sealing member communicating with the interior of the expansible hollow member to open/close an opening through which the sample holder passes. |
| US08410454B2 |
High dynamic range scanning with reduced channel cross-talk
A multi-channel scanning system adapted to implement a low channel cross-talk, extra-wide dynamic range scanning method by scanning the same location more than once, wherein at least one time, the power of the excitation light and detector gain are set to High for at least one of the channels and Low for at least one of the other channels and different settings are used in subsequent scans. The scans of the same channel taken with different High and Low settings are merged together to produce one wider dynamic range image. |
| US08410452B2 |
Ion source means for desorption/ionisation of analyte substances and method of desorbing/ionising of analyte substances
The invention relates to an ion source means comprising at least one holding means for holding at least one sample to expose the sample to a mass spectrometer device, wherein the holding means comprises a structured sample support means for supporting the sample and/or a structured sample or sample comprising a structured surface, respectively. |
| US08410451B2 |
Neutron fluorescence with synchronized gamma detector
Method and apparatus for minimizing signal noise (20, 22) in thermal, epithermal, and cold neutron fluorescence processes using neutron flux modulation and gamma ray detector pulse gating synchronized to neutron time of flight (NTOF). The apparatus includes a source (12) of thermal, epithermal, and/or cold neutrons, optionally switched between flux or power settings in various embodiments, a gamma ray detector (14) or detection system capable of either being turned ON and OFF, in some embodiments, or else being told to regard or disregard gamma ray signals (20, 22) in other embodiments, a control mechanism (24), and either a target range detector (26) or a prior measurement of target range, in embodiments where the range remains fixed. The gamma ray detector (14) is synchronized to the NTOF by the control mechanism (24) so that it remains switched OFF during the pulse period of the neutron source (12) and for the subsequent NTOF so that any nuisance signals (20, 22) arriving at the detector (14) during these times are not detected or considered. |
| US08410444B2 |
Net solar radiometer with thermally balanced spectral response
Disclosed is a net radiometer that measures the net difference between incoming solar and outgoing terrestrial radiant flux energy in the combined short-wave and long-wave far infrared spectral range. In accordance with principles of the invention, a balanced net radiometer can be constructed where each thermal absorber is formed from two separate pieces joined together to form a single thermal mass. Within each thermal absorber, each piece is coated with a separate surface coating of different spectral sensitivity. By constructing an absorber from two separate pieces, it is possible to apply spectral coatings with different curing characteristics, to thermal absorber that acts as a single thermal mass. The pieces within each thermal absorber are sized in a proportion that thermally balances the absorber's thermal sensitivity between short-wave and long-wave far infrared radiant energy. |
| US08410438B2 |
Charged particle beam device
A charged particle beam device has a tilt detection unit that detects a tilt of a sample surface and an E×B deflector in which an electric field and a magnetic field are overlapped with each other and which causes, according to the detected tilt of the sample surface, the sample surface to be perpendicularly irradiated with an irradiation charged particle beam while, at the same time, aligning the trajectory of the charged particle beam with the optical axis centers of an irradiation optical system and an imaging optical system; thereby, the charged particle beam device can prevent problems possibly occurring in cases where a sample stage is tilted or a sample surface is undulating and can enable an accurate image to be acquired. |
| US08410435B2 |
Cyclone separator type mass analyzing system
Provided is a small-sized mass analysis system capable of analyzing an analysis target system being under atmospheric pressure. The mass analysis system (7) has a cyclone separator (1) including a hollow shaft motor (19) for rotationally driving a turbo blade (17). Combining a mass analysis device with the cyclone separator makes it possible to remove dust and introduce into the mass analysis device a gas present in a region where the pressure in the cyclone separator is sufficiently reduced. |
| US08410434B1 |
Thermo-stabilized nano- and micro- flow LC/ESI-MS interface and a method thereof
A liquid chromatography interface is provided having an integrated column/ESI tip assembly including a liquid chromatography separation column, an ESI tip for generating ions having at least one emitting channel, and a temperature-controlled enclosure surrounding the liquid chromatography separation column. The enclosure has at least one opening and the ESI tip is exposed outside the enclosure through the opening. The enclosure has a heating or cooling device providing a substantially homogeneous distribution of temperature throughout an internal space of the enclosure where the liquid chromatography separation column is disposed. The enclosure includes at least one gas flow mixing element to permit heat exchange by directing a flow of gas toward the ESI tip. The integrated column/ESI tip assembly resides within a thermo-stabilized volume of substantially the same temperature from an entrance of the liquid chromatography separation column to the outlet of the ESI tip. |
| US08410426B2 |
Devices and methods for coupling mass spectrometry devices with chromatography systems
One embodiment of the invention provides a method of preparing an eluted sample containing salts or buffers from a liquid chromatography device for analysis by a mass spectrometry device. The method includes: continuously providing a non-polar solvent to the mass spectrometry device; receiving the eluted sample from the liquid chromatography device; flowing the eluted sample over a solid phase extraction column; flowing the non-polar solvent over the solid phase extraction column; and presenting non-polar solvent and the eluted sample to the mass spectrometry device. |
| US08410417B2 |
Photosensitive system including an output buffer coupled to a gated photodiode for reducing an impedance of the photodiode signal
Disclosed is a photosensitive system including a gated photodiode having at least one field plate and a cathode and an output buffer having an input coupled to the gated photodiode for reducing the impedance of the photodiode signal and having an output for providing the reduced impedance signal. The output is electrically connected to the at least one field plate. A device including such a photosensitive system is also disclosed. |
| US08410402B2 |
Method and apparatus for using light emitting diodes for removing moisture
A method and apparatus for removing moisture from a lighting apparatus is disclosed. In one embodiment of the present invention, the apparatus for removing moisture from a lighting apparatus includes at least one light emitting diode (LED) for outputting visible light and at least one LED for outputting infrared light to remove moisture from the housing. |
| US08410401B2 |
Powertrain driveline warm-up system and method
A powertrain/driveline warm-up system includes a vehicle controller, an electrical power source interfacing with the vehicle controller, at least one heater interfacing with the vehicle controller and at least a portion of a vehicle powertrain provided in thermal contact with the at least one heater. |
| US08410399B2 |
Capacitor charge and discharge circuit for fastener welding
A capacitor discharge (CD) fastener welding circuit including: an input voltage source; a rectifier bridge of diodes receiving the input voltage source; at least two capacitor charge switches linked with the rectifier bridge; at least one capacitor linked with the at least two capacitor charge switches; and at least two capacitor discharge switches linked with the capacitor and to welding output terminals. |
| US08410397B2 |
Mineral processing
The present invention concerns itself with a dry, free of toxic chemicals, and thus, environmentally safe, mineral processing technique. It uses ore elements' specific heat differences as the basis for separating valuable minerals from ores. No EPA approval, no environmental pit and no expensive monitoring are required in order to practice the teachings of the present invention. Furthermore, the technique described herein is economically attractive since it is a low cost approach to mineral processing. |
| US08410396B1 |
High precision, rapid laser hole drilling
A laser system produces a first laser beam for rapidly removing the bulk of material in an area to form a ragged hole. The laser system produces a second laser beam for accurately cleaning up the ragged hole so that the final hole has dimensions of high precision. |
| US08410393B2 |
Apparatus and method for temperature control of a semiconductor substrate support
A recirculation system of a substrate support on which a semiconductor substrate is subjected to a multistep process in a vacuum chamber, the system comprising a substrate support having at least one liquid flow passage in a base plate thereof, an inlet and an outlet in fluid communication with the flow passage, a supply line in fluid communication with the inlet, and a return line in fluid communication with the outlet; a first recirculator providing liquid at temperature T1 in fluid communication with the supply line and the return line; a second recirculator providing liquid at temperature T2 in fluid communication with the supply line and the return line, temperature T2 being at least 10° C. above temperature T1; a pre-cooling unit providing liquid at temperature Tpc connected to the inlet and the outlet, temperature Tpc being at least 10° C. below T1; a pre-heating unit providing liquid at temperature Tph connected to the inlet and the outlet, temperature Tph being at least 10° C. above T2; a controller operable to selectively operate valves of the recirculation system to recirculate liquid between the flow passage and the first recirculator, the second recirculator, the pre-cooling unit or the pre-heating unit. |
| US08410391B2 |
Weld current generating apparatus
A weld current generating apparatus includes a voltage conversion circuit, a control circuit, a switch circuit, and a current output circuit. The voltage conversion circuit receives an AC voltage from an AC voltage input terminal, and converts the AC voltage to a DC voltage. The control circuit receives the DC voltage, wherein the control circuit is capable of setting a weld time, and outputting a control signal for controlling the weld time. The switch circuit receives the control signal, and turns on for the weld time according to the control signal. The current output circuit outputs a continuous weld current when the switch circuit turns on. |
| US08410390B2 |
Grinding machine with a device for conditioning a grinding wheel and a method of conditioning a grinding wheel
A grinding machine for grinding a workpiece comprises a machine frame, a bearing device provided on the machine frame and movable along guides, in which a cup-shaped grinding wheel is rotatably drivable about a grinding wheel axis and electrically insulated. The grinding wheel is electrically connected to a generator. The device for profile dressing, sharpening and cleaning the grinding wheel consists of a single cup-shaped electrode, which is drivable about its central axis and is placed on a slide, which allows a working gap to exist between the machining surface of the cup-shaped electrode and the annular abrasive surface. A spark erosion discharge occurs in the gap when a voltage is applied. The grinding wheel can thereby be optimally conditioned by electric discharge machining. |
| US08410389B2 |
Remote drive for disconnector/isolator used in switchgear
A remotely controlled, motorized drive system for a disconnector used in switchgear. An operator pushes a button on a remote control, which signals a receiver in the disconnector to engage a motor that is coupled to a drive shaft. The drive shaft causes movable contacts of the disconnector to be moved into engagement or out of engagement with sets of fixed contacts in the switchgear that are connected to the line supply and to the circuit breaker that is bolted into the switchgear. One set of contacts is electrically coupled to the line supply, which can carry up to three phases of current. Another set of contacts is connected to corresponding terminals of the circuit breaker. A second motor controls movement of a grounding bar that grounds the circuit breaker to earth. Indicator lights on the switchgear panel indicate the position of the disconnector for visual confirmation of the same. |
| US08410387B2 |
Electrical switch
An electrical switch for an electric tool with an electric motor including an actuating mechanism which can be adjusted between an initial position and a final position. The switch has a signaling device, which is operatively connected to the actuating mechanism, for generating a signal associated with the adjustment path of the actuating mechanism. The switch has a contact system, with the actuating mechanism having a switching effect on the contact system in one position, whereby the contact system is configured as a spring-action contact system. |
| US08410386B2 |
Cam disk and spring excursion switch for a stored-energy spring mechanism and stored-energy spring mechanism
The disclosure relates to a cam disc and to a spring deflection switch having a cam disc for a spring-loaded drive, wherein the cam disc includes a first, second and third circumferential region, each having at least one corresponding radial extension, for actuating a pushbutton including a switching hysteresis. The at least one second radial extension is larger than the at least one third radial extension, which in turn is larger than the at least one first radial extension. The pushbutton can interact with the cam disc in the spring deflection switch such that when the pushbutton is applied by the first circumferential region, the switching contact assumes a first switching position, and when the pushbutton is applied by the second circumferential region, the switching contact assumes a second switching position, and when the pushbutton is applied by the third circumferential region, the switching contact remains in the switching position assumed earlier. |
| US08410383B2 |
Switch display assembly with seal
The present disclosure provides a switch assembly including a lens having a hollow interior, a display at least partially received within the hollow interior of the lens, an actuator moveably engageable by the lens, and an elastomeric switch activatable by the actuator in response to movement of the lens. The elastomeric switch may include a circuit assembly, a sealing switch layer disposed over the circuit assembly, and an elastomeric switch member formed within the sealing switch layer that is actuatable by the movement of the lens for engagement with the circuit assembly. |
| US08410380B2 |
Switch structure on sidewall of circuit board for electronic device
A switch structure on the sidewall of a circuit board for an electronic device and manufacturing methods of the circuit board are provided. The switch structure includes a circuit board, a plurality of conductive portions, and a movable unit. The conductive portions are formed on a sidewall of the circuit board and electrically insulated from each other. The movable unit is disposed corresponding to the conductive portions to electrically connect or disconnect the plurality of conductive portions to achieve the switch function. The switch structure utilizes the structural design of the circuit board to reduce the space on the circuit board preserved for a circuit board switch. |
| US08410379B2 |
Electric operating device of vehicle seat
An electric operating device includes an operation member for operating to activate a plurality of electric functions provided at a vehicle seat. An operating structure for switching a pivoting position of the operation member is configured as a switching structure for selecting the electric function that is an operational object. Further, an operating structure for switching a slide position in a diametrical direction of the operation member is configured as an operation control structure by which the electric function selected as the operational object is operated to activate. Further, a pushing operation structure of the operation portion is configured as a switching structure for switching a category of an electric function group. The pushing operating structure of the operation member is provided with a return mechanism for returning the operation member operated to be pushed to an initial position taken before the pushing operation by urging the operation member. |
| US08410376B2 |
Printed wiring board and method for manufacturing the same
A printed wiring board includes an interlayer resin insulation layer having a penetrating hole for a via conductor, a conductive circuit formed on one surface of the interlayer resin insulation layer, a via conductor formed in the penetrating hole and having a protruding portion protruding from the other surface of the interlayer resin insulation layer, and a surface-treatment coating formed on the surface of the protruding portion of the via conductor. The via conductor is connected to the conductive circuit and has a first conductive layer formed on the side wall of the penetrating hole and a plated layer filling the penetrating hole. |
| US08410372B2 |
Wiring board, stacked battery device, and vehicle having stacked battery device
A wiring board to be inserted between collector foils of each unit cell in a stacked battery includes a comb-shaped insulating substrate and a wiring layer. The insulating substrate has a plurality of teeth and a rod, and the wiring layer is formed on the insulating substrate and includes a plurality of lead wires individually extending from a distal end of each of the plurality of teeth to an end of the rod to deliver a current of a potential across a conductive member being in contact with the distal ends of the teeth to the end of the rod. |
| US08410366B2 |
Protection device for power cables with impregnated-paper-based insulation
A protection device for a power cable that includes a central conductor surrounded by insulation based on paper impregnated with material based on impregnation oil may include a sheath around the insulation, a first portion of the cable stripped of the sheath, an adjacent portion of the cable stripped of both the insulation and sheath, the adjacent portion penetrating the connector; an outer protection extending over at least the first and adjacent portions, and extending over the connector; and/or a plug of high-permittivity mastic material filling an axial space extending along the adjacent portion. The outer protection may include a barrier layer in contact with the insulation along at least part of the first portion. The barrier layer may include elastomer material that is virtually impermeable to the oil. The plug may axially separate the barrier layer and connector to prevent migration of the oil into the connector. |
| US08410363B1 |
Tamper proof wallplate
An electrical wall plate including a wall having a front surface and a rear surface with at least one opening, the opening sized to receive a face of a receptacle, a hinge secured to the front surface, a cover pivotally mounted to the front surface proximate the hinge, a latch located on the cover releaseably engaging the cover and selectively preventing pivotal movement of the cover. |
| US08410359B2 |
Connector for solar module
A box for connecting a solar panel to a cable has a generally planar flat base securable to a solar panel, forming a transversely open cavity for connection of elements of the solar panel with the cable, and formed with a laterally open aperture. A flat cover fittable transversely with the base to close the cavity is formed with an aperture forming with the aperture of the base when the cover is fitted to the base a hole that opens generally parallel to the base into the cavity and that is snugly fittable around the cable. A clip fixed on the base adjacent the aperture forms a mouth fittable around the cable extending through the hole and open generally parallel to the base. |
| US08410357B2 |
Back contact for thin film solar cells
Disclosed is a novel thin film photovoltaic device and a process of making. The device comprises an interface layer between the absorber layer and the electrode resulting in an improved back contact and improved device efficiency. The interface layer comprises a material comprising a Ma-(Group VIA)b compound, where M is a transition metal the Group VIA designates Te, Se and/or S. |
| US08410355B2 |
Thin film photoelectric conversion device having a stacked transparent oxide and carbon intermediate layer
This invention intends to develop a technique for forming an interlayer with excellent optical characteristics and to provide a photoelectric conversion device having high conversion efficiency. To realize this purpose, a series connection through an intermediate layer is formed in the thin-film photoelectric conversion device of the invention, and the interlayer is a transparent oxide layer in its front surface and n pairs of layers stacked therebehind (n is an integer of 1 or more), wherein each of the pair of layers is a carbon layer and a transparent oxide layer stacked in this order. Film thicknesses of each layer are optimized to improve wavelength selectivity and stress resistance while keeping the series resistance. |
| US08410344B2 |
Mouthpiece for woodwind instruments with venturi aperture
An improved mouthpiece for use with single reed woodwind instruments is provided. The mouthpiece includes a tapered shaped tone chamber that creates shaped-charge dynamics in the tone chamber air column to improve coupling of the air column to the reed. The tapered shape is obtained by varying the width of the tone chamber along the interior surfaces of the side walls from a top surface of the side rails to the bottom surface of the tone chamber. In addition, the width of the bottom surface is varied along a length of the tone chamber from a tip rail to the central bore of the mouthpiece. The transition from the top surfaces of the side rails to the interior surface of the tone chamber side walls is sloped to achieve a venturi effect between the top surfaces and the reed at the region of the tone chamber adjacent the tip rail. |
| US08410343B1 |
Maize variety hybrid X8N313
A novel maize variety designated X8N313 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 X8N313 with another maize plant. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X8N313 through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby. This invention relates to the maize variety X8N313, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X8N313. This invention further relates to methods for producing maize varieties derived from maize variety X8N313. |
| US08410342B1 |
Maize variety hybrid X08A236
A novel maize variety designated X08A236 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 X08A236 with another maize plant. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X08A236 through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby. This invention relates to the maize variety X08A236, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X08A236. This invention further relates to methods for producing maize varieties derived from maize variety X08A236. |
| US08410341B2 |
Nucleic acid encoding N-methylputrescine oxidase and uses thereof
The gene encoding N-methylputrescine oxidase (MPO) and constructs comprising such DNA are provided, including methods of regulating MPO expression independently or with other alkaloid biosynthesis genes to modulate alkaloid production in plants and host cells. MPO genes or fragments thereof are useful for reducing pyrrolidine or tropane alkaloid production in plants, for increasing pyrrolidine or tropane alkaloid production in plants, and for producing an MPO enzyme in host cells. |
| US08410338B2 |
Lettuce cultivar ‘Henriette’
A lettuce cultivar, designated ‘Henriette’, is disclosed. The invention relates to the seeds of lettuce cultivar ‘Henriette’, to the plants of lettuce cultivar ‘Henriette’ and to methods for producing a lettuce plant by crossing the cultivar ‘Henriette’ with itself or another lettuce cultivar. The invention further relates to methods for producing a lettuce plant containing in its genetic material one or more transgenes and to the transgenic lettuce plants and plant parts produced by those methods. This invention also relates to lettuce cultivars or breeding cultivars and plant parts derived from lettuce cultivar ‘Henriette’, to methods for producing other lettuce cultivars, lines or plant parts derived from lettuce cultivar ‘Henriette’ and to the lettuce plants, varieties, and their parts derived from the use of those methods. The invention further relates to hybrid lettuce seeds, plants, and plant parts produced by crossing cultivar ‘Henriette’ with another lettuce cultivar. |
| US08410337B2 |
Plant tubby-like proteins
An isolated polypeptide containing an amino acid sequence at least 70% identical to a Tubby-like protein (SEQ ID NO: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, or 11), and an isolated nucleic acid encoding the polypeptide. Disclosed is an isolated nucleic acid that, under stringent conditions, hybridizes to a probe containing one of SEQ ID NOs:1-11; or its complementary sequence. Also disclosed are (1) a transformed cell or a transgenic plant containing such a nucleic acid and (2) a transformed cell or a transgenic plant having a reduced level(s) of one or more of the Tubby-like proteins. Also within the scope of the invention are methods for making the transformed cells or transgenic plants. |
| US08410334B2 |
Invertebrate microRNAs
This invention provides a non-natural transgenic plant cell expressing at least one invertebrate miRNA in planta for suppression of a target gene of an invertebrate pest or of a symbiont associated with the invertebrate pest, recombinant DNA constructs for expression of at least one invertebrate miRNA in planta and methods of use thereof, a non-natural transgenic plant containing the non-natural transgenic plant cell of this invention, a non-natural transgenic plant grown from the non-natural transgenic plant cell of this invention, and non-natural transgenic seed produced by the non-natural transgenic plants, as well as commodity products produced from a non-natural transgenic plant cell, plant, or seed of this invention. |
| US08410333B2 |
Humanized immunoglobulin loci
The present invention concerns methods and means to produce humanized antibodies from transgenic non-human animals. The invention specifically relates to novel immunoglobulin heavy and light chain constructs, recombination and transgenic vectors useful in making transgenic non-human animals expressing humanized antibodies, transgenic animals, and humanized immunoglobulin preparations. |
| US08410332B2 |
Absorbent medical articles
Medical articles including an absorbent layer, a backing layer and an optional liquid permeable facing layer are disclosed. The construction of the medical article is such that volumetric expansion of the absorbent layer is allowed in directions parallel to the surface of the backing layer as the absorbent layer absorbs moisture. The medical article may include a debonding agent located between the absorbent layer and the backing layer. The absorbent layer is operably attached to the backing layer. When the absorbent layer absorbs moisture, e.g., wound exudate, at least a portion of the absorbent layer detaches from the backing layer such that the absorbent layer can expand and move relative to the backing. The debonding agent facilitates this change from attachment to detachment of the absorbent layer to the backing. The medical articles of the present invention may also be constructed such that a portion of the front surface of the backing layer located directly opposite the absorbent layer is free of adhesive. The adhesive free area or areas may be provided in place of a physical debonding agent or in addition to a physical debonding agent. |
| US08410330B2 |
Composition to control acid rock drainage
A composition to control acid rock drainage is provided. The composition includes a slurry made from water and solids, the solids containing powders of limestone, clay and magnesium oxide or magnesium hydroxide. In some instances, the slurry is thixotropic and contains between 10 to 75 weight percent of solid powders. The solid powders can include between 40 to 75 weight percent limestone, 10 to 35 weight percent clay and 10 to 30 weight percent magnesium oxide or a proportional concentration of magnesium hydroxide. |
| US08410326B2 |
Integrated process and apparatus to produce hydrocarbons from aqueous solutions of lactones, hydroxy-carboxylic acids, alkene-carboxylic acids, and/or alcohols
A process for producing hydrocarbons, especially C8 or larger alkenes, from lactones, hydroxy-carboxylic acids, alkene-carboxylic acids, alcohols, or mixtures thereof, or an aqueous solution of lactones, hydroxy-carboxylic acids, alkene-carboxylic acids, alcohols, or mixtures thereof is described. The process includes reacting the starting materials with a first acid catalyst to yield a first product mixture. The first product mixture is then reacted with a second acid catalyst (which can be the same or different from the first acid catalyst) to yield a second product mixture comprising hydrocarbons, for example alkenes having a chain length of C8+. The process is suitable for producing hydrocarbons that can be used in or as liquid transportation fuels. |
| US08410325B2 |
Process for the preparation of C3-7 fluoroalkenes by base-mediated dehydrohalogenated C3-7 fluoroalkenes
The invention relates to a process for preparing a compound of formula CF3CF═CHX, CHX2CX═CX2 or a linear or branched C4-7 (hydro)fluoroalkene, wherein each X is, independently, H or F provided that in CHX2CX═CX2 at least one X is F, which process comprises dehydrohalogenating a compound of formula CF3CFYCH2X, CF3CFHCYHX, CHX2CXYCX2H, CHX2CXHCX2Y, or a linear or branched C4-7 hydro(halo)fluoroalkane, wherein each X is, independently, H or F provided that in CHX2CXYCX2H and CHX2CXHCX2Y at least one X is F, wherein Y is F, Cl, Br, or I, in the presence of a base. |
| US08410321B2 |
Alternative paths to alcohols and hydrocarbons from biomass
A method of producing alcohols, hydrocarbons, or both from biomass, the method including converting biomass into a carboxylic acid; reacting the carboxylic acid with an olefin to produce an ester; and hydrogenolyzing the ester to produce alcohol. The steps of reacting the carboxylic acid with an olefin to produce an ester, and hydrogenolyzing the ester to produce an alcohol, may both be carried out in the same reactor. |
| US08410318B2 |
Process for the preparation of 1,4-cyclohexanedimethanol from terephthalic acid
Disclosed is a process for the preparation of 1,4-cyclohexanedimethanol from terephthalic acid. Terephthalic acid is esterified with (4-methylcyclohexyl)methanol and the terephthalate ester hydrogenated to 1,4-cyclohexanedimethanol in a 2-stage process. The (4-methylcyclohexyl)methanol that is formed during the hydrogenation step is recycled to the esterification reaction. Also disclosed is a method for purifying and recovering the 1,4-cyclohexanedimethanol product. |
| US08410313B2 |
Phosphinate ruthenium complexes
Provided herein are ruthenium complexes of Formula I, and processes of preparation thereof. Also provided are methods of their use as a metathesis catalyst. |
| US08410310B2 |
Trypsin-like serine protease inhibitors, and their preparation and use
The invention relates to inhibitors of trypsin-like serine proteases of the general formula (I) which, as well as plasmin, also inhibit plasma kallikrein, and to their preparation and use as medicaments, preferably for treatment of blood loss, especially in the case of hyperfibrinolytic states, in organ transplants or heart surgery interventions, in particular with a cardiopulmonary bypass, or as a constituent of a fibrin adhesive. |
| US08410307B2 |
Method for producing vinyl acetate
A method for producing vinyl acetate in a heterogeneously catalyzed, continuous gas phase process by reacting ethylene with acetic acid and oxygen in a reactor and separating the product gas stream substantially comprising ethylene, vinyl acetate, acetic acid, water, carbon dioxide and inert gases. |
| US08410302B2 |
Methoxyimino compounds and fungicide composition comprising same
The present invention provides a methoxyimino compound, and a fungicide composition comprising same as an active ingredient. The methoxyimino compound of the present invention, which has an excellent antifungal activity against a wide spectrum of fungi even at a low application rate, can be used to protect various crops. |
| US08410299B2 |
Method for producing linear pentenenitrile
A method for producing 3-pentenenitrile is provided that includes: (a) isomerizing an educt stream containing 2-methyl-3-butenenitrile on at least one dissolved or dispersed isomerization catalyst to form a stream (1), which contains the isomerization catalyst(s), 2-methyl-3-butenenitrile, 3-pentenenitrile and (Z)-2-methyl-2-butenenitrile; (b) distilling the stream (1) to obtain a stream (2) as the overhead product, which contains 2-methyl-3-butenenitrile, 3-pentenenitrile and (Z)-2-methyl-2-butenenitrile and a stream (3) as the bottom product, which contains the isomerization catalyst(s); (c) distilling the stream (2) to obtain a stream (4) as the overhead product, which is enriched with (Z)-2-methyl-2-butenenitrile in comparison to stream (2), and a stream (5) as the bottom product, which is enriched with 3-pentenenitrile and 2-methyl-3-butenenitrile in comparison to stream (2); (d) distilling stream (5) to obtain a stream (6) as the bottom product, which contains 3-pentenenitrile and a stream (7) as the head product containing 2-methyl-3-butenenitrile. |
| US08410298B1 |
Phosphoric acid ester production method
The present invention provides a novel production method which enables obtain a phosphorus compound having both an aromatic substituent and a phosphorinane backbone, without using an expensive hydrogen halide scavenger, without going through a complicated post treatment step or a step of recovering a solvent, and with a favorable yield and purity. In the present invention, step (1) of allowing phosphorus oxytrihalide to react with a phenol compound or naphthol compound at a molar ratio of 1.1-3.0:1 in the presence of metal halide, and removing unreacted phosphorus oxytrihalide, to produce a mono-substituted phosphorodihalidate; and step (2) of allowing the mono-substituted phosphorodihalidate obtained in the step (1) to react with a diol compound, at a 0.90 to 0.99 molar equivalent based on 1 mole of the halogen atom in the mono-substituted phosphorodihalidate so as to perform a dehydrohalogenation reaction, to obtain a phosphorus compound represented by Formula (V). |
| US08410295B2 |
Method for production of optically active epoxy compound, and complex used therefor and process for producing the same
A complex, and a process for producing the same, represented by any of the following formulae (I), (I′), (II), (II′), (III), (III′), (IV), and (IV′): where: R1s are independently an alkyl group or an aryl group; R2s are independently a hydrogen atom, an alkyl group, or an aryl group; R3s are independently an alkyl group or an aryl group, provided that two R3s are optionally bonded with each other to form a ring; R4s are independently a hydrogen atom, a halogen atom, an alkyl group, an alkoxy group, a nitro group, or a cyano group; and M is TiY2, where Y is Cl or alkoxide or the complex forms a di-μ-oxo dimer where Y is a μ-oxo ligand. |
| US08410294B2 |
Method for preparing highly pure anhydrous crystalline docetaxel
A method for preparing highly pure anhydrous crystalline docetaxel is provided. The method for preparing highly pure anhydrous crystalline docetaxel enables preparation of anhydrous crystalline docetaxel that has purity of 99.5% or more, and is useful as an anticancer agent due to remarkably low residual solvent content compared to the standard of residual solvents in drugs. |
| US08410293B2 |
Process for the preparation of cyclic enol ethers
The present invention relates to a process for the preparation of cyclic enol ethers. |
| US08410292B2 |
Epoxy-guaiane derivatives and treatment of cancer
Disclosed are englerins and derivatives (I) thereof useful in the treatment of a number of cancers, particularly renal cancer, as well as pharmaceutical compositions and method of treating a patient with the use of these derivatives. The englerins, for example Englerin A and Englerin B, can be isolated from the plant Phyllanthus engleri or produced by synthetic methods. An example of the englerin derivative is 2′-chloroenglerin A, which has the structure (II), wherein double bond ‘a’ is E, Z, or a mixture of E and Z. |
| US08410291B2 |
Processes for the production of hydrogenated products
A process for making a hydrogenated product includes providing a clarified DAS-containing fermentation broth, distilling the broth to form an overhead that includes water and ammonia, and a liquid bottoms that includes MAS, at least some DAS, and at least about 20 wt % water, cooling and/or evaporating the bottoms, and optionally adding an antisolvent to the bottoms, to attain a temperature and composition sufficient to cause the bottoms to separate into a DAS-containing liquid portion and a MAS-containing solid portion that is substantially free of DAS, separating the solid portion from the liquid portion, recovering the solid portion, hydrogenating the second solid portion in the presence of at least one hydrogenation catalyst to produce the hydrogenated product comprising at least one of THF, GBL or BDO, and recovering the hydrogenated product. |
| US08410290B2 |
Cyclic carbonyl compounds with pendant carbonate groups, preparations thereof, and polymers therefrom
A one pot method of preparing cyclic carbonyl compounds comprising an active pendant pentafluorophenyl carbonate group is disclosed. The cyclic carbonyl compounds can be polymerized by ring opening methods to form ROP polymers comprising repeat units comprising a side chain pentafluorophenyl carbonate group. Using a suitable nucleophile, the pendant pentafluorophenyl carbonate group can be selectively transformed into a variety of other functional groups before or after the ring opening polymerization. |
| US08410288B2 |
Polymorphs of Saxagliptin hydrochloride and processes for preparing them
The invention provides polymorphs of Saxagliptin hydrochloride, processes for preparing polymorphs of Saxagliptin hydrochloride, and pharmaceutical compositions of polymorphs of Saxagliptin hydrochloride. |
| US08410286B2 |
Substituted pyrazoles, compositions containing these, method of production and use
The disclosure relates to a compound of formula (I): and salts thereof; wherein Ar, L, A, X, R1, R2, R3, R4a, R4b, and R5 are as defined in the disclosure; compositions comprising said compounds, methods for their preparation, intermediates thereto, and the use thereof, particularly as drugs. |
| US08410283B2 |
Electrolyte additive of dye-sensitized solar cell and method of making the same
An electrolyte additive is selected from N-alkyl benzimidazole derivatives and is applicable to dye-sensitized solar cells. Accordingly, the electrolyte additive can be added to electrolyte at low concentration, and loss of function due to crystallization after long-term use can be prevented; in addition, short circuit photocurrent density and solar energy-to-electricity conversion efficiency of solar cells incorporating the electrolyte additive can be increased. |
| US08410282B2 |
Compounds as adenosine A1 receptor antagonists
This compounds correspond to the formula (I), where: R1 represents and aryl or heteroaryl group optionally substituted by one or more substituents selected from the group consisting of halogen atoms, straight or branched optionally substituted lower alkyl, cycloalkyl, hydroxy, straight or branched, optionally substituted lower alkoxy, cyano, or —CO2R′, wherein R′ represents a hydrogen atom or a straight or branched, optionally substituted lower alkyl group; R2 represents a group selected from: a) a straight or branched lower alkyl group substituted by one or more carboxylic groups (—COOH) and optionally substituted by one or more halogen atoms; b) a cycloalkyl group substituted by one or more carboxylic groups (—COOH) and optionally substituted by one or more halogen atoms; c) a straight or branched alkylcycloalkyl or cycloalkylalkyl group substituted by one or more carboxylic groups (—COOH) and optionally substituted by one or more halogen atoms. Formula (I). |
| US08410275B2 |
Bicyclic derivatives as CETP inhibitors
The present invention relates to novel compounds of formula (I) or a pharmaceutical composition thereof, with all the variables being defined in the text. The present invention further relates to the use of the compounds herein for treatment of or delay progression to overt to diseases in which CETP is involved. |
| US08410272B2 |
Pyrazolylbenzothiazole derivatives and their use as therapeutic agents
Pharmaceutical compositions and compounds are provided. The compounds of the invention have use as therapeutic agents, e.g., they demonstrate anti-proliferative, anti-inflammatory, anti-angiogenic, anti-migration activities. In one embodiment of the invention, formulations of the compounds in combination with a physiologically acceptable carrier are provided. The pharmaceutical formulations are useful in the treatment of, e.g., anti-inflammatory, renal, and hyperproliferative disorders. The compounds of the invention are pyrazolylbenzothiazole derivatives of the following formula (1) wherein X, R1, R2, R3 and R4 are described herein. |
| US08410270B2 |
Transition metal complexes and use thereof in organic light-emitting diodes V
Metal complexes comprising at least one polycyclic aromatic ligand and bearing at least one deuterium atom, an organic light-emitting diode comprising at least one inventive metal complex, a light-emitting layer comprising at least one inventive metal complex, an organic light-emitting diode comprising at least one inventive light-emitting layer, the use of the at least one inventive metal complex in organic light-emitting diodes, and a device selected from the group consisting of stationary visual display units such as visual display units of computers, televisions, visual display units in printers, kitchen appliances and advertising panels, illuminations, information panels and mobile visual display units such as visual display units in cellphones, laptops, digital cameras, vehicles, and destination displays on buses and trains, comprising at least one inventive organic light-emitting diode. |
| US08410269B2 |
Phosphorescent iridium complex with non-conjugated cyclometalated ligands, synthetic method of preparing the same and phosphorescent organic light emitting diode thereof
The present invention discloses a phosphorescent tris-chelated transition metal complex comprising i) two identical non-conjugated cyclometalated ligands being incorporated into a coordination sphere thereof with a transition metal, and one ligated chromophore being incorporated into the coordination sphere; or ii) one non-conjugated cyclometalated ligand forming a coordination sphere thereof with a transition metal, and two ligated chromophores being incorporated into the coordination sphere, wherein the metal is iridium, platinum, osmium or ruthenium, and the ligated chromophore possesses a relatively lower energy gap in comparison with that of the non-conjugated cyclometalated ligand, the latter afforded an effective barrier for inhibiting the ligand-to-ligand charge transfer process, so that a subsequent radiative decay from an excited state of these transition complexes will be confined to the single ligated chromophore. The architecture and energy gap of the ligated chromophore are suitable for generation of high efficiency blue, green and even red emissions. |
| US08410264B2 |
Heterocyclic oxime compounds
The invention relates to compounds of formula (I) and salts thereof: wherein the substituents are as defined in the specification; a compound of formula (I) for use in the treatment of the human or animal body, in particular with regard to c-Met tyrosine kinase mediated diseases or conditions; the use of a compound of formula (I) for manufacturing a medicament for the treatment of such diseases; pharmaceutical compositions comprising a compound of the formula (I), optionally in the presence of a combination partner, and processes for the preparation of a compound of formula (I). |
| US08410260B2 |
Double-stranded RNA oligonucleotides which inhibit tyrosinase expression
Novel double-stranded RNA oligonucleotides are useful for decreasing tyrosinase expression, have cosmetic and/or pharmaceutical applications, for example are useful skin depigmenting or anti-browning agents, and can be associated with cationic particles less than or equal to 1 μm in size, having a zeta potential of from 10 to 80 mV. |
| US08410259B2 |
Recombinant expression vector elements (REVES) for enhancing expression of recombinant proteins in host cells
Compositions and methods comprising recombinant expression vector elements (rEVEs) to enhance the level of expression of recombinant proteins are described. Other compositions and methods for lowering, substantially suppressing, or essentially silencing expression of a recombinant protein are also described. |
| US08410258B2 |
Recombinant polyprotein vaccines for the treatment and diagnosis of leishmaniasis
Compositions and methods for preventing, treating and detecting leishmaniasis are disclosed. The compositions generally comprise fusion polypeptides comprising multiple Leishmania antigens, in particular, KMP11, SMT, A2 and/or CBP, or immunogenic portions or variants thereof, as well as polynucleotides encoding such fusion polypeptides. |
| US08410257B2 |
Nucleotide sequences encoding RAMOSA3 and Sister of RAMOSA3 and methods of use for same
The invention relates to the isolation and characterization of a maize gene, RAMOSA3 (RA3), responsible for meristem development and inflorescence development including branching. The gene, gene product, and regulatory regions may be used to manipulate branching, meristem growth, inflorescence development and arrangement, and ultimately to improve yield of plants. The invention includes the gene and protein product as well as the use of the same for temporal and spatial expression in transgenic plants to alter plant morphology and affect yield in plants. The invention also includes the gene and protein product for SISTER OF RAMOSA3 (SRA). |
| US08410255B2 |
Dark quenchers for donor-acceptor energy transfer
The present invention provides a family of dark quenchers, termed Black Hole Quenchers (“BHQs”), that are efficient quenchers of excited state energy but which are themselves substantially non-fluorescent. Also provided are methods of using the BHQs, probes incorporating the BHQs and methods of using the probes. |
| US08410251B2 |
Antibody against calcified globule and use of the same
The present inventors carried out immunization using renal/urinary calculus-derived calcified globules or carotid artery-derived arteriosclerotic plaques, and then obtained antibodies specific to calcified globules (NLO) via screening with NLO. The present inventors demonstrated that the antibodies reacted specifically to arteriosclerotic lesions (calcified lesions) and visualized arteriosclerotic plaques (in particular, calcified lesions) by using fluorescently labeled antibodies. Accordingly, the present inventors completed the present invention. |
| US08410250B2 |
Anti-FGFR3 antibodies and methods using same
The invention provides FGFR3 antibodies, and compositions comprising and methods of using these antibodies. |
| US08410246B2 |
TDF-related compounds and analogs thereof
The present invention relates generally to tissue differentiation factor (TDF) analogs. More specifically, the invention relates to structure-based methods and compositions useful in designing, identifying, and producing molecules which act as functional modulators of TDF-like receptors. The invention further relates to methods of detecting, preventing, and treating TDF-associated disorders. |
| US08410244B2 |
Vibration-damping film
Vibration damping film comprising a composition obtained by dispersing titanium dioxide (Y) and mica flakes (Z) in a polyester resin (X) comprising dicarboxylic acid units and diol units, satisfying conditions (I) to (III), and having a thickness in the range of 20 to 200 μm : (I) Content of polyester resin (X), titanium dioxide (Y) and mica flakes (Z) in the composition is in the range of 35 to 60% by mass, in the range of 5 to 15% by mass and in the range of 30 to 55% by mass, respectively, (II) Average particle diameter of the mica flakes (Z) in the resin composition is in the range of 5 to 80 μm, and (III) Elongation at failure point of the resin composition measured according to JIS K7127 is in the range of 30 to 70%. |
| US08410243B2 |
Aromatic ether-containing fluorene monomers, processes for their preparation and polymerization thereof
Novel aromatic ether-containing monomers are described along with processes for their preparation and their polymerization into corresponding aromatic ether-containing polyfluorenes. These polyfluorenes exhibited stable blue-emission and therefore have application in polymer light-emitting devices. |
| US08410240B1 |
Polycarbonate and method of preparing the same
Polycarbonate includes repeat units represented by Formula 1, Formula 2 and Formula 3, respectively: wherein: R1 and R2 are the same or different and are each independently substituted or unsubstituted C1 to C6 alkyl, substituted or unsubstituted C3 to C6 cycloalkyl, substituted or unsubstituted C6 to C12 aryl or halogen, a and b are the same or different and are each independently an integer from 0 to 4, and Q is substituted or unsubstituted C5 to C10 cycloalkyl. |
| US08410233B2 |
Method for producing superabsorbers with a low residual monomer content
To prepare superabsorbents with a low residual monomer content, a salt of urea with an inorganic acid is added to the monomer mixture before or during the polymerization or to the polymer after the polymerization but before a heat treatment which follows the polymerization. |
| US08410232B2 |
Emulsion polymerization of esters of itaconic acid
Esters of itaconic acid are polymerized in aqueous medium in the presence of seed particles. The seed particles may absorb the monomer and provide for polymerization to a desired particle size. The polymers that are produced may be employed in adhesives, paints, and paper formulations. |
| US08410231B2 |
Production process of olefin polymer
The present invention provides a highly active process for producing an olefin polymer, comprising: the step (I) of preliminarily polymerizing an olefin at 65° C. or lower in the presence of a preliminary polymerization catalyst prepared by bringing the following components (A), (B) and (C) into contact with each other, to produce a preliminary polymerization catalyst component (X); and the step (II) of polymerizing an olefin in the presence of a polymerization catalyst prepared by bringing the preliminary polymerization catalyst component (X) into contact with the following component (D), to produce an olefin polymer; component (A): a metallocene-base complex, component (B): a solid co-catalyst component in which a compound capable of ionizing the metallocene-base complex into an ionic complex is supported on fine particle support, component (C): an organoaluminum compound represented by the general formula R13Al (wherein, R1 is a linear hydrocarbon group of 1 to 8 carbon atoms, wherein the R1 can be the same or different), and component (D): an organoaluminum compound represented by the general formula R23Al (wherein, R2 is a branched hydrocarbon group of 3 to 8 carbon atoms, wherein the R2 can be the same or different). |
| US08410227B2 |
Fluid polyester moulding masses
Thermoplastic molding compositions comprising A) from 10 to 99.99% by weight of at least one thermoplastic polyester, B) from 0.01 to 50% by weight of a hyperbranched polycarbonate having an OH number of from 1 to 600 mg KOH/g of polycarbonate (to DIN 53240, Part 2), C) from 0 to 60% by weight of other additives, where the total of the percentages by weight of components A) to C) is 100%. |
| US08410226B2 |
Two-step process for brominating butadiene copolymers
Butadiene copolymers are brominated using certain quaternary ammonium tribromides as the brominating agent in a first step, and then with elemental bromine in a second bromination step. The bromination process proceeds easily under mild conditions, and produces a brominated product that has excellent thermal stability. The bromination proceeds to high conversions in shorter reaction times, when the bromination is performed using only the first bromination step. |
| US08410224B2 |
Method for producing modified conjugated diene based (co)polymer, modified conjugated diene based (co)polymer, and rubber composition
The method for producing a modified conjugated diene based (co)polymer, according to the present invention comprises (a) obtaining a primarily modified polymer by carrying out a primary modification reaction wherein at least one member selected from the group consisting of an alkoxysilane compound and a silanol compound is introduced into the active alkali metal terminal of a conjugated diene based (co)polymer having an active alkali metal terminal, and (b) obtaining a secondarily modified polymer (a modified conjugated diene based (co)polymer) by subjecting the above-obtained primarily modified polymer to reactions comprising (b1) and (b2). (b1): a reaction with a condensation accelerator comprising a metal element. (b2): a reaction with at least one member selected from the group consisting of inorganic acids and metal halides. |
| US08410223B2 |
Production method for water-absorbing resin
There is provided a production method for a water-absorbing resin for stably and continuously producing the water-absorbing resin with industrially high property, in particular, the water-absorbing resin with high liquid permeation. A method of the present invention relates to a production method for a water-absorbing resin including: a polymerization step of an aqueous solution of an unsaturated monomer; a drying step of the resultant hydrogel polymer; and a surface cross-linking step after drying; characterized by including a pneumatic transportation step for pneumatic transporting the water-absorbing resin powder substance in a pipeline with a surface roughness (Rz) of the inner surface of equal to or smaller than 800 nm, by using gas with a dew point of −5° C. to −100° C. |
| US08410219B2 |
Method for increasing melt flow of a bimodal ionomer composition
Provided is a method for increasing the melt flow of a composition comprising a mixture of high molecular weight carboxylate functionalized ethylene copolymers (Mw between 80,000 and 500,000 Da) with low molecular weight carboxylate functionalized ethylene copolymers (Mw between 2,000 and 30,000 Da), wherein the carboxylic acid groups are at least partially neutralized to form salts containing zinc cations. The method comprises melt mixing the composition with ionomers containing cations other than zinc. Also disclosed are trimodal compositions comprising high molecular weight terpolymers, high molecular weight dipolymers and low molecular weight dipolymers wherein the carboxylic acid groups are at least partially neutralized to salts containing zinc cations and non-zinc cations. The compositions are used in films, multilayer structures and other articles of manufacture. |
| US08410218B2 |
Pressure-sensitive adhesive composition having improved initial tack
The present invention is directed to providing a pressure-sensitive adhesive with good initial tack and good adhesion at low temperature. Generally, the pressure-sensitive adhesive composition comprises (1) a carboxylic group-containing (meth)acrylic tacky polymer having a weight average molecular weight of less than 800,000 and a glass transition temperature of −100° C. to −30° C., and (2) an amino group-containing (meth)acrylic non-tacky polymer having a weight average molecular weight of from 30,000 to 100,000 and a glass transition temperature of 20° C. to 90° C. The amino group-containing (meth)acrylic non-tacky polymer (2) is present in an amount of no less than 1 parts by mass and less than 20 parts by mass on a basis of 100 parts by mass of said carboxylic group-containing (meth)acrylic tacky polymer (1). |
| US08410213B2 |
Primerless two-part polyurethane adhesive
A two-part polyurethane adhesive comprising a prepolymer having the reaction product of a non-ionic surfactant and an allophanate modified isocyanate and a curative having a urethane modified high molecular weight polyol, a urethane modified cross-linking compound and a non-urethane modified low molecular weight chain extending compound. The curative has less than 5 equivalent percent total amino and hydroxyl groups having an equivalent weight greater than about 200. The two-part polyurethane adhesive may be used to adhere one or more substrates and can generally be applied without primer or any significant surface preparation. |
| US08410210B2 |
Fluorine-containing novolac resin, fluorine-containing surfactant, fluorine-containing surfactant composition, and resin composition
A fluorine-containing novolac resin represented by the following formula, as well as a fluorine based surfactant and a fluorine based surfactant composition, which include the fluorine-containing novolac resin. In the formula, R represents a fluorinated alkyl-containing substituent, R′ represents a hydrogen atom or a methyl group, R″ represents a hydrogen atom or a non-fluorinated substituent, —X— represents any one of following four types of linking groups, —X′ represents any one of three following types of substituents, n represents 0 or an integer of 1 or more, m represents an integer of 1 or more, and n+m is an integer of 2 or more. |
| US08410205B2 |
Matting agent composition containing low molecular weight polytrimethylene ether glycol
The present invention is directed to a matting agent for reducing gloss of a coating. The matting agent comprises: a) a silica component; b) a polytrimethylene ether glycol; c) one or more solvents; and d) optionally, one or more polymers. This invention is further directed to a matting agent comprising components derived from renewable resources. |
| US08410204B2 |
Hardener composition, adhesive system and method of gluing
The invention relates to a hardener composition for use in an amino resin based adhesive system, comprising an aliphatic alpha hydroxy- mono-, or di-, carboxylic acid, and polyvinyl alcohol. It also relates to an adhesive system and a method of gluing wooden materials. |
| US08410203B2 |
Phosphorus compound, method of preparing the same and flame retardant thermoplastic resin composition including the same
Disclosed herein is a phosphorus compound represented by Formula 1: wherein each R is the same or different and is independently hydrogen, C1-C6 alkyl or C6-C12 aryl. |
| US08410200B2 |
Polymeric films
A polymer composition and its use for thin film packaging applications including on a dry basis: a) from 45 to 90% by weight of starch; b) from 0.1 to 15% by weight of a water soluble polymer selected from polyvinyl alcohol, polyvinylacetate, and copolymers of ethylene and vinyl alcohol which have a melting point compatible with the molten state of the starch component; and c) from 5 to 45% by weight of one or more plasticizers having a molecular weight in the range of 50-6000, more preferably 50-2500 and more preferably still 100-400 and desirably selected from the group consisting of sorbitol, glycerol, maltitol, xylitol, mannitol, erythritol, glycerol trioleate, tributyl citrate, acetyl tri-ethyl citrate, glyceryl triacetate, 2,2,4-trimethyl-1,3-pentanediol diisobutyrate, polyethylene oxide, ethylene glycol, diethylene glycol or polyethylene glycol. |
| US08410198B2 |
Glass fiber-reinforced polyester resin composition and molded product using the same
A glass fiber-reinforced polyester resin composition including: (A) about 30 to about 80 wt % of two or more kinds of polyester resin; (B) about 20 to about 70 wt % of a vinyl-based copolymer including an acrylic-based graft copolymer, a rubber modified vinyl-based graft copolymer, a copolymer of aromatic vinyl monomers and unsaturated nitrile monomers, or a combination thereof; and (C) about 10 to about 100 parts by weight of glass fiber, based on about 100 parts by weight of the total amount of the polyester resin (A) and the vinyl-based copolymer (B), wherein the polyester resin includes polyethylene terephthalate resin having crystallinity of about 40% or more, is provided. |
| US08410197B2 |
Organic-containing particulate having elevated auto-ignition temperatures
The composition of this invention is an inorganic oxide particulate comprising at least 10% by weight organic material in which the particulate has an auto-ignition temperature which is at least 20° C. higher than the auto-ignition temperature of the particulate and organic material which does not contain antioxidant and/or inhibitor. Accordingly, a method has been developed in which one is able to elevate the auto-ignition temperature of such organic containing particulates. In a preferred embodiment the method comprises including antioxidant or inhibitor in the organic material prior to combining it with the inorganic oxide. |
| US08410195B1 |
Solvent-based dye sublimation ink composition
A solvent-based dye sublimation ink composition includes specific chemical formulations of production agents for its manufacture in several colors. The sublimation ink composition includes a vinyl chloride-vinyl acetate copolymer, a polymeric amide, 2-methoxy-1-methylethyl acetate, N-butyl acetate, butan-2-OL, petroleum distillate, disperse and/or solvent dyes, propylene glycol and one or more acetates. Once produced, the solvent-based dye sublimation ink of the present invention may be used with ink jet printers and prevents or minimizes paper cockling while exhibiting outstanding stability and high print density capabilities. |
| US08410194B1 |
Biopolymer additive
The biopolymer additive, in combination with water, functions as a soil conditioner that affects soil erosion and water infiltration. The biopolymer additive is derived from complex galactomannon-rich succulent plants. The succulent-derived (biopolymer) additive (SDA) may be used alone or in combination with polymers and copolymers of polyacrylamide (PAM). The combination of the SDA and PAM has a synergistic effect so that the resulting composition yields unexpected results and is a more effective treatment than either SDA or the PAM alone. |
| US08410193B2 |
Silane coating process for high alkali bioactive glasses
A method of preparing a ceramic-resin composite material for bone repair, including preparing a predetermined amount of pH controlled substantially anhydrous coupling agent by mixing a liquid silane material, alcohol and organic acid, producing particulate bioactive glass having a desired particle size of less than about 53 mesh, measuring a desired quantity of the particulate bioactive glass into a mixing vessel, heating the mixing vessel and particulate bioactive glass to about 100 degrees Celsius, mixing the heated quantity of particulate bioactive glass and spraying a predetermined amount of substantially anhydrous coupling agent into the heated quantity of particulate bioactive glass to define an admixture, mixing the admixture for sufficient time to define a quantity of substantially evenly coated particles, heating the quantity of substantially evenly coated particles for sufficient time to evolve excess solvent therefrom, and incorporating the quantity of substantially evenly coated particles into a resinous matrix to define a bone replacement medium. |
| US08410191B2 |
Thermochromic material for dental impression and method
The present invention relates to a thermochromic material for dental impression, capable of reversibly changing color depending on the temperature at which said material is found, a method for its preparation and the use thereof. Said material includes a bicomponent silicone composition in combination with at least a thermochromic pigment. |
| US08410190B2 |
Wettable hydrogel materials for use in ophthalmic applications and methods
A contact lens is provided that has extended and rechargeable wettability. The contact lens includes a lens body that is a reaction product of a polymerizable composition. A first polyhydric alcohol having a 1,2 diol or 1,3 diol moiety is present on a lens surface of the lens body. A contact lens package including the contact lens, and methods of producing and using the contact lens, are also provided. |
| US08410187B2 |
Polyvinylidene fluoride resin expanded beads, and molded articles of polyvinylidene fluoride resin expanded beads
Provided are polyvinylidene fluoride resin expanded beads which can be molded by in-mold molding and thus stably provide, without impairing excellent characteristics inherent in polyvinylidene fluoride resin, molded articles having excellent mechanical properties. Polyvinylidene fluoride resin expanded beads, characterized in that when 1 to 3 mg of the expanded beads are subjected to heat-flux type differential scanning calorimetry (DSC) wherein the beads are heated from 25° C. to 200° C. at a temperature rise rate of 10° C./min, the obtained DSC curve (of first heating) has both an inherent endothermic peak which is inherent in polyvinylidene fluoride resin and one or more higher-temperature endothermic peaks which appear on the higher-temperature side of the inherent endothermic peak, the quantity of heat of melting of the higher-temperature endothermic peaks being at least 0.5 J/g. |
| US08410180B2 |
Methods to treat urinary incontinence
A method is disclosed for treatment of urinary incontinence. The method includes the steps of providing to a person or animal, in the vicinity of a pubo-urethral ligament of the person or animal, a composition including collagen macromolecules that have hydroxyphenyl side groups substituted thereon, which are reacted to form dihydroxyphenyl linkages. In an embodiment, the collagen macromolecules are gelatin macromolecules. In another embodiment, the hydroxyphenyl side groups are tyramine side groups and the dihydroxyphenyl linkages are dityramine linkages. The composition can be injected into a space between a urethra and a pubis of the person or animal wherein the pubo-urethral ligament is disposed in the space. The method is advantageous, for example, based on being minimally invasive. |
| US08410179B2 |
Cis, 3,4-dihydroxy-2-(3-methylbutanoyl)-5-(3-methylbutyl)-4-(4-methylpentanoyl)cyclopent-2-en-1-derivatives, substantially enantiomerically pure compositions and methods
The present application provides cis 3,4-dihydroxy-2-(3-methylbutanoyl)-5-(3-methylbutyl)-4-(4-methylpentanoyl)cyclopent-2-en-1-one derivatives and substantially enantiomerically pure compositions thereof. These derivatives include (+)-(4S,5R)-3,4-dihydroxy-2-(3-methylbutanoyl)-5-(3-methylbutyl)-4-(4-methylpentanoyl)cyclopent-2-en-1-one, (−)-(4R,5S)-3,4-dihydroxy-2-(3-methylbutanoyl)-5-(3-methylbutyl)-4-(4-methylpentanoyl)cyclopent-2-en-1-one, and salts and crystals thereof. The application further provides methods of using the disclosed compounds and compositions to activate PPARγ, activate GPR120, inhibit inflammation, and treat conditions responsive to PPARγ modulation, conditions responsive to GPR120 modulation, and metabolic disturbances such as diabetes. |
| US08410175B2 |
Anticancer effect enhancer
An object of the present invention is to provide an enhancing agent for effect of anticancer agent for achieving an excellent therapeutic effect on cancer. The enhancing agent for effect of anticancer agent according to the present invention which is a solving means therefor is characterized in that a nitric oxide donor is an effective ingredient. In accordance with the present invention, an excellent therapeutic effect is able to be achieved on non-small cell lung cancer which is still in such a state that no effective therapeutic method has been established yet for a progressive cancer which is not operable and is one of cancers where chemotherapy is most difficult to apply. |
| US08410174B2 |
Method for treating arthritis
The present invention relates to the use of compounds of general formula (I) as ligands to the melanocortin receptors and/or for treatment of disorders in the melanocortin system: wherein X is H or OH; R1, R2, R3, R4 and R5 are the same or different and are selected from hydrogen, halogen, alkyl having 1 to 5 carbon atoms, electron donor groups such as alkoxy having 1-5 carbon atoms or hydroxy, electron acceptor groups selected from cyano, nitro, trifluoroalkyl or amide; alkylamino, benzoyloxy, nitroxy, phenyl or sulpho; and the pharmacologically active salts thereof. |
| US08410166B2 |
Fused bicyclic compound
Fused bicyclic compound having an affinity to mineral corticoid receptor (MR), of formula [I]: wherein ring A is benzene having a substituent R1, fused to an adjacent 6-membered heterocyclic ring and further optionally having a substituent(s) other than R1, R1 is alkylsulfonylamino, etc., R2 and R3 are (a) the same of different and are hydrogen, alkyl, or optionally substituted aryl, or (b) combined with each other to form an oxo group or (c) combined with each other at its terminal together with the adjacent carbon atom to form cycloalkyl, X is ═N—, ═C(R4)— or —CH(R4)—, R4 is (a) hydrogen, (b) cyano, (c) halogen, (d) alkyl, (e) alkenyl, (f) cycloalkyl, (g) alkanoyl, (h) carbamoyl, or (i) cycloalkenyl, Ar is an optionally substituted aromatic cyclic group and a dotted line means presence or absence of a double bond, or a pharmaceutically acceptable salt thereof, useful e.g. as an antihypertensive agent. |
| US08410164B2 |
Reagent for measurement of active oxygen
A compound represented by the formula (I) (R1 represents an aryl group such as hydroxyphenyl group, R2 represents 2-carboxyphenyl group etc., and R3 and R4 represent —(CH2)p—N(R5)(R6) (R5 and R6 represent —(CH2)n—COOH), a salt thereof, or an ester thereof, which is useful as a reagent for highly sensitive measurement of reactive oxygen such as hydroxy radical present at a trace amount in living bodies or tissues by a bioimaging technique over a long period of time. |
| US08410163B2 |
Substituted 4-amino-5-benzoyl-2-(phenylamino)thiophene-3-carbonitriles and substituted 4-amino-5-benzoyl-2-(phenylamino)thiophene-3-carboxamides as tubulin polymerization inhibitors
Substituted 4-amino-5-benzoyl-2-(phenylamino)thiophene-3-carbonitriles and substituted 4-amino-5-benzoyl-2-(phenylamino)thiophene-3-carboxamides and their salts are tubulin polymerization inhibitors, useful in the treatment of cancer. |
| US08410162B2 |
Choline esters
Compounds, formulations, and methods are provided containing the choline ester of a reducing agent, especially lipoic acid or derivatives thereof. The compounds may be administered via a topical ocular route to treat or prevent oxidative damage. |
| US08410160B2 |
5-membered heterocycle-based P38 kinase inhibitors
Provided are 5-membered heterocycle-based p38 kinase inhibitors. Further provided are pyrazole and imidazole-based p38 kinase, including p38α, and p38β kinase, inhibitors. Pharmaceutical compositions containing the compounds are also provided. Methods of use of the compounds and compositions are also provided, including methods of treatment, prevention, or amelioration of one or more symptoms of p38 kinase mediated diseases and disorders, including, but not limited to, inflammatory diseases and disorders. |
| US08410154B2 |
Tetrazole compounds for reducing uric acid
Uric acid in mammalian subjects is reduced and excretion of uric acid is increased by administering a compound of Formula I. The uric acid-lowering effects of the compounds of this invention are used to treat or prevent a variety of conditions including gout, hyperuricemia, elevated levels of uric acid that do not meet the levels customarily justifying a diagnosis of hyperuricemia, renal dysfunction, kidney stones, cardiovascular disease, risk for developing cardiovascular disease, tumor-lysis syndrome, cognitive impairment, early-onset essential hypertension, and Plasmodium falciparum-induced inflammation. In Formula 1, x is 1 or 2: y is O, 1, 2 or 3; and R1 is selected from the group consisting of hydrogen, alkyl having 1 or 2 carbon atoms, hydroxy, alkoxy having 1 or 2 carbon atoms, fluoro, chloro, bromo, and amino. A is phenyl unsubstituted or substituted by one, two or three groups selected from the group consisting of halo, alkyl having 1 or 2 carbon atoms, perfluoromethyL alkoxy having 1 or 2 carbon atoms, and perfluoromethoxy; or cycloalkyl having from 3 to 6 ring atoms wherein the cycloalky! is unsubstituted or one one two ring carbons are independently mono-substituted by methyl or ethyl; or a 5 or 6 membered heleraromatic ring having 1 or 2 ring heteroatoms selected from N, S and O and the heteroaromatic ring is covalently bound to the remainder of the compound by a ring carbon. |
| US08410151B2 |
Aminomethyl benzene derivatives
The invention relates to novel aminomethyl benzene derivatives, their preparation and their use as pharmaceutically active compounds. Said compounds particularly act as immunomodulating agents. |
| US08410146B2 |
2-pyridyl substituted imidazoles as ALK5 and/or ALK4 inhibitors
2-pyridyl substituted imidazoles of the formula (I) as shown in claim 1, are provided, which are useful in the treatment of diseases mediated by ALK5 or ALK4 inhibitors or both. |
| US08410143B2 |
Methylene urea derivatives
The present invention relates to methylene urea derivatives of formula (I), the use of the compounds of formula (I) as inhibitors of raf-kinase, the use of the compounds of formula (I) for the manufacture of a pharmaceutical composition and a method of treatment, comprising administering said pharmaceutical composition to a patient. |
| US08410137B2 |
Thiophene-2-carboxamide derivatives, preparation thereof and therapeutic use thereof
The subject matter of the invention is compounds corresponding to formula (I), in which: R1 and R2, together with the nitrogen atom to which they are attached, constitute a saturated heterocyclic radical containing from 4 to 7 atoms, which is preferably substituted; one of the two substituents R3 and R6 is a group Y-A-R9; Y is an oxygen atom or an —S(O)n′—, or —OSO2 group; A is an unsubstituted (C1-C4) alkylene group; R9 is an —OR19, —CH3, —NR19R20, —CONR19R20, —NR15COR19, —S(O)nR21, or —NR13SO2R21 group; —R10 is a hydrogen atom or a (C1-C4) alkyl group. The present invention also relates to the methods of preparation and the therapeutic uses of the compounds of formula (I). |
| US08410131B2 |
Cancer treatment
Rapamycin derivatives have interesting effects in the treatment of solid tumors, optionally in combination with a chemotherapeutic agent. |
| US08410128B2 |
Triazolopyridine compounds useful as kinase inhibitors
A compound of Formula (I) and enantiomers, diastereomers and pharmaceutically-acceptable salts thereof. Also disclosed are pharmaceutical compositions containing compounds of Formula (I), and methods of treating conditions associated with the activity of p38 kinase. |
| US08410127B2 |
Substituted tetrazol-1-yl-phenoxymethyl-thiazol-2-yl-piperidinyl-pyrimidine salts
Crystalline salts of 5-ethyl-2-{4-[4-(4-tetrazol-1-yl-phenoxymethyl)-thiazol-2-yl]-piperidin-1-yl}-pyrimidine, compositions thereof, methods for their preparation, and methods for their use are disclosed. |
| US08410125B2 |
Sulfonated precursors of thymidine for the treatment of epithelial hyperplasias
This invention relates to pharmaceutical compositions comprising a sulfonated biological precursor of thymidine, such as a precursor of 4-thiothymidine (4-TT), and their use in the photodynamic treatment of skin hyperplasias, including cancer, psoriasis, actinic keratosis and keloids, by topical or systemic administration. |
| US08410122B2 |
Bicyclic heterocycle derivatives and methods of use thereof
The present invention relates to Bicyclic Heterocycle Derivatives, compositions comprising a Bicyclic Heterocycle Derivative, and methods of using the Bicyclic Heterocycle Derivatives for treating or preventing obesity, diabetes, a metabolic disorder, a cardiovascular disease or a disorder related to the activity of a GPCR in a patient. |
| US08410120B2 |
Composition and method for treating or preventing skeletal muscle fibrosis
A compound in combination with a pharmaceutically acceptable carrier, the compound having a formula: wherein: R1 is a member of the group consisting of hydrogen, halogen, nitro, benzo, lower alkyl, phenyl, and lower alkoxy; R2 is a member of the group consisting of hydroxy, acetoxy, and lower alkoxy; and R3 is a member of the group consisting of hydrogen and lower alkenoxy-carbonyl; and n is either 1 or 2; and pharmaceutically acceptable salts thereof; for use in treatment of or prevention of skeletal muscle fibrosis and/or for inducing skeletal muscle regeneration. |
| US08410119B2 |
Fused-aryl and heteroaryl derivatives as modulators of metabolism and the prophylaxis and treatment of disorders related thereto
The present invention relates to certain fused aryl and heteroaryl derivatives of Formula (I) that are modulators of metabolism. Accordingly, compounds of the present invention are useful in the prophylaxis or treatment of metabolic disorders and complications thereof, such as, diabetes and obesity. |
| US08410116B2 |
Bis(styryl)pyrimidine or bis(styryl)benzene compounds, pharmaceutically acceptable salts thereof, preparation method thereof, and pharmaceutical composition for prevention or treatment of diseases featuring amyloids comprising the same as an active ingredient
Disclosed are bis(styryl)pyrimidine or bis(styryl)benzene compounds, represented by Chemical Formula 1, pharmaceutically acceptable salts, a method for preparing the same, and a pharmaceutical composition for the prevention and treatment of amyloidosis-associated diseases, comprising the same as an active ingredient. Having the ability to inhibit the deposition of beta amyloid and to reduce the toxicity of beta amyloid, the derivatives can improve learning and memory and can be useful in the prevention and treatment of amyloidosis-associated diseases. (wherein R1, R2, R3 and X are as defined in the specification). |
| US08410111B2 |
Hexahydro-1H-4,7-methanoisoindole-1,3-dione compounds
The present invention is directed to therapeutic agents which are atypical antipsychotics and which are useful in the treatment of neurological and psychiatric disorders associated with dopamine D2 and serotonin 5-HT2A neurotransmission dysfunction. |
| US08410108B2 |
Certain chemical entities, compositions and methods
Certain substituted urea derivatives selectively modulate the cardiac sarcomere, for example by potentiating cardiac myosin, and are useful in the treatment of systolic heart failure including congestive heart failure. |
| US08410105B2 |
Pyridazinyl amine derivatives, the use thereof in the preparation of picorna virus inhibitors
The present invention relates to substituted pyridazinylamine derivatives of the formula I or pharmaceutically acceptable salts or hydrates thereof, wherein the substituents are defined as in the description, their preparation process, pharmaceutical compositions comprising them, and uses of the said compounds as picorna virus inhibitors for prevention and/or treatment of diseases caused by picorna viruses. |
| US08410102B2 |
Methods and compositions for treating or preventing erythema
Methods and products for treating or preventing erythema or a symptom associated with erythema in a subject are described. The methods involve topically applying to an affected skin area a topical aqueous gel composition comprising about 0.01% to about 10% by weight of at least one α-adrenergic receptor agonist and a pharmaceutically acceptable carrier. |
| US08410101B2 |
Use of tetrahydrobiopterin as a marker and a therapeutic agent for fabry disease
Blood and tissue markers of the metabolic status, risk of health complications in Fabry disease patients and as a biomarker to follow the efficacy of treatment in animal models and patients with Fabry disease comprising tetrahydrobiopterin (BH4), precursors and metabolites of BH4, and other related co-factors is disclosed herein. The present invention further describes the use of BH4 therapy as a treatment option for Fabry disease to prevent, slow or reverses vascular cardiac and renal manifestations of Fabry disease. |
| US08410098B2 |
N-{1-[3-(2-ethoxy-5-(4-ethylpiperazinyl)sulfonylphenyl)-4,5-dihydro-5-OXO-1,2,4-triazin-6-yl]ethyl}butyramide, the preparation method and use thereof
Disclosed are N-{1-[3-(2-ethoxy-5-(4-ethylpiperazinyl)sulfonylphenyl)-4,5-dihydro-5-oxo-1,2,4-triazin-6-yl]ethyl}butyramide (which is represented by formula III and utilized for preparing vardenafil), its preparation method, intermediates during preparation procedure, preparation method for such intermediates and a method for preparing vardenafil from the compound. In the method for preparing vardenafil, a chloro-sulfonation reaction carries out in the early stage of the preparation procedure |
| US08410097B2 |
Heteropyrrole analogs acting on cannabinoid receptors
Disclosed are biologically active hetero pyrrole analogs such as imidazoles, thiazoles, oxazoles and pyrazoles capable of interacting with the CB1 and/or the CB2 cannabinoid receptors. One aspect discloses hetero pyrrole analogs acting as antagonists for the CB1 and/or the CB2 receptors. Another aspect discloses hetero pyrrole analogs having selectivity for the CB1 or CB2 cannabinoid receptor. Also disclosed are pharmaceutical preparations employing the disclosed analogs and methods of administering therapeutically effective amounts of the disclosed analogs to provide a physiological effect. |
| US08410095B2 |
Thiazolopyrimidinone derivatives as PI3 kinase inhibitors
This invention relates to novel compounds of formula (I): and derivatives thereof useful for the modulation, notably the inhibition of the activity or function of the phosphoinositide 3′ OH kinase family (hereinafter PI3 kinases), suitably, PI3Kα, PI3Kδ, PI3Kβ, and/or PI3Kγ. |
| US08410094B2 |
Amide compounds, their pharmaceutical compositions, their preparation method and their uses
The present invention pertains to the field of pharmaceutical chemistry and discloses 8-(3-aminopropyl)-3-exo-8-azabicyclo[3.2.1]octane-3-amino amide compounds represented by formula I, the pharmaceutical compositions, the preparation method and the use thereof. Such compounds or pharmaceutically acceptable salts thereof can be used as an antagonist of CCR5 in preparing medicaments for treating diseases mediated by CCR5, particularly HIV infection, asthma, rheumatoid arthritis, autoimmune diseases and chronic obstructive pulmonary diseases (COPD). |
| US08410091B1 |
Process for preparation of substituted 2-amino-5-(5-(heterocyclemethyl)pyridin-2-yloxy)benzoic acid
The present invention is related to a process of preparing substituted 2-amino-5-(5-(heterocyclemethyl)pyridin-2-yloxy)benzoic acid compound of formula (I) or a salt thereof, |
| US08410090B2 |
Heterocyclylamide-substituted thiazoles, pyrroles and thiophenes
The invention relates to heterocyclylamide-substituted thiazoles, pyrroles and thiophenes and processes for their preparation, to pharmaceutical compositions containing them, and to their use for the treatment and/or prophylaxis of diseases, in particular for the use as antiviral agents, especially against cytomegaloviruses. |
| US08410086B2 |
Compositions and methods for lowering triglycerides
In various embodiments, the present invention provides compositions and methods for treating and/or preventing cardiovascular-related diseases in subject in need thereof. |
| US08410084B2 |
Alkylated heterocyclic reaction products useful as antioxidants
This invention relates to novel macromolecular compositions having oxidation inhibition characteristics that are exhibited when added to organic material normally susceptible to oxidative degradation in the presence of air or oxygen, such a petroleum products, synthetic polymers, and elastomeric substances. |
| US08410083B2 |
23-substituted bile acids as TGR5 modulators and methods of use thereof
The invention relates to compounds of Formula A: (A) or a pharmaceutically acceptable salt, solvate, hydrate, or prodrug thereof. The compounds of Formula A are TGR5 modulators useful for the treatment of various diseases, including obesity, insulin sensitivity, inflammation, cholestasis, and bile desaturation. |
| US08410082B2 |
Fluorinated diaryl urea derivatives
This invention relates to novel diaryl urea compounds, their derivatives, and pharmaceutically acceptable salts thereof. This invention also provides compositions comprising a compound of this invention and the use of such compositions in methods of treating diseases and conditions that are beneficially treated by administering an inhibitor of multiple kinases. |
| US08410076B2 |
Cationized hyaluronic acid and/or salt thereof, method of producing the same, hair modifying agent, cuticle repairing agent, skin modifying agent, and cosmetic preparation each using the same
A cationized hyaluronic acid and/or a salt thereof includes a quaternary ammonium group-containing group, and has a degree of cationization of 0.15 to 0.6. |
| US08410074B2 |
Modulation of eIF4E expression
Oligomeric compounds, compositions and methods are provided for modulating the expression of eIF4E. The antisense compounds may be single- or double-stranded and are targeted to nucleic acid encoding eIF4E. Methods of using these compounds for modulation of eIF4E expression and for diagnosis and treatment of diseases and conditions associated with expression of eIF4E are provided. |
| US08410067B2 |
Inhibition of versican with siRNA and other molecules
The present invention provides methods of treating disease or condition in a subject in need thereof, comprising administering the subject a versican inhibitor in an amount effective to treat the disease or condition. Example diseases or conditions include, but are not limited to, fibrotic disease such as fibrotic lung disease, restenosis such as arterial restenosis, atherosclerosis, cancer, and inflammatory disease. Compounds and compositions for carrying out such a method are also described. |
| US08410064B2 |
Classical cannabinoid metabolites and methods of use thereof
The present invention encompasses classical cannabinoid metabolites and uses thereof. |
| US08410060B2 |
Soluble tumor necrosis factor receptor treatment of medical disorders
The invention pertains to methods and compositions for treating medical disorders characterized by elevated levels or abnormal expression of TNFα by administering a TNFα antagonist, such as recombinant TNFR:Fc. |
| US08410057B2 |
Method of inducing T cell apoptosis by administering Altered Peptide Ligand
The present invention is related with the field of the medicine, particularly with the use of an APL peptide or its analogues derived from the human heat shock protein of 60 kDa, for the manufacture of a pharmaceutical composition for the treatment of Crohn's disease, ulcerative colitis and diabetes mellitus type 1. This peptide is biodistributed into the gastrointestinal tract and also promotes the induction of apoptosis in activated intestinal lamina propria and peripheral blood T cells of patients with Crohn's disease. Furthermore, this peptide induces apoptosis in mononuclear cells of patients with diabetes mellitus type 1. |
| US08410056B2 |
Pro-oxidant anti-cancer compounds
This invention relates to anti-cancer compounds and to methods for treating or preventing cancer. In particular, the invention concerns pro-oxidant anti-cancer compounds, such as pro-oxidant forms of vitamin E that selectively interact with complex II of the mitochondrial respiratory chain of cancerous cells, generate reactive oxygen species and induce apoptosis of those cells. |
| US08410055B2 |
Skin wound healing compositions and methods of use thereof
A wound healing composition comprising an amount of heat shock protein effective to promote wound healing and a method thereof to apply the composition. A preferred heat shock protein is either full-length hsp90α or the middle domain plus the charged sequence of hsp90α. The composition is topically applied to skin wounds, covering the outer surface of the wound. The heat shock protein acts by promoting migration of both human epidermal keratinocyte and dermal fibroblasts to the wound in order to close, heal, and remodel the wound. |
| US08410050B2 |
Method for achieving desired glial growth factor 2 plasma levels
The present invention relates to administering glial growth factor 2 (GGF2) to a patient in need thereof, to achieve serum levels of GGF2 within a desired therapeutic window determined based on the disease or disorder afflicting the patient. In a particular embodiment, the patient is suffering from a disease or disorder associated with reduced levels of myelination and the GGF2 is administered to promote myelination in the patient. |
| US08410042B2 |
Odorants with anisic notes
The present invention concerns the use as perfuming ingredients of para-substituted derivatives of α-methyl cinnamic alcohol of formula (I) in the form of any one of its stereoisomers or a mixture thereof, and wherein R represents a hydrogen atom, a C1-4 alkyl or alkenyl group or a formyl or acetyl group; R1 represents a hydrogen atom or a methyl group; R2 represents a methyl, ethyl or methoxy group; and R3 represents a CH2 group or a carbon-carbon double bond. The present invention concerns the use of said compound in the perfumery industry as well as the compositions or articles containing said compound. |
| US08410040B2 |
Azeotrope-like compositions of 1,1,1,2,3-pentachloropropane and hydrogen fluoride
An azeotrope-like composition consisting essentially of 1,1,1,2,3-pentachloropropane and hydrogen fluoride is provided, as well as methods that involve such an azeotrope-like composition. |
| US08410039B2 |
Azeotropic and azeotrope-like compositions of methyl perfluoroheptene ethers and trans-1,2-dichloroethylene and uses thereof
The present disclosure provides azeotropic and azeotrope-like compositions comprised of methylperfluoroheptene ethers and trans-1,2-dichloroethylene. The present disclosure also provides for methods of use for the azeotropic and azeotrope-like compositions. |
| US08410038B2 |
Acidic cleaning compositions comprising a polymer
The present invention is directed, in certain embodiments, to compositions useful for the removal of grease, lime scale, soap scum, feces, rust or other soils from surfaces such as those found in bathrooms, toilets and kitchens. Methods of removing soils and preventing soil adhesion are also contemplated. |
| US08410035B2 |
Viscosity modifier of lubricating oil for power transmission system and lubricating oil composition for power transmission system
A lubricating oil composition for a power transmission system, which is excellent in both of low-temperature viscosity property and shear stability, is provided. The viscosity modifier of a lubricating oil for a power transmission system according to the present invention comprises an ethylene/α-olefin copolymer (B) having the properties: (B1) an ethylene content in the range of 70 to 85% by mol, (B2) an intrinsic viscosity [η] in the range of 0.2 to 1.0 dl/g, (B3) Mw/Mn not more than 2.4, and (B4) a melting point, as measured by DSC, not higher than 60° C., or no melting point observed. |
| US08410034B2 |
Ether composition
Provided is an ether composition containing at least two ether compounds each of which has from 1 to 4 groups represented by formula (X) and from 0 to 3 groups represented by formula (Z), where the total number of groups represented by formula (X) and (Z) is 4: HO—(CH2CH2O)a.(CH2CH(OH)CH2O)b-Q- (X), CF3(CF2)sO(CF2CF2O)g— (Z), where a, b, s, g and Q are defined herein. The ratio (CF3/(OH+CF3)) of the total molar amount of CF3 groups in the groups represented by formula (Z) to the sum of the total molar amount of CF3 groups in the groups represented by formula (Z) and the total molar amount of OH groups in the groups represented by formula (X) is from 0.01 to 0.5. |
| US08410030B2 |
Alkali metal borate and lubricating compositions thereof
The present invention relates to a lubricating composition containing an alkali metal borate. The invention further provides for a method of lubricating a device with grease or a metalworking fluid by employing the lubricating composition containing the alkali metal borate. |
| US08410029B2 |
Surface-oxide abrasion-resistant lubricant coating and method for forming the same
The present invention provides a surface-oxide abrasion-resistant lubricant coating that can maintain high lubricity for a long time without wear of a base material and a coating or damage to an object to be contacted by a simpler method and with less expensive material. A mixed fluid of a compressed gas and fine-particle powders of two soft metals having lower hardness and lower melting point than the base material of a sliding contact portion is ejected onto a surface of the sliding contact portion. The fine-particle powders of the soft metals are made to react with oxygen in the compressed gas at the surface of the sliding contact portion to form a metal-oxide film with high melting point composed of metal oxides of the two soft metals, one of the metal oxides having higher hardness than the other. This metal-oxide film with high melting point includes a coating having a thickness of 0.1 μm to 2 μm at an interface toward an object to be contacted, that is composed of the metal oxides, that has low friction resistance and low shear resistance, and shear fractures concentrated the coating thereto. |
| US08410028B2 |
Methods for synthesis of encoded libraries
The present invention provides a method of synthesizing libraries of molecules which include an encoding oligonucleotide tag. |
| US08410023B2 |
Compositions and methods for controlling nematodes
Compositions and processes for controlling nematodes are described herein, e.g., nematodes that infest plants or animals. The compounds include oxazoles, oxadiazoles and thiadiazoles. |
| US08410021B2 |
Compositions for the control of plant pests
The present invention provides a composition comprising synergistic amounts of a compound of the formula (I) wherein X, E, R, A and Z are as defined herein, and at least one fungicidal active compound as defined herein. The compositions of the present invention find use as pesticides. |
| US08410017B2 |
Filter aids made from low permeability diatomites
Disclosed herein are diatomite filter aid products with enhanced permeabilities and flow characteristics, and methods for enhancing the permeabilities and flow characteristics of very fine grain, low permeability diatomite ore by, in one embodiment, pre-agglomerating the ore in the presence of less than 10% water and then subjecting the pre-agglomerated ore to at least one calcination process. At least one flux may be used in the at least one calcination process. Also disclosed herein is a method of processing diatomite ore suitable for samples with high wet densities or large amounts of fine particulate matter. Also disclosed herein are methods of producing commercially applicable filter aid products from Hungarian diatomite. |
| US08410015B2 |
Process for liquid phase hydrogenation
A process and catalyst for the liquid phase selective hydrogenation of alkynes to alkenes with high selectivity to alkenes relative to alkanes, high alkyne conversion, and sustained catalytic activity comprising a reactant comprising an alkyne and a non-hydrocarbon solvent/absorbent, contacting the reactant stream with a hydrogen-containing stream in the presence of a supported, promoted, Group VIII catalyst, removing the solvent/absorbent, and recovering the alkene product. |
| US08410012B2 |
Catalyst composition, method for fabricating the same and fuel cell including the same
The present invention relates to a catalyst composition, a method for fabricating the same and a fuel cell including the same. The catalyst composition provided by the present invention includes: a catalyst carrier; and a metal solid solution, disposed on the surface of the catalyst carrier, in which the metal solid solution includes palladium and a second metal, and the second metal is selected from the group consisting of gold, platinum, ruthenium, nickel, silver and manganese. Accordingly, the catalyst composition provided by the present invention can exhibit excellent catalytic characteristics, and can be applied in a fuel cell to enhance the electrochemical properties and stability of the fuel cell. |
| US08410011B2 |
Fibrous catalyst, its preparation and use thereof
The present invention relates to novel methods for preparing fibrous catalysts, to fibrous catalysts, to catalysts systems and to uses of the fibrous catalysts in the treatment of a waste stream. The method comprising the steps of: (i) treating a fabric comprising polyacrylonitrile fibers with a hydrazine salt and a hydroxylamine salt in the presence of a base to provide a modified fabric; (ii) treating the modified fabric with a base; and (iii) treating the modified fabric with an aqueous solution comprising a salt of a transition metal cation and a salt of a non-transition metal cation. The transition metal cation is selected from a scandium, titanium, vanadium, chromium, manganese, iron, cobalt, nickel and copper cation, and mixtures thereof; the non-transition metal cation is selected from a calcium, magnesium, lithium and zinc cation, and mixtures thereof. |
| US08410010B2 |
Process for the production of polyol base catalysts
The present disclosure relates to a process for the production of a base complex catalyst comprising reacting a hydroxide base with a polyalcohol, under vacuum pressure, at a temperature in the range of about 60° C. to about 220° C., wherein the mole ratio of the hydroxide base to the polyalcohol is greater than about 2:1. |
| US08410009B2 |
Ceramic member, probe holder, and method for manufacturing ceramic member
Provided are a ceramic member being a sintered body including at least forsterite and boron nitride as major components, and in which the boron nitride is oriented in one direction, a probe holder formed by using the ceramic member, and a method for manufacturing the ceramic member. In the ceramic member, the index of orientation preference is equal to or lower than 0.07, and the coefficient of thermal expansion at 20 to 300° C. in a direction parallel to the direction of orientation is (3 to 5)×10−6/° C., or the three-point bending strength based on JIS R 1601 is equal to or higher than 250 MPa. |
| US08410008B2 |
Optical glass
An optical glass that is an oxide glass having a very high refractive index in spite of its low-dispersion property, having excellent glass stability and having less susceptibility to coloring. |
| US08410003B2 |
Method of manufacturing semiconductor device, method of processing substrate, and substrate processing apparatus
A method of manufacturing a semiconductor device includes forming a layer containing a predetermined element on a substrate by supplying a source gas containing the predetermined element into a process vessel and exhausting the source gas from the process vessel to cause a chemical vapor deposition (CVD) reaction. A nitrogen-containing gas is supplied into the process vessel and then exhausted, changing the layer containing the predetermined element into a nitride layer. This process is repeated to form a nitride film on the substrate. The process vessel is purged by supplying an inert gas into the process vessel and exhausting the inert gas from the process vessel between forming the layer containing the predetermined element and changing the layer containing the predetermined element into the nitride layer. |
| US08409998B2 |
Method of manufacturing vertical-cavity surface emitting laser
According to a method of manufacturing a vertical-cavity surface-emitting semiconductor laser element in accordance with the present invention, a process of wet etching is performed for a part that is oxidized in a layer of an AlGaAs (42) which configures a layer having an index of refraction as lower and in which a composition of aluminum is designed to be as higher comparing to the other pairs of layers in a DBR mirror at an upper side that are formed at an inner side of a mesa post (38). And then a process of filling up again is performed with making use of a layer of polyimide (26). Moreover, an etchant that includes such as a hydrofluoric acid or a buffered hydrofluoric acid or an aqueous ammonia or the like is made use in order to perform such the process of wet etching. |
| US08409997B2 |
Apparatus and method for controlling silicon nitride etching tank
A method and system for controlling a silicon nitride etching bath provides the etching bath including phosphoric acid heated to an elevated temperature. The concentration of silicon in the phosphoric acid is controlled to maintain a desired level associated with a desired silicon nitride/silicon oxide etch selectivity. Silicon concentration is measured while the silicon remains in soluble form and prior to silica precipitation. Responsive to the measuring, fresh heated phosphoric acid is added to the etching bath when necessary to maintain the desired concentration and silicon nitride:silicon oxide etch selectivity and prevent silica precipitation. The addition of fresh heated phosphoric acid enables the etching bath to remain at a steady state temperature. Atomic absorption spectroscopy may be used to monitor the silicon concentration which may be obtained by diluting a sample of phosphoric acid with cold deionized water and measuring before silica precipitation occurs. |
| US08409992B2 |
Method for producing a polished semiconductor wafer
A polished semiconductor wafer of high flatness is produced by the following ordered steps: slicing a semiconductor wafer from a rod composed of semiconductor material, material-removal processing of at least one side of the semiconductor wafer, and polishing of at least one side of the semiconductor wafer, wherein the semiconductor wafer has, after the material-removing processing and before the polishing on at least one side to be polished, along its margin, a ring-shaped local elevation having a maximum height of at least 0.1 μm, wherein the local elevation reaches its maximum height within a 10 mm wide ring lying at the edge of the semiconductor wafer. |
| US08409990B2 |
Chemical-mechanical polishing compositions and methods of making and using the same
The present invention provides an aqueous CMP slurry composition that includes abrasive particles and from about 0.01% to the limit of solubility in water of a compound according to Formula (I): wherein only one of R1, R2, R3, R4 and R5 is a hydroxyl group (—OH), only one of R1, R2, R3, R4 and R5 is a methoxy group (—OCH3), and the three of R1, R2, R3, R4 and R5 that are not either a hydroxyl group (—OH) or a methoxy group (—OCH3) are hydrogen atoms (—H). |
| US08409989B2 |
Structure and method to fabricate a body contact
A structure and method to fabricate a body contact on a transistor is disclosed. The method comprises forming a semiconductor structure with a transistor on a handle wafer. The structure is then inverted, and the handle wafer is removed. A silicided body contact is then formed on the transistor in the inverted position. The body contact may be connected to neighboring vias to connect the body contact to other structures or levels to form an integrated circuit. |
| US08409988B2 |
Method of manufacturing semiconductor device and substrate processing apparatus
Provided are a method of manufacturing a semiconductor device and a substrate processing apparatus capable of improving defects of conventional CVD and ALD methods, satisfying requirements of film-thinning, and realizing high film-forming rate. The method includes forming a first layer including a first element being able to become solid state by itself on a substrate by supplying a gas containing the first element into a process vessel in which the substrate is accommodated under a condition that a CVD reaction occurs, and forming a second layer including the first element and a second element being unable to become solid state by itself by supplying a gas containing the second element into the process vessel to modify the first layer, wherein a cycle including the forming of the first layer and the forming of the second layer is performed at least once to form a thin film including the first and second elements and having a predetermined thickness. |
| US08409985B2 |
Methods for growing low-resistivity tungsten for high aspect ratio and small features
The present invention addresses this need by providing methods for depositing low resistivity tungsten films in small features and features having high aspect ratios. The methods involve depositing very thin tungsten nucleation layers by pulsed nucleation layer (PNL) processes and then using chemical vapor deposition (CVD) to deposit a tungsten layer to fill the feature. Depositing the tungsten nucleation layer involves exposing the substrate to alternating pulses of a boron-containing reducing agent and a tungsten-containing precursor without using any hydrogen gas, e.g., as a carrier or background gas. Using this process, a conformal tungsten nucleation layer can be deposited to a thickness as small as about 10 Angstroms. The feature may then be wholly or partially filled with tungsten by a hydrogen reduction chemical vapor deposition process. Resistivities of about 14 μΩ-cm for a 500 Angstrom film may be obtained. |
| US08409979B2 |
Semiconductor device and method of forming interconnect structure with conductive pads having expanded interconnect surface area for enhanced interconnection properties
A semiconductor device has a substrate and first conductive pads formed over the substrate. An interconnect surface area of the first conductive pads is expanded by forming a plurality of recesses into the first conductive pads. The recesses can be an arrangement of concentric rings, arrangement of circular recesses, or arrangement of parallel linear trenches. Alternatively, the interconnect surface area of the first conductive pads is expanded by forming a second conductive pad over the first conductive pad. A semiconductor die has a plurality of interconnect structures formed over a surface of the semiconductor die. The semiconductor die is mounted to the substrate with the interconnect structures contacting the expanded interconnect surface area of the first conductive pads to increase bonding strength of the interconnect structure to the first conductive pads. A mold underfill material is deposited between the semiconductor die and substrate. |
| US08409975B1 |
Method for decreasing polysilicon gate resistance in a carbon co-implantation process
A method for decreasing polysilicon gate resistance in a carbon co-implantation process which includes: depositing a first salicide block layer on a formed gate of a MOS device and etching it to form a first spacer of a side surface of the gate of the MOS device; performing a P-type heavily doped boron implantation process and a thermal annealing treatment, so as to decrease the resistance of the polysilicon gate; removing said first spacer, performing a lightly doped drain process, and performing a carbon co-implantation process at the same time, so as to form ultra-shallow junctions at the interfaces between a substrate and source region and drain region below the gate; re-depositing a second salicide block layer on the gate and etching the mask to form a second spacer; forming a self-aligned silicide on the surface of the MOS device. The invention can decrease the resistance of the P-type polysilicon gate. |
| US08409966B2 |
Method for manufacturing SOI substrate
A method is demonstrated to manufacture SOI substrates with high throughput while resources can be effectively used. The present invention is characterized by the feature in which the following process A and process B are repeated. The process A includes irradiation of a surface of a semiconductor wafer with cluster ions to form a separation layer in the semiconductor wafer. The semiconductor wafer and a substrate having an insulating surface are then overlapped with each other and bonded, which is followed by thermal treatment to separate the semiconductor wafer at or around the separation layer. A separation wafer and an SOT substrate which has a crystalline semiconductor layer over the substrate having the insulating surface are simultaneously obtained by the process A. The process B includes treatment of the separation wafer for reusing, which allows the separation wafer to be successively subjected to the process A. |
| US08409960B2 |
Methods of patterning platinum-containing material
Some embodiments include methods of patterning platinum-containing material. An opening may be formed to extend into an oxide. Platinum-containing material may be formed over and directly against an upper surface of the oxide, and within the opening. The platinum-containing material within the opening may be a plug having a lateral periphery. The lateral periphery of the plug may be directly against the oxide. The platinum-containing material may be subjected to polishing to remove the platinum-containing material from over the upper surface of the oxide. The polishing may delaminate the platinum-containing material from the oxide, and may remove the platinum-containing material from over the oxide with an effective selectivity for the platinum-containing material relative to the oxide of at least about 5:1. Some embodiments include methods of forming memory cells. Some embodiments include integrated circuitry having platinum-containing material within an opening in an oxide and directly against the oxide. |
| US08409952B2 |
Method of forming an electronic device including forming a charge storage element in a trench of a workpiece
A method of forming an electronic device including forming a first trench in a workpiece including a substrate, the first trench having side walls and a bottom surface extending for a width between the side walls and forming a charge-storage layer along the side walls and bottom surface of the first trench. The method further includes implanting ions within the substrate underlying the bottom surface of the first trench to form an implant region and annealing the implant region, wherein after annealing, the implant region extends the width of the bottom surface and along a portion of the side walls. |
| US08409950B1 |
Method for integrating SONOS non-volatile memory into a sub-90 nm standard CMOS foundry process flow
An embodiment of a method is disclosed to integrate silicon oxide nitride oxide silicon (SONOS) non-volatile memory (NVM) into a standard sub-90 nm complementary metal oxide semiconductor (CMOS) semiconductor foundry process flow. An embodiment of the method adds a few additional steps to a standard CMOS foundry process flow and makes minor changes to the rest of the baseline CMOS foundry process flow to form a new process module that includes both CMOS devices and an embedded SONOS NVM. An embodiment of the method utilizes new material sets (which are not utilized at larger nodes) that enhance NVM performance by improving charge tunneling behavior and reducing leakage currents. Furthermore, an embodiment of the method integrates CMOS with SONOS NVM at ever-shrinking dimensions while enhancing the NVM performance, without performing extra, costly processing steps. |
| US08409947B2 |
Method of manufacturing semiconductor device having stress creating layer
Provided is a simplified method of manufacturing a semiconductor device having a stress creating layer. A first conductive first impurity region is formed on a semiconductor substrate on both sides of a first gate of a first area of the semiconductor substrate, and a second conductive second impurity region is formed on the semiconductor substrate on both sides of a second gate of a second area. First and second spacers are formed on sidewalls of the first and second gates, respectively. First and second semiconductor layers are formed in portions of the semiconductor substrate so as to contact the first and second impurity regions, respectively. The second semiconductor layer is removed. First and second barrier layers are formed in the first and second contact holes of the insulation layer, respectively. |
| US08409946B2 |
Methods of forming field effect transistors, pluralities of field effect transistors, and DRAM circuitry comprising a plurality of individual memory cells
A method of forming a field effect transistor includes forming trench isolation material within a semiconductor substrate and on opposing sides of a semiconductor material channel region along a length of the channel region. The trench isolation material is formed to comprise opposing insulative projections extending toward one another partially under the channel region along the channel length and with semiconductor material being received over the projections. The trench isolation material is etched to expose opposing sides of the semiconductor material along the channel length. The exposed opposing sides of the semiconductor material are etched along the channel length to form a channel fin projecting upwardly relative to the projections. A gate is formed over a top and opposing sides of the fin along the channel length. Other methods and structures are disclosed. |
| US08409944B2 |
Process of forming an electronic device including a nonvolatile memory cell having a floating gate electrode or a conductive member with different portions
An electronic device can include a nonvolatile memory cell that includes a capacitor, a tunnel structure, a state transistor, and an access transistor. In an embodiment, the capacitor and tunnel structure can include upper electrodes, wherein the upper electrode of the capacitor has a first conductivity type, and the upper electrode of the tunnel structure includes at least a portion that has a second conductivity type opposite the first conductivity type. In another embodiment, a process of forming the nonvolatile memory is performed using a single poly process. In a further embodiment, charge carriers can tunnel through a gate dielectric layer of the state transistor during programming and tunnel through a tunnel dielectric of the tunnel transistor during erasing. |
| US08409943B2 |
Work function adjustment with the implant of lanthanides
Semiconductor devices and fabrication methods are provided, in which fully silicided gates are provided. A lanthanide series metal is implanted into the gate electrode layer prior to silicidation and diffuses into the gate dielectric during an activation anneal. This process and resultant structure provides adjustment of the gate electrode work function, thereby tuning the threshold voltage of the resulting transistor. |
| US08409941B2 |
Semiconductor device and method for manufacturing the same
The present invention proposes a method of forming a dual contact plug, comprising steps of: forming a source/drain region and a sacrificed gate structure on a semiconductor substrate, the sacrificed gate structure including a sacrificed gate; depositing a first inter-layer dielectric layer; planarizing the first inter-layer dielectric layer to expose the sacrificed gate in the sacrificed gate structure; removing the sacrificed gate and depositing to form a metal gate; etching to form a first source/drain contact opening in the first inter-layer dielectric layer; sequentially depositing a liner and filling conductive metal in the first source/drain contact opening to form a first source/drain contact plug; depositing a second inter-layer dielectric layer on the first inter-layer dielectric layer; etching to form a second source/drain contact opening and a gate contact opening in the second inter-layer dielectric layer; and sequentially depositing a liner and filling conductive metal in the second source/drain contact opening and the gate contact opening to form a second source/drain contact plug and a gate contact plug. The present invention also proposes a semiconductor device manufactured by the above process. |
| US08409932B2 |
Method for manufacturing semiconductor device
A semiconductor chip is temporarily fixed on a circuit board by having a thermosetting adhesive film in between. A sealing resin film is provided with a mold release film, and a thermosetting sealing resin layer, which is laminated on the mold release film and has a film thickness 0.5 to 2 times the thickness of the semiconductor chip. The sealing resin film is arranged on the semiconductor chip so that the thermosetting sealing resin layer faces the semiconductor chip. Heat is applied to the side of the circuit board, while applying pressure to the sealing resin film from the side of the mold release film by using a rubber head having a rubber hardness of 5-100 to bond the semiconductor chip on the circuit board. After sealing the semiconductor chip with the resin, the mold release film is peeled. |
| US08409931B2 |
Method of manufacturing semiconductor device
A method of manufacturing a semiconductor device includes: forming a first layer including crystals by processing a surface of a first electrode of a semiconductor element; forming a second layer including crystals by processing a surface of a second electrode of a mounting member on which the semiconductor element is mounted; reducing a first oxide film present over or in the first layer and a second oxide film present over or in the second layer at a first temperature, the first temperature being lower than a second temperature at which a first metal included in the first electrode diffuses in a solid state and being lower than a third temperature at which a second metal included in the second electrode diffuses in a solid state; and bonding the first layer and the second layer to each other by solid-phase diffusion. |
| US08409928B2 |
Method for making contactless portable objects
The invention relates to a method for manufacturing contactless portable objects with an integrated circuit. The method of the invention is characterized in that it comprises the steps of: providing a silicon wafer (1) having integrated circuits (2) comprising plates (7) for connecting said circuits by capacitive coupling to the contact terminals of an antenna conductor circuit (5) provided at the surface of a dielectric substrate (4) of the contactless object; cutting the integrated circuits from said silicon wafer; grasping the integrated circuits using a gripping means of an integrated circuit transfer machine; and transferring the grasped integrated circuits onto the dielectric substrate so that the plates of said circuits are positioned substantially opposite the contact terminals of the antenna circuits. The invention can particularly be used for manufacturing UHF RFID objects. |
| US08409927B1 |
Methods for fabricating integrated circuit systems including high reliability die under-fill
A method is provided for fabricating an integrated circuit system that includes fabricating a plurality of integrated circuits in and on a semiconductor substrate. Spaced apart solder bumps are attached to the plurality of integrated circuits, the solder bumps in electrical contact to components of the integrated circuits. A dicing tape having a layer of under-fill material thereon is provided and the semiconductor substrate is laminated to the dicing tape with the layer of under-fill material filling spaces between the solder bumps. The semiconductor substrate and layer of under-fill material are diced to singulate individual ones of the plurality of integrated circuits, and one of the individual ones of the plurality of integrated circuits is attached to a second substrate such as another integrated circuit chip or printed circuit board. |
| US08409926B2 |
Semiconductor device and method of forming insulating layer around semiconductor die
A plurality of semiconductor die is mounted to a temporary carrier. An encapsulant is deposited over the semiconductor die and carrier. A portion of the encapsulant is designated as a saw street between the die, and a portion of the encapsulant is designated as a substrate edge around a perimeter of the encapsulant. The carrier is removed. A first insulating layer is formed over the die, saw street, and substrate edge. A first conductive layer is formed over the first insulating layer. A second insulating layer is formed over the first conductive layer and first insulating layer. The encapsulant is singulated through the first insulating layer and saw street to separate the semiconductor die. A channel or net pattern can be formed in the first insulating layer on opposing sides of the saw street, or the first insulating layer covers the entire saw street and molding area around the semiconductor die. |
| US08409925B2 |
Chip package structure and manufacturing method thereof
An embodiment of the present invention provides a manufacturing method of a chip package structure including: providing a first substrate having a plurality of predetermined scribe lines defined thereon, wherein the predetermined scribe lines define a plurality of device regions; bonding a second substrate to the first substrate, wherein a spacing layer is disposed therebetween and has a plurality of chip support rings located in the device regions respectively and a cutting support structure located on peripheries of the chip support rings, and the spacing layer has a gap pattern separating the cutting support structure from the chip support rings; and cutting the first substrate and the second substrate to form a plurality of chip packages. Another embodiment of the present invention provides a chip package structure. |
| US08409922B2 |
Semiconductor device and method of forming leadframe interposer over semiconductor die and TSV substrate for vertical electrical interconnect
A semiconductor device has a substrate with a plurality of conductive vias formed through the substrate and first conductive layer formed over the substrate. A first semiconductor die is mounted over the substrate. A second semiconductor die can be mounted over the first semiconductor die. A leadframe interposer has a base plate and a plurality of base leads extending from the base plate. An etch-resistant conductive layer is formed over a surface of the base plate opposite the base leads. The leadframe is mounted to the substrate over the first semiconductor die. An encapsulant is deposited over the substrate and first semiconductor die. The base plate is removed while retaining the etch-resistant conductive layer and portion of the base plate opposite the base leads to electrically isolate the base leads. An interconnect structure is formed over a surface of the substrate opposite the base leads. |
| US08409919B2 |
Method for manufacturing semiconductor device
According to a manufacturing method of one embodiment, a first solder bump and a second solder bump are aligned and placed in contact with each other, and thereafter, the first and second solder bumps are heated to a temperature equal or higher than a melting point of the solder bumps and melted, whereby a partially connection body of the first solder bump and the second solder bump is formed. The partially connection body is cooled. The cooled partially connection body is heated to a temperature equal to or higher than the melting point of the solder bump in a reducing atmosphere, thereby to form a permanent connection body by melting the partially connection body while removing an oxide film existing on a surface of the partially connection body. |
| US08409916B2 |
Thin film transistor substrate, display device having the same and method of manufacturing the display device
A thin film transistor substrate includes an insulating plate; a gate electrode disposed on the insulating plate; a semiconductor layer comprising a metal oxide, wherein the metal oxide has oxygen defects of less than or equal to 3%, and wherein the metal oxide comprises about 0.01 mole/cm3 to about 0.3 mole/cm3 of a 3d transition metal; a gate insulating layer disposed between the gate electrode and the semiconductor layer; and a source electrode and a drain electrode disposed on the semiconductor layer. Also described is a display substrate. The metal oxide has oxygen defects of less than or equal to 3%, and is doped with about 0.01 mole/cm3 to about 0.3 mole/cm3 of 3d transition metal. The metal oxide comprises indium oxide or titanium oxide. The 3d transition metal includes at least one 3d transition metal selected from the group consisting of chromium, cobalt, nickel, iron, manganese, and mixtures thereof. |
| US08409915B2 |
Methods of forming memory cells
Some embodiments include methods of forming memory cells utilizing various arrangements of conductive lines, electrodes and programmable material; with the programmable material containing high k dielectric material directly against multivalent metal oxide. Some embodiments include arrays of memory cells, with the memory cells including programmable material containing high k dielectric material directly against multivalent metal oxide. |
| US08409912B2 |
Back side contact solar cell structures and fabrication processes
In one embodiment, active diffusion junctions of a solar cell are formed by diffusing dopants from dopant sources selectively deposited on the back side of a wafer. The dopant sources may be selectively deposited using a printing method, for example. Multiple dopant sources may be employed to form active diffusion regions of varying doping levels. For example, three or four active diffusion regions may be fabricated to optimize the silicon/dielectric, silicon/metal, or both interfaces of a solar cell. The front side of the wafer may be textured prior to forming the dopant sources using a texturing process that minimizes removal of wafer material. Openings to allow metal gridlines to be connected to the active diffusion junctions may be formed using a self-aligned contact opening etch process to minimize the effects of misalignments. |
| US08409909B2 |
Range modulated implants for image sensors
Image sensors have photodiodes separated by isolations regions formed from p-well or n-well implants. Isolation regions may be formed that are narrow and deep. Isolation regions may be formed in a multi-step process that selectively places implants at desired depths in a substrate. Complementary photoresist patterns may be used. To form an implant near the surface of a substrate, a photoresist pattern with openings over the desired implant area may be used. Subsequent implantation may use a complementary pattern such that ions pass through photoresist before implanting in desired regions of a substrate. |
| US08409901B2 |
Low temperature wafer level processing for MEMS devices
Microelectromechanical systems (MEMS) are small integrated devices or systems that combine electrical and mechanical components. It would be beneficial for such MEMS devices to be integrated with silicon CMOS electronics and packaged in controlled environments and support industry standard mounting interconnections such as solder bump through the provisioning of through-wafer via-based electrical interconnections. However, the fragile nature of the MEMS devices, the requirement for vacuum, hermetic sealing, and stresses placed on metallization membranes are not present in packaging conventional CMOS electronics. Accordingly there is provided a means of reinforcing the through-wafer vias for such integrated MEMS-CMOS circuits by in filling a predetermined portion of the through-wafer electrical vias with low temperature deposited ceramic materials which are deposited at temperatures below 350° C., and potentially to below 250° C., thereby allowing the re-inforcing ceramic to be deposited after fabrication of the CMOS electronics. |
| US08409900B2 |
Fabricating MEMS composite transducer including compliant membrane
A method of fabricating a MEMS composite transducer includes providing a substrate having a first surface and a second surface opposite the first surface. A transducing material is deposited over the first surface of the substrate. The transducing material is patterned by retaining transducing material in a first region and removing transducing material in a second region. A polymer layer is deposited over the first region and the second region. The polymer layer is patterned by retaining polymer in a third region and removing polymer in a fourth region. A first portion of the third region is coincident with a portion of the first region and a second portion of the third region is coincident with a portion of the second region. A cavity is etched from the second surface to the first surface of the substrate. An outer boundary of the cavity at the first surface of the substrate intersects the first region where transducing material is retained, so that a first portion of the transducing material is anchored to the first surface of the substrate and a second portion of the transducing material extends over at least a portion of the cavity. |
| US08409892B2 |
Method of selective photo-enhanced wet oxidation for nitride layer regrowth on substrates
Various embodiments of the present disclosure pertain to selective photo-enhanced wet oxidation for nitride layer regrowth on substrates. In one aspect, a method may comprise: forming a first III-nitride layer with a first low bandgap energy on a first surface of a substrate; forming a second III-nitride layer with a first high bandgap energy on the first III-nitride layer; transforming portions of the first III-nitride layer into a plurality of III-oxide stripes by photo-enhanced wet oxidation; forming a plurality of III-nitride nanowires with a second low bandgap energy on the second III-nitride layer between the III-oxide stripes; and selectively transforming at least some of the III-nitride nanowires into III-oxide nanowires by selective photo-enhanced oxidation. |
| US08409889B2 |
Method for producing semiconductor optical device
A method for producing a semiconductor optical device, includes the steps of: (a) forming a semiconductor region on a substrate, the substrate including first and second areas; the first area including device sections (b) forming a first mask on the semiconductor region, the first mask including first patterns periodically arranged in the first area and a second pattern provided in the second area; (c) forming a plurality of periodic structures in each of the device sections and a monitoring structure in the second area by using the first mask, the periodic structures respectively corresponding to the first patterns, the monitoring structure corresponding to the second pattern; (d) measuring a shape of the monitoring structure; (e) selecting a desired periodic structure from the plurality of periodic structures on a basis of a result of measuring the shape of the monitoring structure; (f) forming a second mask including a pattern on the desired periodic structure; and (g) forming stripe mesas including the desired periodic structure by using the second mask. |
| US08409888B2 |
Highly integrable edge emitting active optical device and a process for manufacture of the same
Described herein is a novel technique used to make novel thin III-V semiconductor cleaved facet edge emitting active optical devices, such as lasers and optical amplifiers. These fully processed laser platelets with both top side and bottom side electrical contacts can be thought of as freestanding optoelectronic building blocks that can be integrated as desired on diverse substrates for a number of applications, many of which are in the field of communications. The thinness of these platelets and the precision with which their dimensions are defined using the process described herein makes it conducive to assemble them in dielectric recesses on a substrate, such as silicon, as part of an end-fire coupled, coaxial alignment optoelectronic integration strategy. This technology has been used to integrate edge emitting lasers onto silicon substrates, a significant challenge in the field of silicon optoelectronics. |
| US08409886B2 |
Method of producing image display unit
A method of producing the image display unit, wherein the image display unit includes an array of a plurality of light emitting devices for displaying an image, and wherein the method of producing the image display unit employs, for example, a space expanding transfer, whereby a first transfer step includes transferring the devices arrayed on a first substrate to a temporary holding member such that the devices are spaced from each other with a pitch larger than a pitch of the devices arrayed on the first substrate, a second holding step includes holding the devices on the temporary holding member, and a third transfer step includes transferring the devices held on the temporary holding member onto a second board such that the devices are spaced from each other with a pitch larger than the pitch of the devices held on the temporary holding member. |
| US08409883B2 |
Method for fabricating a phase change memory
The invention provides a phase change memory and a method for forming the phase change memory. The phase change memory includes a storage region and a peripheral circuit region. The peripheral circuit region has a peripheral substrate, peripheral shallow trench isolation (STI) units in the peripheral substrate, and MOS transistors on the peripheral substrate and between the peripheral STI units. The storage region has a storage substrate, an N-type ion buried layer on the storage substrate, vertical LEDs on the on the N-type ion buried layer, storage shallow trench isolation (STI) units between the vertical LEDs, and phase change layers on the vertical LEDs and between the storage STI units. The storage STI units have thickness equal to thickness of the vertical LEDs. Each vertical LED comprises an N-type conductive region on the N-type ion buried layer, and a P-type conductive region on the N-type conductive region. The P-type conductive region contains SiGe. The peripheral STI units have thickness equal to thickness of the storage STI units. A top of P-type conductive region is flush with a top of the peripheral substrate. The P-type conductive region containing SiGe reduces drain current through the vertical LED and raises current efficiency of the vertical LED. The peripheral circuit region can work normally without adverse influence on performance of the phase change memory. |
| US08409879B2 |
Method of using a buffered electric pulse induced resistance device
A switchable resistive device has a multi-layer thin film structure interposed between an upper conductive electrode and a lower conductive electrode. The multi-layer thin film structure comprises a perovskite layer with one buffer layer on one side of the perovskite layer, or a perovskite layer with buffer layers on both sides of the perovskite layer. Reversible resistance changes are induced in the device under applied electrical pulses. The resistance changes of the device are retained after applied electric pulses. The selected duration of the electrical pulse is in the range of from about 8 nanosecond to about 100 milliseconds. The selected maximum value of the electrical pulse is in the range of from about 1 V to about 150 V. The electrical pulse may have square, saw-toothed, triangular, sine, oscillating or other waveforms, and may be of positive or negative polarity. |
| US08409876B2 |
Fluorescent silica-based nanoparticles
The present invention provides nanoparticle compositions comprising, for example, a core comprising a fluorescent silane compound; and a silica shell on the core. Also provided are methods for the preparation of nanoparticle compositions including fluorescent nanoparticles, ligated-fluorescent nanoparticles, ligated-fluorescent nanoparticles having therapeutic agents, and ligated-fluorescent nanoparticles coupled or associated with an analyte. Also provided are methods: for the detection of the ligated-fluorescent nanoparticles; for associating the linked-fluorescent nanoparticles with a cellular component of interest and recording or monitoring the movement of the cellular component; for improving the therapeutic properties of the therapeutic agent by combining the therapeutic agent with linked-fluorescent nanoparticles and contacting or administering the combination to a cell or organism; for making and using the fluorescent nanoparticles in, for example, diagnostic agents for the detection of various analytes, and like applications. |
| US08409874B2 |
Reversible binding surface
The present invention relates to a method to treat a product which product comprises a surface which surface includes a plasma polymer of an organic monomer wherein immobilized on said plasma polymerized surface is at least one biological entity comprising, contacting said product with an agent that promotes, either directly or indirectly, the disassociation of said entity from said product. |
| US08409873B2 |
Method of pipetting using a pipette tip holder
A method of pipetting comprises (a) providing a pipette tip holder having a plurality of segregated compartments and a tip support member for supporting a plurality of pipette tips in the pipette tip holder, the tip support member configured to support a single pipette in tip each segregated compartment; (b providing a plurality of pipette tips in the tip support member; (c) removing a first pipette tip from a first segregated compartment; (d) using the first pipette tip to complete a pipetting operation and placing the first pipette tip into a segregated compartment that has not contained a used pipette tip; (e) subsequently removing the first pipette tip from the segregated compartment and using the first pipette tip to complete another pipetting operation; and, (f) replacing the first pipette tip into the pipette tip holder, whereby the first pipette tip, when placed in the segregated compartment, is segregated in the pipette tip holder to reduce the possibility of a fluid from the first pipette tip contacting other pipette tips in the pipette tip holder. |
| US08409869B2 |
Hydrogen sensor, hydrogen detecting system and method
A hydrogen sensor comprises a substrate having a surface coated with a hydrogen absorbing material and a temperature sensitive luminophore such that when the temperature sensitive luminophore is excited, it generates a fluorescent light, the luminescence of which is changed by an exothermic heat resulting from the adsorption of hydrogen through the hydrogen absorbing material. A hydrogen detecting system and a method of detecting hydrogen using the hydrogen sensor are also disclosed. |
| US08409868B2 |
Test element for determining a body fluid and measurement method
A test element for determining a body fluid is provided. The test element, in particular for determining the blood glucose level, includes a detection region which is charged with a reagent sensitive to the body fluid. A function element is arranged in or adjacent to the detection region for detecting at least one status parameter for the detection region, such that the functional element can be evaluated by means of a status measurement. A method for measuring the test element is also disclosed. |
| US08409867B2 |
Ultra low-power CMOS based bio-sensor circuit
An apparatus configured to identify a material having an electric charge, the apparatus having: an inverting gain amplifier including a first field-effect transistor (FET) coupled to a second FET; wherein a gate of the first FET is configured to sense the electric charge and an output of the amplifier provides a measurement of the electric charge to identify the material. |
| US08409862B2 |
Determination of testosterone by mass spectrometry
Provided are methods for determining the presence or amount of testosterone in a test sample, comprising ionizing all or a portion of the testosterone present in the sample to produce one or more testosterone ions that are detectable in a mass spectrometer. All or a portion of the testosterone present in the sample is ionized to produce one or more testosterone ions, which may be isolated and fragmented to produce precursor ions. A separately detectable internal testosterone standard can be provided in the sample. In a preferred embodiment, the reference is 2,2,4,6,6-d5 testosterone. |
| US08409861B2 |
Targeted deletion of cellular DNA sequences
Disclosed herein are methods and compositions for targeted deletion of double-stranded DNA. The compositions include fusion proteins comprising a cleavage domain (or cleavage half-domain) and an engineered zinc finger domain, and polynucleotides encoding same. Methods for targeted deletion include introduction of such fusion proteins, or polynucleotides encoding same, into a cell such that two targeted cleavage events occur. Subsequent cellular repair mechanisms result in deletion of sequences between the two cleavage sites. |
| US08409860B2 |
Method and apparatus for tissue transfer
A handheld tool is disclosed which may be used to transfer a plurality of plant tissue explants from a first container to a second container. The handheld tool may include a disposable tip member which couples the plurality of plant tissue explants through use of negative pressure. An automated system which transfers a plurality of plant tissue explants from a first container to a second container is also disclosed. The automated system may include a first presentment system which moves the first container to a region, a second presentment system which moves the second container to the region, and a robot system that transfers the plurality of plant tissue explants from the first container to the second container. |
| US08409859B2 |
Differentiation of non-embryonic stem cells to cells having a pancreatic phenotype
The invention provides methods for differentiating non-embryonic multipotent stem cells along the pancreatic lineage. The present invention further provides non-embryonic multipotent stem cells and progeny derived therefrom to provide pancreatic cells to a subject. |
| US08409858B2 |
Modular functional peptides for the intracellular delivery of nanoparticles
Described are peptides for delivery of a nanoparticle to the cytosol, the peptide comprising: (a) a nanoparticle association domain; (b) a proline-rich spacer domain; (c) an uptake domain; and (d) a vesicle escape domain comprising a non-hydrolyzable lipid moiety, wherein the spacer domain is between the nanoparticle association domain and the uptake and vesicle escape domains, and wherein the peptide, when attached to an extracellular nanoparticle, is effective to induce uptake of the nanoparticle by a cell and delivery of the nanoparticle to the cytosol of the cell. Also described are methods of delivery of a nanoparticle to the cytosol of a cell, the method comprising providing to a cell a nanoparticle attached to such a peptide. Exemplary nanoparticles include quantum dots. |
| US08409857B1 |
Use of molecular chaperones for the enhanced production of secreted, recombinant proteins in mammalian cells
The present invention relates to a method for increased production of a secreted, recombinant protein product through the introduction of molecular chaperones in a mammalian host cell. The present invention also relates to a mammalian host cell with enhanced expression of a secreted recombinant protein product by coexpressing at least one chaperone protein. |
| US08409856B2 |
Compositions and their uses directed to gemin genes
Disclosed herein are compounds, compositions and methods for modulating the expression of a Gemin Gene. Also provided are methods of target validation. Also provided are uses of disclosed compounds and compositions in the manufacture of a medicament for treatment of diseases and disorders. |
| US08409855B2 |
Apparatus for producing feeds comprising dried and fermented animal and plant residues and dried and fermented fertilizers
An apparatus is provided for the producing feeds/fertilizers containing died and fermented animal and plant residues. The apparatus includes a fermentation tank, an unobstructed circulation duct connected to the fermentation tank and a blower directly connected to the circulation duct wherein blower supplies air for advancing the residues up the circulation duct. |
| US08409854B2 |
Bioreactor provided with equipment with flexible walls
A bioreactor comprising a reactor chamber defined by reactor walls and a reactor opening, optionally with means penetrating the reactor opening in order to supply gases and/or liquids, for taking samples, for supplying microorganisms or cells, for the introduction of measuring probes, for the addition of additives or sterilizing agents and/or for emptying the bioreactor, with means for sealing the reactor opening, wherein at least one inflatable eddy current breaker is installed in the reactor chamber. |
| US08409850B2 |
Microorganism testing device
A microorganism testing device includes a measurement chip having a specimen container; a reaction container for mixing a specimen and a dyeing reagent; a bacteria detection portion irradiated with excitation light; a detection liquid waste container a solution flow path which connects the specimen container, the reaction container and the bacteria detection portion, and ventilation ports which are connected to the specimen container, the reaction container and the detection liquid waste container, through a air flow path and is connected to a chip connecting tube. Bacteria are detected in the bacteria detection portion by switching of the states of the containers between a sealed state and a state open to the atmospheric pressure, by moving the specimen to the reaction container to mix and stir the specimen and the dyeing reagent, and by moving of the liquid mixture to the detection liquid waste container. |
| US08409848B2 |
System and method for rapid thermal cycling
At least one exemplary embodiment is directed to an apparatus that includes a microfluidic channel and at least one energy absorbing element, where the energy absorbing element is configured to absorb at least a portion of an incident electromagnetic radiation. The absorption of the radiation by the energy absorbing element varies the temperature of a sample in the microfluidic channel. |
| US08409847B2 |
System and method for controlling the diameter of a mammilian hybrid coronary bypass graft
Systems and methods are provided for controlling the diameter of a mammalian hybrid coronary bypass graft. The system includes a controller having at least one input for receiving information and feedback information and an output for outputting control signals, including at least one steady flow system control signal; and a pressure/flow loop subsystem coupled to the controller. The pressure/flow loop subsystem includes a specimen holder, an external flow loop system coupled to the specimen holder, a steady flow system, and an output for outputting the feedback information. The pressure/flow loop subsystem receives the control signals and is capable of adjusting a diameter of a specimen in accordance with the control signals, when the specimen holder contains the specimen. |
| US08409842B2 |
Recombinant adeno-associated virus production
The present invention relates to methods and materials for recombinant adeno-associated virus production. More particularly, the invention relates to use of recombinant adenovirus encoding adeno-associated virus protein in recombinant adeno-associated virus production methods. |
| US08409841B2 |
Hydroxynitrile lyase
An improved hydroxynitrile lyase characterized by having a mutation of substitution of at least one amino acid residue in the amino acid sequence of a wild-type hydroxynitrile lyase with another amino acid and by its hydroxynitrile lyase activity per transformant being higher than the hydroxynitrile lyase activity per transformant into which the wild-type hydroxynitrile lyase gene is introduced; and a method for producing a hydroxynitrile lyase, comprising expressing the improved hydroxynitrile lyase in a host and recovering the improved hydroxynitrile lyase from the resultant culture. |
| US08409840B2 |
Recombinant preparation of selected bromelain fractions
The present invention pertains in general to Bromelain and particularly to the different active compounds contained in this complex mixture of proteins. The present invention provides recombinant expressed cysteine proteases, which are found in Bromelain. It has been found that the method for expression of the recombinant proteins is superior to the purification from Bromelain itself. |
| US08409833B2 |
Method for producing scyllo-inositol
It is intended to provide a novel NAD+-independent myo-inositol 2-dehydrogenase which converts myo-inositol into scyllo-inosose in the absence of NAD+; a novel enzyme scyllo-inositol dehydrogenase which stereospecifically reduces scyllo-inosose into scyllo-inositol in the presence of NADH or NADPH; and a novel microorganism which belongs to the genus Acetobacter or Burkholderia and can convert myo-inositol into scyllo-inositol. By using these enzymes or the microorganism, scyllo-inositol is produced. Furthermore, scyllo-inositol is purified by adding boric acid and a metal salt to a liquid mixture containing scyllo-inositol and a neutral saccharide other than scyllo-inositol to form a scyllo-inositol/boric acid complex, separating the complex from the liquid mixture, dissolving the thus separated complex in an acid to give an acidic solution or an acidic suspension and then purifying scyllo-inositol from the acidic solution or the acidic suspension. |
| US08409829B2 |
Methods for analysis of molecular events
Methods and compositions are provided for detecting the presence of nucleic acid sequence variants in a subpopulation of nucleic acid molecules in a biological sample. These methods are particularly useful for identifying individuals with mutations indicative of cancer. |
| US08409828B2 |
Animal product free system and process for purifying a botulinum toxin
Chromatographic processes and systems for purifying a botulinum toxin from an APF fermentation medium. |
| US08409825B2 |
Method for high-level secretory production of protein
This invention provides a means for high-level secretory production of a protein, and, in particular, a protein having a complicated structure such as an antibody, in a host cell such as a yeast cell. This invention provides a method for high-level secretory production of a foreign protein with the use of a transformed host cell having one or more types of chaperone protein genes and via suppression of O sugar chain inherent to a host cell such as a yeast cell. |
| US08409819B1 |
Methods to predict risk for celiac disease by detecting anti-flagellin antibody levels
The present invention provides methods, assays, and kits for predicting or stratifying the risk of celiac disease (CD) based upon HLA-DQ genotype and/or anti-flagellin antibody levels. Such risk prediction or stratification can provide benefits to family members of CD patients, to a subset of patients who are being evaluated clinically for CD, and to researchers, who can utilize this strategy to establish inclusion criteria for participation in research studies investigating potential preventive interventions. |
| US08409818B2 |
Method of diagnosis and kit therefor
The invention provides kits and methods for detecting or monitoring the number of cells in sample. The cell comprises a cell surface associated protein (CSAP) comprising a cytoplasmic (cytosolic) and an extracellular (ecto) domain. The kit comprises: (i) a chromatographic device; and (ii) a CSAP-binding agent. The method comprises: (i) optionally contacting the sample with an agent capable of lysing or permeabilizing CSAP bearing cells; (ii) contacting the sample with a CSAP-binding agent that binds to the cytoplasmic domain of the CSAP; and (iii) directly or indirectly evaluating the level or presence of bound CSAP in the sample. |
| US08409817B2 |
Methods and compositions for detection of Ehrlichia chaffeensis (VLPT)
The invention provides methods and compositions for the detection of Ehrlichia chaffeensis. |
| US08409813B2 |
Treatment of cancer using TLR3 agonists
The present invention relates generally to the fields of genetics and medicine. More specifically, the present invention relates to improved methods of treating cancers using a TLR3 agonist, by assessing the expression of a TLR3 receptor by cancer cells. |
| US08409810B2 |
Platelet aggregation assays using a CD40L-binding agent
The present invention provides methods of determining platelet aggregation, methods of determining susceptibility to clotting upon administration of a CD40L-binding moiety, and kits related thereto. |
| US08409800B2 |
Nucleic acid based fluorescent sensor for copper detection
A nucleic acid enzyme responsive to copper, comprising an oligonucleotide comprising a nucleotide sequence of SEQ ID NO:1, wherein the nucleic acid enzyme is not self-cleaving. |
| US08409794B2 |
Biomarkers useful for diagnosing prostate cancer, and methods thereof
The present invention describes a method for predicting a health-state indicative of the presence of prostate cancer. The method measures the intensities of specific small biochemicals, called metabolites, in a blood sample from a patient with an undetermined health-state, and compares these intensities to the intensities observed in a population of healthy individuals and/or to the intensities previously observed in a population of confirmed prostate cancer-positive individuals. The method enables a practitioner to determine the probability that a screened patient is positive for prostate cancer. |
| US08409792B2 |
Color intermediate motion picture film
Silver halide photographic elements that are color intermediate motion picture films have at least one green sensitive silver halide emulsion that includes a green sensitizing dye that is a cyanine dye having two oxazole groups in the molecule, and another green sensitizing dye having either two imidazole groups in the molecule or one oxazole group and one thiazole group in the molecule. The molar ratio of the first green sensitizing dye to the second green sensitizing dye is from about 4:1 to about 0.3:1. The magenta dye image forming unit has at least one green sensitive silver halide emulsion layer that comprises predominantly cubic silver iodobromide grains having at least 90 mol % bromide and at least 1 mol % iodide, which grains have an average equivalent spherical diameter (ESD) of less than 0.25 μm. |
| US08409791B2 |
Double-sided color photographic paper
Disclosed is a double-sided color photographic paper, including, in order, a first protection layer, a first photosensitive layer, a supporting substrate, a second photosensitive layer and a second protection layer. The supporting substrate has a first surface and a second surface opposite to the first surface. A first barrier layer and at least one layer of a first shading layer are sandwiched between the first photosensitive layer and the first surface of the supporting substrate. The first barrier layer is arranged between the first photosensitive layer and the first shading layer; a second barrier layer and at least one layer of a second shading layer are sandwiched between the second surface of the supporting substrate and the second photosensitive layer, and the second barrier layer is arranged between the second shading layer and the second photosensitive layer. |
| US08409790B2 |
Method of producing a relief image for printing
The present invention involves a method for making a relief image. A film that includes a carrier sheet and an imageable material is used to form a mask image that is opaque to a curing radiation. In one embodiment, the mask image is formed on the carrier sheet while in another embodiment, the mask image is formed on a receptor sheet. The mask image is then transferred to a photosensitive material, such as a flexographic printing plate precursor. The resulting assembly is exposed to the curing radiation resulting in exposed and unexposed areas of the photosensitive material. The carrier sheet or the receptor sheet may be removed from the mask image either before or after exposure to the curing radiation. Finally, the photosensitive material and mask image assembly is developed with a suitable developer to form a relief image. |
| US08409788B2 |
Laser induced thermal imaging method, method of patterning organic layer using the same and method of fabricating organic light emitting diode display device using the same
A laser induced thermal imaging (LITI) method, a method of patterning an organic layer using the same and a method of manufacturing an organic light emitting diode (OLED) display device using the same. The LITI method includes preparing a substrate including a transfer layer, preparing a donor substrate including a base film and a light-to-heat conversion layer disposed on the base film, aligning the substrate with the donor substrate, and irradiating laser to the base layer of the donor substrate. Here, the laser is irradiated to the base layer in a region excluding a region corresponding to a pattern to be formed on the substrate. Thus, according to the method, regardless of the size of the pattern to be formed and the size of the laser beam, stitching mura can be prevented. |
| US08409785B2 |
Apparatus and method for treating imaging materials
An apparatus and method for improving the durability of an image on an imaging material, including increasing the press run length or a printing plate. The apparatus and method can involve the use of, as an example but not restricted to, an imaging device, a pre-bake oven, a processor, and a post-process treatment unit that employs infrared lamps adapted to irradiate the image. |
| US08409784B2 |
Photosensitive resin composition, dry film, and processed product made using the same
Disclosed is a photosensitive resin composition which does not contain any halogenated compound or any antimony compound that has a high risk of putting a load on the environment, which exerts good flame retardancy after being cured, and which particularly meets the recent exacting requirements with respect to bending resistance and insulation reliability. Specifically disclosed is a photosensitive resin composition comprising: (A) a (meth)acrylate compound represented by the general formula (1); (B) a polyimide precursor; and (C) a photopolymerization initiator [in the formula, R1 represents a hydrogen atom or a methyl group; R2 represents a hydrogen atom or a univalent organic group; n and m independently represent an integer of 1 to 5; p represents an integer of 0 to 6; q and r independently represent an integer of 0 to 4; and s represent an integer of 0 to 6, provided that the sum of p, q, r and s is 6, and the sum total of p and s may range from 3 to 6 and is preferably 6]. |
| US08409782B2 |
Photoresist composition comprising photoinitiators, and transparent thin film and liquid crystal display device using the composition
A photoresist composition is provided. The photoresist composition comprises two or more kinds of photoinitiators having different activation wavelengths whose difference is at least 20 nm. The photoresist composition has high sensitivity and forms a pattern whose thickness is easy to control depending on the exposure intensity through a slit or transflective mask. Further provided are a transparent thin film formed using the photoresist composition and a liquid crystal display device comprising the thin film. |
| US08409781B2 |
Composition for formation of resist protection film, and method for formation of resist pattern using the same
Disclosed are: a composition for forming a resist protection film, which shows less damage to a resist film, can form a good, rectangular resist pattern, and can be used regardless of the structure of a resin used in a resist composition; and a method for forming a resist pattern by using the composition. Specifically, disclosed are: a composition for forming a resist protection film, which comprises (a) an alkali-soluble polymer and (b) an ether-based solvent; and a method for forming a resist pattern by using the composition. |
| US08409780B2 |
Negative working, heat-sensitive lithographic printing plate precursor
A heat-sensitive negative-working lithographic printing plate precursor comprising: a support having a hydrophilic surface or which is provided with a hydrophilic layer; and an image-recording layer comprising hydrophobic thermoplastic polymer particles, an infrared light absorbing dye and a dye; wherein said dye has a specified structure and a most bathochromic light absorption peak between 451 nm and 750 nm. |
| US08409777B2 |
Toner and method of manufacturing the same
There is provided a toner which can be manufactured in a simple production method and which is excellent in preservation stability and anti-offset property with uniformly-charging performance. The toner is formed of aggregate of resin-containing particles which are obtained by forming amorphous resin particles into slurry and further finely granulating the amorphous resin particles in form of the slurry followed by aggregation of the amorphous resin particles and which contains a binder resin, a colorant, a release agent, and a release agent-dispersing aid, the resin-containing particles having a volume average particle diameter in a range of from 0.4 μm to 1.0 μm. |
| US08409770B2 |
Blank mask and method of fabricating mask using the same
A blank mask includes a substrate, a multilayer reflection layer disposed over the substrate, a capping layer disposed over the multilayer reflection layer, a self-assembled monolayer disposed over the capping layer, a buffer layer disposed over the self-assembled monolayer, and an absorption layer disposed over the buffer layer. |
| US08409769B2 |
Gas diffusion layer for fuel cell
A gas diffusion layer for a fuel cell is described. The gas diffusion layer includes a carbon fiber mat having a substantially open structure. Bloomed fibrillated acrylic pulp is added into a microporous layer ink. Alternatively, the bloomed fibrillated acrylic pulp can first be disposed on the carbon fiber mat, with the microporous layer ink added thereafter. When the microporous layer ink/bloomed fibrillated acrylic pulp mixture is coated on the carbon fiber mat, the ink penetrates through the open substrate, and is locked into place by the bloomed acrylic pulp fibers. This allows for a buildup of microporous layer ink on top of the substrate for added thickness when the bloomed fibrillated acrylic pulp sits on top of the mat. |
| US08409766B2 |
Fluoroionomer liquid composition
A liquid composition comprising: at least one fluoroionomer (I) [fluoroionomer (I-1)], the fluoroionomer (I-1) having a heat of fusion comprised between 4 and 20 J/g; and at least one fluoroionomer (I) [fluoroionomer (I-2)], the fluoroionomer (I-2) being substantially amorphous, that is to say having a heat of fusion of less than 4 J/g, and wherein the water extractable fraction of the fluoroionomer (I-2) is less than 40% wt, the liquid composition comprising the fluoroionomer (I-1) and the fluoroionomer (I-2) in a weight ratio (I-1)/(I-2) of at least 2:1. |
| US08409757B2 |
Lithium secondary battery
A lithium secondary battery is intended to suppress deterioration upon storage at high temperature of 50° C. or higher without deteriorating the output characteristics at a room temperature. The battery includes a positive electrode capable of occluding and releasing lithium ions, a negative electrode capable of occluding and releasing lithium ions, a separator disposed between the positive electrode and the negative electrode, and an electrolyte. The electrolyte contains a compound having a double bond in the molecule and a compound having a plurality of polymerizable functional groups in the molecule, and the electrolyte contains a compound represented by formula (4): (in which Z1 and Z2 each represent any one of an allyl group, a methallyl group, a vinyl group, an acryl group, and a methacryl group). |
| US08409754B2 |
Positive electrode active material for secondary cell and nonaqueous electrolyte secondary cell using the same, and method for analysis of positive electrode active material for secondary cell
A positive electrode active material for use in a non-aqueous electrolyte secondary cell comprises a powdery metal oxide (LiCoO2, LiNiO2, LiMn2O4 or the like). When the positive electrode active material is classified with a classification precision index κ of 0.7 or greater so as to obtain a coarse powder having a classification ratio in a range of 0.1% to 5%, a ratio (B/A) of the content (B) of an impurity metal element in the coarse powder obtained by the classification to the content (A) of the impurity metal element in the powder before the classification is 1.5 or less. The contents of the impurity metal elements are compared with respect to Ca, Mn, Fe, Cr, Cu, Zn and the like (exclusive of the metal element constituting the powdery metal oxide). The positive electrode active material for a secondary cell serves to improve cell performance capabilities and production yields. |
| US08409753B2 |
Alkaline storage battery
An alkaline storage battery in which an actual reaction area is not reduced after increasing a reaction area is provided. A hydrogen storage alloy negative electrode 11 of an alkaline storage battery 10 of the present invention is formed in a strip form including a long axis and a short axis, in which the ratio (A/B) of a length A (cm) of the long axis to a length B (cm) of the short axis is 20 or more and 30 or less (20≦A/B≦30), and the ratio (X/Y) of an electrolyte volume X (g) retained in the hydrogen storage alloy negative electrode 11 to an electrolyte volume Y (g) retained in a separator 13 is 0.8 or more and 1.1 or less (0.8≦X/Y≦1.1). With this arrangement, an alkaline storage battery with high output characteristics and long-term durability performance is obtained. |
| US08409748B2 |
Battery and electronic apparatus
A battery and an electronic apparatus are disclosed by which it can be discriminated with a simple configuration whether or not the battery is of a thin type. The battery is configured such that a wall portion for discrimination of a battery characteristic which is swollen in a lengthwise direction and connects to a connector section is formed at a location of one of end faces positioned rather near to an end portion in a widthwise direction of a case of the battery. |
| US08409747B2 |
Nonaqueous secondary battery separator and process for its fabrication
A nonaqueous secondary battery separator which is a composite porous membrane obtained by integrally covering both sides of a polyolefin microporous membrane having a gas permeability (JIS P8117) of between 15 seconds/100 cc·μm and 50 seconds/100 cc·μm per unit thickness and a film thickness of between 5 μm and 25 μm, with a porous layer composed of polymetaphenylene isophthalamide, and which exhibits both a shutdown function and effective heat resistance for meltdown resistance, as features desired for high-energy-density, high-output, large-sized, high-performance nonaqueous secondary batteries, while also having excellent handleability and ion permeability. The film thickness of the composite porous membrane is between 6 μm and 35 μm, the gas permeability (JIS P8117) is between 1.01 and 2.00 times that of the polyolefin microporous membrane, and the polymetaphenylene isophthalamide coating amount is between 1.0 g/m2 and 4.0 g/m2. |
| US08409740B2 |
Remote control system
The remote control system (1) has a battery compartment, which is disposed in a housing and which is closed by means of a removable cover lid (4). The cover lid (4) is held to the housing by means of at least one permanent magnet (6, 7). |
| US08409732B2 |
Oxide coated cutting insert
A cutting tool insert includes a body of a hard alloy of cemented carbide, cermet, ceramics, cubic boron nitride based material or high speed steel and a hard and wear resistant coating, including one or several layers, at least one of which is an (Al,Cr)2O3 layer. The coating, with a total thickness of 2-20 μm includes one or several layers, at least one of which is an (Al,Cr)2O3 layer with a thickness of 1-5 μm having a corundum phase crystalline structure and a composition (Al1-yCry)2O3 with 0.5≦y≦0.7. The (Al,Cr)2O3 layer has a fiber texture with rotational symmetry in the direction of the coated surface normal with an inclination angle, φ, of the basal planes relative to the coated surface normal or the inclination angle, φ, for the highest peak in the pole plot with 20°<φ<55°. |
| US08409727B2 |
Color filter array and organic light-emitting display device using the same
A color filter array is provided that is capable of implementing full color with improved light-emitting efficiency and color coordinate values from a mixed light of blue and red, and an organic light-emitting display device using the same. A color filter array receiving a mixed light of blue wavelength light and red wavelength light to implement full color according to an embodiment of the invention comprises a red filter, a green filter, and a blue filter. The red filter includes a first color conversion material for converting the blue wavelength light into green light and red light and a green blocking material for blocking the green light. The green filter includes a second color conversion material for converting the blue wavelength light into green light and red light and a red blocking material for blocking the red light. The blue filter includes a red blocking material for blocking the red wavelength light. |
| US08409726B2 |
Printed circuit board with multiple metallic layers and method of manufacturing the same
Provided is a printed circuit board (PCB) with multiple metallic layers and a method of manufacturing the PCB to improve adhesion between a metal film and a polymer film, on which a circuit pattern is formed. The PCB includes: a first metal film; a polymer film formed on one surface of the first metal film; and a second metal film, interposed between the first metal film and the polymer film, having a first surface facing the first metal film and a second surface facing the polymer film, wherein the second surface is rougher than the first surface. |
| US08409725B2 |
Structural member of different materials
The invention provides a structural member of different materials having no different-material-bonded part between aluminum alloy material and steel material to be assembled. The structural member of different materials comprised of steel and aluminum alloy includes a first structural member including steel, and a second structural member having a part including steel and a part including aluminum alloy, the part including steel and the part including aluminum alloy being bonded by different-material bonding. The first structural member and the second structural member are bonded together only by bonding of steels between the part including steel of the second structural member and the first structural member. |
| US08409724B2 |
Coated article having antibacterial effect and method for making the same
A coated article is described. The coated article includes a substrate, a bonding layer formed on the substrate, a plurality of nickel-chromium-nitrogen layers and a plurality of copper-zinc alloy layers formed on the bonding layer. The bonding layer is a nickel-chromium layer. Each nickel-chromium-nitrogen layer interleaves with one copper-zinc alloy layer. One of the nickel-chromium-nitrogen layers is directly formed on the bonding layer. A method for making the coated article is also described. |
| US08409722B2 |
Alloy material having high-temperature corrosion resistance, thermal barrier coating, turbine member, and gas turbine
An alloy material having high-temperature corrosion resistance, which exhibits excellent oxidation resistance and ductility and can be applied to gas turbines used at ultra high temperatures, and a thermal barrier coating, a turbine member and a gas turbine each comprising the alloy material. An alloy material having high-temperature corrosion resistance, comprising, by weight, Co: 15 to 30%, Cr: 10 to 30%, Al: 4 to 15%, Y: 0.1 to 3%, and Re: 0.1 to 1%, with the balance being substantially Ni. Also, an alloy material having high-temperature corrosion resistance, comprising, by weight, Ni: 20 to 40%, Cr: 10 to 30%, Al: 4 to 15%, Y: 0.1 to 3%, and Re: 0.1 to 5%, with the balance being substantially Co. |
| US08409721B2 |
Production method of pigment-dispersing resin
This invention provides a method for producing a pigment-dispersing resin which contains divalent group(s) represented by a general formula (I): (in which R1 stands for C1-10 alkylene group, m is an integer of 1-30, and the m recurring units, may be the same or different), phosphoric acid group(s) and/or sulfonic acid group(s), characterized by copolymerizing a polymerizable unsaturated monomeric mixture in a reaction solvent containing at least 30 mass %, based on the total mass of the reaction solvent, of an organic solvent having no hydroxyl group and having a solubility in 20° C. water of at least 100 mass %. |
| US08409719B2 |
Ammonium alkylphosphate containing intermediate transfer members
An intermediate transfer member that includes a mixture of a polyamideimide, an ammonium alkylphosphate, an optional polysiloxane, and an optional conductive filler. |
| US08409716B2 |
Glass or glass-ceramic substrate with scratch-resistant coating and method for the production thereof
The invention in general relates to glass or glass-ceramic products. In order to protect the surface of such products against scratching, a silicon oxynitride coating with special composition is provided. |
| US08409711B2 |
Heat resistant phosphate cement
An article of manufacture including reinforcement material embedded in a phosphate cement composition is provided. The phosphate cement composition includes about 10 to 40 percent by weight calcium or magnesium oxide, about 10 to 40 percent by weight acid phosphate, and about 10 to 50 percent by weight vermiculite or perlite or mixture thereof. |
| US08409710B2 |
Particles with structured surface
Particles with a structural surface which are useful to produce abrasion resistant self-cleaning surfaces contain particulate solid particles having a superstructured overlayer of fine particles. The particles may be prepared by polymerizing a polymerizable siloxane, silane, or mixture thereof in a Pickering emulsion. |
| US08409698B2 |
Image transfer product including a thin printing surface layer
An image transfer product such as an offset printing blanket or sleeve is provided which comprises a very thin printing surface layer in combination with a smooth image reinforcement layer comprising a polymeric film, a fabric, or a polymer-coated fabric. The thin printing surface layer has a thickness between about 0.001 to about 0.012 inches (about 0.025 to about 0.3 mm). The image transfer product is more efficiently manufactured due to reduced solvent usage and reduced number of coating passes, and in use, exhibits uniform feed, web control, and registration characteristics. |
| US08409695B2 |
Multilayer nitride hard coatings
A wear resistant multilayer nitride hard coating for substrates. The hard coating includes a first layer of titanium aluminum nitride and a second layer comprising a plurality of sublayer groups. Each sublayer group includes a first sublayer of titanium silicon nitride and a second sublayer of titanium aluminum nitride. The composition of the titanium aluminum nitride, both in the first layer and in the sublayer groups, is (TixAl1-x)N, wherein 0.4≦x≦0.6. The composition of the titanium silicon nitride sublayers is (TiySi1-y)N, wherein 0.85≦y≦0.98, and all of the silicon is in solid solution in the titanium silicon nitride such that no silicon phase or silicon nitride phase exists in this sublayer. The combined amount of aluminum and silicon present in the sublayer groups being narrowly controlled such that the sum of x and y is in the range of 1.38 to 1.46. |
| US08409692B2 |
Insulation structure for resistor grids
An insulation board for a resistor grid and methods for manufacturing the same are disclosed. The insulation board consists of a plurality of longitudinal voids. One or more longitudinal structural members are disposed in the longitudinal voids. The longitudinal structural members may be shaped to conform to the shape of the longitudinal voids. The method of constructing the insulation board includes providing a profiled block and inserting one or more longitudinal structural members in the longitudinal voids. Alternatively, the insulation board may be constructed by providing one or more longitudinal structural members and molding a profiled block over the longitudinal structural members. One or more rows of transverse pin holes may be provided along the length of the insulation board for engaging pins of resistive elements of the resistor grid. |
| US08409688B2 |
Water Draining foot mat
A water draining foot mat having a base with a plurality of upward extending projections where the upper draining surface of the base is sloped to facilitate the draining of water from the mat and the tops of the projections form a support for people to step on. The projections are sufficiently spaced apart to permit the majority of snow impinging the mat to contact the base where it can melt with the assistance of sunlight or salt so that the resulting water flows off the mat. The mat optionally includes water retaining walls with one or more water exits so that the walls in conjunction with the slope of the upper surface of the base cause water impinging on the mat to flow towards the water exits and off the mat. |
| US08409684B2 |
Release sheet for stamper-receiving layer, and optical recording medium-producing sheet
A release sheet, on which a stamper receiving layer for producing an optical recording medium is laminated, comprising a release agent layer on a side to which the stamper receiving layer is laminated, wherein the release agent layer is formed using a release agent that contains an organopolysiloxane (other than an MQ resin below) containing an alkenyl group in the molecule, an MQ resin containing an alkenyl group and having, as constituent components, M units represented by formula (1) R12R2—Si—O— (1) (where, R1 denotes an organic group and R2 denotes an alkenyl group), and Q units represented by formula (2) and a cross-linking agent, and that does not substantially contain particles consisting of inorganic matter, and the alkenyl group content in said MQ resin ranges from 0.5 to 5 wt %. The release sheet can reduce concave defects on a convex-concave pattern transfer surface of the stamper receiving layer. |
| US08409681B2 |
Multi-stage process for producing multi-modal linear low density polyethylene
A process is disclosed for producing a multi-modal linear low density polyethylene in at least two staged reactors connected in series, comprising (i) polymerizing in a first slurry phase stage ethylene monomers with a Ziegler-Natta polymerization catalyst system to obtain a first polyethylene fraction component (A); and (ii) polymerizing in a second gas or slurry phase stage ethylene monomers with a Ziegler-Natta polymerization catalyst system to obtain a second polyethylene fraction component (B). The Ziegler-Natta polymerization catalyst system comprises: 1) a solid procatalyst formed by contacting at least: a) a Mg-alcoholate complex of formula (I) b) an aluminum compound of formula (II); and c) a vanadium compound and a titanium compound having a molar ratio (V:Ti) from 10:90 to 90:10; and 2) one or more organometallic cocatalvsts of formula (III). The linear low density polyethylene shows an improved comonomer composition distribution Formulas (I), (II), and (III) are described herein. |